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S2-04: Gamification in the K–8 classroom

Podcast episode graphic featuring guest Fabian Hofmann, titled "Gamification in the K–8 classroom," from Science Connections Season 2, Episode 4, with an illustration of a planet.

In this episode, Eric Cross sits down with his colleague and friend Fabian Hofmann to talk through gamification in the K–8 classroom. They discuss Fabian’s experience teaching outside of the United States, and the differences in classrooms outside of the country. Fabian explains the integration of game mechanisms in the classroom, standard-based grading, and shifting student thinking about learning by forming strong relationships. Fabian also shares how he created a new STEM course at his school revolving around his own passion for Star Wars. Explore more from Science Connections by visiting our main page.

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Fabian Hofmann (00:00):

In Mr. Hofmann’s class, I get to earn points and I get to be a Jedi. I can suspend my disbelief and I’m learning history, but at the same time, I’m traveling through the galaxy.

Eric Cross (00:13):

Welcome to Science Connections. I’m your host, Eric Cross. My guest today is Fabian Hofmann. Fabian is a middle school IB educator, currently teaching seventh grade multimedia design and history at Albert Einstein Academy’s middle school here in San Diego, California. He also hosts the podcast Rebel Teacher Alliance, a podcast dedicated to encouraging and supporting teachers to rethink student engagement. Fabian’s one of the most innovative teachers that I’ve ever met. His use of technology and gamification makes learning fun and accessible for our students. And I have firsthand experience with these students because we teach on the same team and have worked alongside each other during my entire career as a teacher. In this episode, we discuss gamification of the classroom, how he approaches grading from an innovator’s mindset, and his newest STEM class, Immersive Design, where his students are working with former Disney Imagineers to completely renovate their classroom into an interactive Star Wars-themed learning environment. And now, please enjoy my conversation with my good friend and colleague, Fabian Hofmann. We’ve worked together for how many years now? How many years have you been at Einstein?

Fabian Hofmann (01:23):

Well, I started when you started, like after you were student teaching, so 2014.

Eric Cross (01:28):

OK, so it’s been a while.

Fabian Hofmann (01:30):

Yeah. And then I took two years off and I went to Hawaii. I couldn’t handle the pressure. And then I came back. So we’ve worked together for six years but known each other for eight.

Eric Cross (01:39):

What’s your origin story? We’re gonna talk about your origin story. I told you.

Fabian Hofmann (01:42):

All right, cool. Right. So when I was a little boy…no. <Laugh>

Eric Cross (01:46):

This podcast is not that long!

Fabian Hofmann (01:49):

So no, I started out, teaching in 2009. I started student teaching in Germany and was teaching history and English. Did this two-year student-teaching program there. And then, when I was done, my wife and I, she’s American, we got married and we decided to move to the States. And then I started teaching at a German cultural center called the Goethe-Institut in San Francisco. We lived in the Bay Area. And from there, after a year we moved down to San Diego; I started subbing; I worked for a year at High Tech High. I taught humanities there. And then, after that year, I ended up at Einstein teaching German because that was what was available. I didn’t want to teach German. That wasn’t like, on the top of my list. But it made sense because I had taught German in San Francisco and it kind of was like, “Well, I can do that, I guess.” And then, yeah, and then I went back to—we went to Hawaii for a couple of years and then I came back here to start teaching history. So I’ve taught like a million things essentially.

Eric Cross (02:52):

And then during that time, what’s your evolution been like in the classroom? Kind of like your view of education? And how does that play out in your day-to-day with kids?

Fabian Hofmann (02:59):

So when I started teaching here in the States, I noticed that it’s very different. Technology was much further along here than it was in Germany. So when I got here and we had like an iPad cart; I helped setting up the iPad carts. And I worked with the Chromebooks and I was like, holy, holy crap, this is so cool. Like, kids can like actually do things with this technology. And then, I mean, I love technology. I’ve had an iPad when it came out and stuff like that. And so I was like, “Oh, so how about we use this in our classroom?” And so I always moved—I moved very quickly to having students create on the iPad. And at first it was like, “Oh, we use the Apple apps and stuff.” And then I went to an ed-tech teacher summit here in San Diego and my eyes were like opened to, “Oh my God, there’s so much more than just the Apple apps.” And ever since then I was like, “OK, we’re gonna use this; we’re gonna do that.” It’s just crazy stuff that I thought was cool and that students really seemed to enjoy, because it wasn’t like a typical language class; it was more like, “Well, what can we do to create, and how can we somehow still use the language but we are learning coding at the same time, or we are creating something in 3D at the same time?” Like, I was always trying to make it have two angles: the language angle, obviously, and then also the technology angle.

Eric Cross (04:25):

What was it that kept you kind of pushing? ‘Cause I remember the beginning in the Classcraft days to where you are now, I feel like you’re like light-years ahead of where you started.

Fabian Hofmann (04:37):

So you were actually the one who showed me Classcraft, which is like a gamification portal, kind of off-the-shelf thing that you can subscribe to. It has some free features and it’s like a gamification platform where students can create characters. And then these characters go on adventures. That’s like their avatar, and they get experience points in the classroom game and stuff happens. You can create, like, adventure paths for them. So if you have an assignment that you want students to do that has different steps, so, that could be an adventure path. That’s what I liked about Classcraft, is like this idea of like, “OK, we’re taking a game and applying it.” But it wasn’t enough for me. And so I started developing my own classroom game. I did some reading. I met online with John Meehan, worked with him. I read the book by Michael Matera, Explore Like a Pirate. And so it just broadened my whole world to, or just opened the world of gamification to me.

Eric Cross (05:38):

You present on gamification; you mentor other teachers on gamification. You host a podcast where you talk about it. But for those people who haven’t done it or gotten into it or maybe have a perception of it maybe that’s not quite accurate, can you talk a little bit about like what gamification is and what it’s not?

Fabian Hofmann (05:54):

  1. So the biggest difference…we all know game-based learning, because we all do it. We use Quizlet; we use quizzes; we use Gimkit, Blookit, Jeopardy, anything like that. Those are game based. That’s game-based learning. So using a game to facilitate learning. Which is great. I love game-based learning too. But the difference is with gamification, in the pure definition of gamification, is that you’re using game mechanics and elements and apply them to a non-game setting. A couple of smart educators were like, “Why don’t we just do that in our classroom?” And so we borrow these elements, these mechanics, these game mechanics, like getting experience points, and applying them to the classroom. So anything that students do, they earn points. So they turn in an assignment, that gets you a hundred points. They go and do something extra for the class, they get 50 points. Whatever it is, whatever your value is. That’s one aspect, like a leaderboard, virtual money, stuff like that that just in reality is not necessary, but you’re putting it somewhere where it doesn’t exist. And all of a sudden students have this weird shift in their view where it’s like, “Well, school is school, but in Mr. Hofmann’s class, I get to earn points and I get to be a Jedi and I can suspend my disbelief and I’m learning history, but at the same time I’m like traveling through the galaxy.” And it’s just amazing how that shift happens just because we’re changing the language a little bit.

Eric Cross (07:29):

Yeah. You seem to have like tapped into something that is already kind of in that zeitgeist culture thing. We’re gaming and it appeals to—I know it appeals to our students regardless of how they feel about even the subject that’s being taught, the fact that they’re immersed into this environment where they’re taking on this character role and they’re part of this bigger narrative. And you’ve so dynamically constructed this whole storyline and these experiences, and they’re learning experiences, like, they’re learning, but they’re enjoying it in a different way. But I wanted to ask you about something that I really admire that you do, and it’s how you grade. And I remember the first time you said this, we were in a parent-teacher conference and we’re all talking on Zoom with these parents and we’re all sharing our spiel. And you go, I don’t grade kids. They grade themselves. Can you talk a little bit about your conferencing with students? The rubric you use like that that, I’ve really been paying close attention to lately.

Fabian Hofmann (08:24):

Yeah. So, when I was working in Hawaii, I noticed I was teaching English, and grading papers in English is really not fun. Like, that is like my least favorite thing. Some teachers are like, “Yeah, it’s grading! Awesome! I can read stuff!” For me, it’s like, yes, I like to read stuff, but I—and it was the same in German class. I gave them feedback. Sometimes I would use oral feedback, I would, like, record stuff for them, and they would listen to it, and then they would work on it. And so I noticed when I’m giving them feedback and its oral feedback, they’re more inclined to actually work on the stuff that I was critiquing, versus when I sat down and I wrote something. They would never read it. Or some would, and most of them would not. And so I was like, this sucks. <Laughs> And I encountered this book called Hacking Assessment, because it’s such a waste of time, right? You spend so much time, because you wanna do the due diligence. And for those few kids who actually do care, that benefits them. But I want this to benefit everybody. And so I read this book called Hacking Assessment, by Starr Sackstein. And she talks about how she put the onus of grading into the student hands, essentially. And so she did standard-based grading and essentially said, “You know what? Here’s the thing. I am not going to grade you anymore. You are going to get a rubric that we are going to dissect and explain and make sure that you understand. And then you sit down and you give yourself a grade based on this rubric.” And I was like, “Wow, what? That is….I can do that? And the cool thing about this book is that she covers all the roadblocks that we as teachers have. And she explains, like, she gives examples on what we can do to convince parents, to convince admin, to convince the community, convince other teachers why what we’re doing is much, much better for a student than the previous system is. If you think about it, when a student comes into school, they start at a hundred, they start the year at a hundred, and all they’re doing is just lose points. And they’re just trying to keep up. Right? And it kind of flips this on its head, because not only with the gamification, I’m changing the name of the game, literally, but I’m also now with ungrading, I’m giving them the responsibility and the accountability to really look at their stuff and really be critical about how they’re doing. And I taught like normal in my first year in Hawaii when I was teaching English, by me grading everything and turning it and giving it to them. And I used peer grade and I did all that kind of stuff. But in the end, I was always the one responsible for the grade. But then I started to do the ungrading move and I just started to conference with kids and started giving them feedback, with the help of gamification, because there’s like a bunch of rubrics you can use to make it more fun. But all of a sudden, kids that in the year before would’ve failed my class in English, because they were English learners; they were just not into it; they didn’t care as much…all of a sudden that flipped completely. I did the exact same content again. We had to write an essay and all of a sudden, the essays were all like, up there, because we sat down, we talked about it, we went through this review process, gave them feedback. In the end, they could say, “Hey, I want this grade. And then I still have the last say. I would say, say, “Yep, sounds good.” Or “If you wanna get an A on this, or whatever it was, a 4, then here are the things you still need to do.” And because I did that, all of a sudden, the students are like, “Oh, that’s all I need to do?” And then they did it and turned it in, and all of a sudden, they got a 4. It’s, it’s amazing how that the conferencing with students, how that shifted their attitude. And I got to know my students way better than I ever had.

Eric Cross (12:20):

Yeah. That’s, that’s one of the things that I’ve noticed. And I watch you get so much more facetime with students having conferences than I do. I find myself grading…and, you know, at our school, it’s mastery-based instruction, so students can retake assessments, but you’re absolutely right: I give a grade; they get a score; and some of ’em score lower, but in their minds it’s like, OK, I’m done with that. And even though they can retake it, such a small percentage actually do. But the information that I give them in the feedback is often not read. But you’re sitting down and having a conversation and really listening and there’s so much more of a connection that you have. I just think it’s so rich. But the question I have now is how do you make the time for those conversations with those kids in your class?

Fabian Hofmann (13:01):

Yeah, it’s definitely a learning curve. Like the first year I did it, it was horrible. Like <laugh>, it cost so much time. Because kids came, because when it was time to grading, because I had not figured it out yet, I had not streamlined it. And I’m still learning. I’m still trying to figure this out and do it even better. But the idea is that you do something, you check in with me really quick. That doesn’t have to be like a full-on conference. It’s—I walk around or I call them up and say, “Hey, I saw you working on this. How did, how are you doing there? How many—” Like, let’s say I use a rubric that gives them crystals for different parts. They write the introduction; they write a bibliography; whatever, so I can bring them up and say, “Hey, how is the bibliography looking?” And they’re like, “Oh yeah, I’m missing…like, I only have like one or two sources.” And then we say, “OK, so right now you would get two crystals out of three because you have something. When you come back, you get all the crystals.” And so that’s a gamified aspect again, right? They’re coming back to get more crystals, not because they wanna do better necessarily. But because they’re like, “Hey, I wanna get those crystals because it gives me points in the game.” They are very good about like grading themselves and kind of like, they’re really hard on themselves sometimes too. And I have students who are like—

Eric Cross (14:08):

Yeah, they are.

Fabian Hofmann (14:09):

“Well, how can you make sure that people don’t just give themselves an eight?” And I’m like, “Because there’s a system in place that that does not happen. Like, there is a rubric, and if they cannot back up what they want, then it’s not gonna happen. They can write an eight all day long. I’m still the person entering it into the grade book!” <Laugh>

Eric Cross (14:27):

And let me premise this for listeners who don’t teach at IB schools, which is probably like most people.

Fabian Hofmann (14:31):

Yeah.

Eric Cross (14:32):

So IB, we teach zero through eight on a rubric system. And seven-eight is kind of like the A, kind of, quote-unquote. I know IB people are probably cringing when I say that, but <laugh>, you know, when you transfer it to like a high school? Seven, eight would be the highest score, you know. Four, five, six. So when we say eight, we’re talking about the highest score.

Fabian Hofmann (14:49):

Yeah. And so it’s really interesting because I can call them out on stuff, and it’s a one-on-one conversation, right? And if, especially if they turn something in that is not great, and they give themselves like a—I don’t know, like a C, let’s say, or a four, or whatever it is—and they’re like, “And you’re happy with that?” And then they’re standing there and they’re like, like, “No…?” <Laugh> And all of a sudden there’s a conversation. Where it’s like, and then I can be very intentionally like, “Hey man, I know you can do better. I would not—I’m not gonna accept this. I’m gonna push you to turn this in again.” And most of them actually sit down and do more. It’s a process. It takes a while. It’s not pretty in the beginning. But the payout is, so it’s incredible. Just like the amount of time that I get to spend with students, like specifically talking to them about things that they still need to work on, celebrating stuff they do, it’s incredible. Like the relationships are just so different than what I had years ago.

Eric Cross (15:50):

And you’ve also created a system where we preach—and schools always talk about this Dweck growth mindset and not having a fixed mindset, but I wonder how many opportunities or how systems are set up that are actually fixed, where it’s like one and done, OK, you did this exam and then that’s it, but there’s no opportunities to grow until the next exam! Which is gonna be….or whatever the assessment is, which is a whole different area of content or different topic or whatever. But here, you’re actually able to facilitate this growth mindset and push back if a student says, like, “Well that’s—I just got a four,” and you can actually pour into them and talk to them. And do you ever hear more about a student’s story as to why they were where they’re at, as you’re having these conferences?

Fabian Hofmann (16:29):

Oh, absolutely. Like for some kids who, who are just like not getting the work done or whatever, there’s always something where it’s not because they’re not smart or because they’re lazy. It’s like, sometimes, literally they tell you, well, ’cause I ask them, “Hey, can you work on this at home?” Or “Can you come in during lunch, after school, whatever? I’m always here.” And then they drop some bombs on you, like, “Hey, my parents, like, divorced. My mom lives in Mexico.” ‘Cause we live in San Diego. So some students live in Mexico and come to school here in San Diego and they get stuck at the border or, even though they have internet at home, they have to share. It’s like kind of what we experienced during the pandemic, where it’s like, there’s like three kids at home and one computer. Stuff like that. Right? And it’s these stories where you’re like, first of all, it’s very humbling ’cause they’re going through stuff that I never had to go through. I mean, my childhood was not amazing, but compared to what they’re going through, it’s like, “Oh yeah, that exists.” And it kind of like puts you in your place a little bit. It’s also because of the system that I use. There’s no late, really, in my class. Some of the students are like, “I need to subtract points from my grade because I turned it in late.” And I’m like, “No, no, no, no, no. The fact that you’re doing it is quote-unquote punishment enough ’cause you have to do it outside of class, you have to do it at home; you have to do it during lunch. Like, that is, that is not comfortable. You’re still doing it. So why would I punish you by taking a grade away? That doesn’t make sense. You got the work done. That’s all that matters.” I try to be that person that like is understanding. It’s still pushing them to do their best and reminding them and harping on them. And with the spark that I threw in there and fanning that flame of them becoming a better student because I’m supporting them. You’re supporting them. We’re all—our seventh-grade team is incredibly supportive. And then some people might push back, like “That’s not preparing them for the real world.” This is the real world.

Eric Cross (18:20):

There’s a lot of life skills that they’re gonna need…but like, they’re 12 right now! Or 11 or six, you know, whatever it is! Let’s—we can hold off on taxes and the crushing weight of adult reality later on. You got it done! Well-done! I do wanna talk about this thing that is your baby lately, this embryonic thing that you’ve been growing and I’ve been fortunate to be able to watch it since its inception. But you have this class that you created from scratch that’s essentially a STEM class. Two questions: Why did you create the class? And you’ve done some uncommon things. I’m gonna leave it wide open just for you to talk about it because it’s your baby and I’ve been fortunate to be able to watch it from the start. So can you talk about that?

Fabian Hofmann (19:01):

So yeah, so I’m obsessed with Star Wars. I think that’s putting it mildly. I love Star Wars. Always have. My classroom game is called Jedi Academy. And I’ve been playing around with this idea of creating a room that is more immersive. So I put a space, like a window to space, on my wall. I have the Millennium Falcon in my room. I have like a bunch of Resistance stuff or whatever. Anything Star Wars, you can find in my classroom. It’s not like overloaded, but I was very intentional in the things that I put in there, because I want my students to come in and feel like they are playing the game. And one of those things that I used was like smells; I used sounds to try to immerse them more. And then so one day I was like, wouldn’t it be cool to create a classroom that looks literally like a Star Wars set? Like you walked onto a set. Onto a spaceship, onto a rebel base, onto whatever it is. And how can I, how can I make that happen? And then we talked about it and you were like, “Yeah, how about you let the kids do it?” And that’s kind of how the course was born. And now I have students in my classroom who are in the process of designing a classroom based on Star Wars. And they’re gonna build everything. And we’re all learning at the same time. I’ve never done anything like this. I do like STEM, but I’ve never like actually made it a class. And so I contacted a bunch of people on LinkedIn ’cause I was like, it would be cool to talk to an Imagineer and to get like my foot in the door at Disney and then have an Imagineer come in and tell us about what they did. I have this book called The Art of Galaxy’s Edge, which is like the Star Wars land in Disneyland. And I just looked at the list and was like, “Who could be a good person to contact here?” And it said one of them was Eric Baker, and it said, “Executive Creative Director.” And I googled him or I looked for him on LinkedIn and I found him and I was like, “I’m just gonna send him a message. I’m just gonna tell him what I do in my class in history, gamification and all that, and they’re Jedi, and blah, blah, blah.” And he wrote back! Like, he was the only person that wrote back. I wrote a bunch of people and he was like, “Yeah, I’d be super-interested. I don’t know what you want me to do, but I’m down.” And so it created this relationship between me and Eric Baker who used to work for Imagineering, who are like the people at Disney who create the rides in the park and all that. And I talked to him and he gave me some feedback on the room. And then he was like, “Oh, so if you ever want me to talk to students, I’m down.” I was like, “Uh, yes!” And so we had him Zoom in. He talked about his life and how he became one of the people to look for when it comes to theme park design and to create immersive experiences. And I contacted other people on YouTube, like somebody who is like a Star Wars room builder. He’s willing to chat with us about this project. And then, I discovered that there is this thing called Imagination Campus at Disneyland, which they offer workshops on immersive storytelling. And I was like, “Oh, that’s what I want! I want my students to tell a story with my room!” And so I wrote up a proposal. Took a long time, but they signed—our admin signed it off. We kind of financed it. And then, about two weeks ago, you came along, another teacher, and we took 30something students to Disneyland and they did this workshop where they learned all about like how the Imagineers design story elements and put them in the parks. And then we took all of the kids to Galaxy’s Edge. And we took a bunch of photos. We went on the rides together. We had this collective experience. And it was life-changing for a lot of students. Because, I mean, we’re a Title One school; there’s like, we have about 60% free or reduced lunch. And a lot of them had never been to Disneyland. About half of them had never been. Some of them went when they were little. And so just watching their faces, going to Disneyland, watching them walk into Galaxy’s Edge, experiencing all these things, it was just, my mind was just blown. And I like literally, I don’t know if you noticed, but I was just smiling. Literally.

Eric Cross (23:19):

You were loving it.

Fabian Hofmann (23:20):

Yeah. Then we come back and we have these amazing conversations about design and what they noticed and how they created this immersive experience in their world. And we talk about how we can bring this back to our classroom. And parents are sending emails saying, “Oh my God, we’re so happy that you did this for our kids and you’re the coolest teacher.”

Eric Cross (23:39):

You touched on something that I wanted to ask you about. So you stay connected to people that inspire you, I feel like, or you have a pretty broad network of educators and professionals. Like, how much does that play into what you do in the classroom and the ideas that you have, as your network or your community of people?

Fabian Hofmann (23:57):

So the one network that helped me the most is Twitter. And I know people have opinions about Twitter, for good reason. But when I started to gamify, I just started to follow specific hashtags for areas that interested me. And that was gamification; eXPdup, which is like Explore like a Pirate—it’s an acronym. And it just opened up all these people, all these people, all these educators who are out there just like doing cool stuff and sharing it on Twitter. And I started connecting with them. And one of them is on my podcast. We met through Twitter; we started sharing stuff. We started talking about the things that we do. We both happened to have a gamified classroom. And so we connected over this thing Twitter, and now we’re like friends and we’re presenting together at Q and all those places. Teacher Twitter is incredibly supportive and people want to show you the stuff that they work on, just like I do. Like when I have stuff that I worked out, I shared it on there. And it’s so fun to hear back from teachers saying, “Hey, this looks awesome.” It’s just, it makes you feel good and it makes you feel like, “Oh, what I’m doing is not a total waste of time.” <Laugh>

Eric Cross (25:10):

<laugh> Those thoughts do creep in, right? Like, even though you’re doing something awesome and you might think so, we become our own worst critic sometimes, or we always see the things that we can improve and we overlook the things that we’re doing well. Fabian, where can people hear more about you, about gamification, about what you’re doing in the classroom, about how you’re innovating? I know you talk about this stuff with some—and you talk about it with some pretty legit people in the education industry. So can you tell some folks where they can hear more about it?

Fabian Hofmann (25:37):

So you can find me on Twitter at Hofmann edu—one F, two Ns—edu, and then I also host a podcast called Rebel Teacher Alliance. There’s three of us, where we talk all things gamification. But we also talk to teachers who don’t gamify at all. And we just, we just invite people who are interesting, who have stuff to share, who do cool stuff. You can find the podcast on the internet at Rebel Teacher Alliance dot com. Follow us there. If you wanna be a guest, just send a message and we’ll get you on.

Eric Cross (26:10):

Fabian, I’m gonna gush on you right now, but when you came back to Einstein, I was so happy because I knew that you sharpened me; you make me a better science teacher. Your innovation, your passion for kids, your sense of humor, your outside-the-box thinking, all of that. And when you got onto the seventh-grade team and you were here, I just knew that it was going to be awesome. And it has been. And so as a teaching colleague, as a friend, dude, you just rock, man. I’m super proud of you. And thank you for making me better.

Fabian Hofmann (26:40):

Aw, now I’m starting to cry. It’s like, don’t…

Eric Cross (26:43):

<laugh>. All true, dude. All true, my brother.

Fabian Hofmann (26:46):

Thank you.

Eric Cross (26:46):

All true. And thank you for letting me be part of the journey and I will definitely be walking down the hall asking you questions as I try to implement some of these great ideas that you’re doing with kids. Thanks so much for listening. And now we wanna hear more about you. Do you know any inspiring educators? Nominate them as a future guest on Science Connections by emailing STEM at amplifycom.wpengine.com. That’s S T E M at amplifycom.wpengine.com. Make sure to click subscribe wherever you listen to podcasts and join our Facebook group, Science Connections: The Community. Until next time.

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What Fabian Hofmann says about science

“I want my students to come in and feel like they are playing the game. I used smells. I used sounds to try to immerse them more. And then so one day I was like, wouldn’t it be cool to create a classroom that looks literally like a set?”

– Fabian Hofmann

Middle School Educator, Albert Einstein Academies Middle School

Meet the guest

Fabian Hofmann is a middle school International Baccalaureate teacher and host of the Podcast, Rebel Teacher Alliance. He is currently teaching 7th grade History and Multimedia Design just down the hall from Eric Cross at Albert Einstein Academies Middle School in San Diego. To engage students, he uses technology and gamification. Students embark on a year-long journey through a galaxy far, far away to learn the ways of the “Force” and some world history along the way. Follow him on Twitter and check out the Rebel Teacher Alliance podcast.

A man with short gray hair and a beard is smiling at the camera, photographed against a neutral background inside a circular frame with a small yellow sparkle accent, evoking the playful spirit of gamification.

About Science Connections

Welcome to Science Connections! Science is changing before our eyes, now more than ever. So…how do we help kids figure that out? We will bring on educators, scientists, and more to discuss the importance of high-quality science instruction. In this episode, hear from our host Eric Cross about his work engaging students as a K-8 science teacher.

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What students learn

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When you’re ready:

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  • Click on the orange “See how the unit works” link to download a helpful Unit Guide. These guides make great companions to busy reviewers looking for a big-picture understanding of how each unit works.
An illustration from Needs of Plants and Animals unit

Unit 1

Needs of Plants and Animals

Student role: Scientists

Phenomenon: There are no monarch caterpillars in the Mariposa Grove community garden ever since vegetables were planted.

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An illustration from the Pushes and Pulls unit

Unit 2

Pushes and Pulls

Student role: Pinball engineers

Phenomenon: Pinball machines allow people to control the direction and strength of forces on a ball.

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An illustration from the Sunlight and Weather unit

Unit 3

Sunlight and Weather

Student role: Weather scientists

Phenomenon: Students at one school are too cold during morning recess, while students at another are too hot during afternoon recess.

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How teachers teach

Tom Teacher feels confident delivering 3-D instruction with our resources by his side. Watch this video to learn more. >

When you’re ready:

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  • Click on the orange links below each component to see grade-specific samples.
Most adopted curriculum for the NGSS California

Classroom Slides

These customizable PowerPoints are available for every lesson of the program and make delivering instruction a snap with visual prompts, colorful activity instructions, investigation set-up videos and animations, and suggested teacher talk in the notes section of each slide.

Video introduction to Classroom Slides

Sample Classroom Slides

Sample Classroom Slides (Spanish)

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Teacher’s Reference Guide

Available digitally and in print, our unit-specific reference guides are chock full of helpful resources, including scientific background knowledge, planning information and resources, color-coded 3-D Statements, detailed lesson plans, tips for delivering instruction, and differentiation strategies.

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Amplify Science California supports 3-D learning with more materials than any other program.

Materials Kits

Our kits include enough non-consumable materials to support a class of 36 students and enough consumable items to support 72 students. In other words, each kit can last two years! Plus, our unit-specific kits mean you just grab the tub you need and then put it all back with ease.

List of investigations by unit

List of materials by unit

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Big Books and Student Books

Students are never asked to read alone. Rather, books are read to, with, and by students with ample scaffolding and support provided by the teacher. Big Books are read aloud or together with the class to introduce ideas. Student Books allow for small-group reading and reading in pairs.

Sample Student Book (Spanish)

List of Student Books by unit

Sample Student Book

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Consumable Notebooks

Available for every unit, our Student Investigation Notebooks contain instructions for activities and space for students to record data and observations, reflect on ideas from texts and investigations, and construct explanations and arguments.

Sample Student Investigation Notebook

Sample Student Investigation Notebook (Spanish)

Amplify Science California and Mystery Science work together to help you transition to the California NGSS.

Mystery Science

Our exclusive partnership with Mystery Science means you get our NGSS core curriculum plus two years of free access to Mystery Doug and his extensive library of captivating videos that deepen students’ understanding of each unit’s phenomenon.

Mystery Science lesson alignment

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Coming Soon

Unlike other publishers, we don’t make you wait until your next adoption to get the latest and greatest from Amplify. We’re always launching new and exciting features. What’s more, we’ll push them out to you even after you adopt us!

See what’s coming for 2020-2021

Navigating the program

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[VIDEO] TG Walkthrough

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[Grade K] Needs of Plants and Anima…

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[Grade K] Pushes and Pulls

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S2-01: How teachers are really feeling this school year

science connections S02-01 Episode Cover

In this special solo episode, Eric Cross starts the season by sharing his personal journey as an educator, and how the difficulties of the last few years have shaped his mindset going into the upcoming school year. Eric also addresses teacher burnout and what inspires him to continue working as a classroom educator. Explore more from Science Connections by visiting our main page.

Download Transcript

Eric Cross (00:02):

Welcome to Science Connection, Season Two. As we begin the next season, I thought it would be a good time to share my story. As the host, I get to ask people questions about their journey, but I’ve actually never shared much about my own. So I’ve taken some of my most frequently asked questions to guests and asked them to myself. I hope you enjoy.

Eric Cross (00:23):

So the origin story question, I think really gets to the heart of why a person does what they do, because so much of who we are, especially as adults and teachers, is a result of experiences that we had in our lives when we were kids or in school with other teachers. And my life’s no different. I was born to a 19-year-old single mom. And when you’re a young boy growing up, especially with a young single mom, you often look to older men in different positions as kinda like a surrogate or like a mentor. And you may not even tell them that they are that to you. You kind of keep it close to the chest. And that’s what I did growing up. One of the ones that really stood out to me is, in seventh grade, I went to a middle school here in San Diego that was called Keiller Middle School. And we were a magnet program that specialized in science. And they had this program that brought professors from the local universities and they did this high-level enrichment. They would even take us to the college campus and we would work in these labs as seventh graders. It was amazing. And one of the people there, his name was Dr. Tress, and he was a professor. And Dr. Tress took a liking to me. I reminded him of his son. We were doing this great embryology experiment. We would take purple sea urchins. And we would inject them with potassium chloride, which would cause them to spawn. And we would fertilize these eggs, and then we would run different experiments using them. And these were things that I had never done before. I had always loved science. I’d always loved tinkering and building things. But this was my introduction, really, to high-level biology and to higher levels of education. I didn’t—I didn’t have many figures like that in my life growing up. I mean, I’m a first-generation, you know, high school, college graduate. Many of these are first generations for me. So, this was a new experience. And so Dr. Tress really unlocked a core memory and was one of my first mentors, as far as academics are concerned. And during my seventh-grade year, I entered the science fair and won first place, which was a huge deal. They took us out to Balboa Park. We got to miss school for a week. We got to go to all the museums for free. It was the best. And I think at that point in time, it really solidified something in me that would lay dormant until later on in my adult life. High school, I was really fortunate: the high school I went to was Morse High School, not too far from Keiller, and they had an aeronautics program. So I was able to enroll in that aeronautics program. And I learned how to fly before I learned how to drive. And I had this great instructor named Mr. Klon, who was this like 6′ 4″, 250-pound hippie guy. And he—we would get in the plane and we would have these like philosophical conversations. And through that, especially looking back now as a teacher, I realized that he was making connections with me and investing into who I was as a person. And it was something that I so needed at the time. Because at home I didn’t have that. You know, my safe place, a lot of time, was school. It was my only structure. It was where I knew I would get encouragement. It was where I knew things were reliable and consistent. For a lot of people, and a lot of kids, their home life isn’t like that. School was that for me. So Mr. Klon, I mean, he was this authentic, you know, consistent person in my life and made a huge difference at this time.

Eric Cross (03:23):

After I graduated high school, I left home just to get away from a difficult environment. And I was homeless for a little while and that was a huge moment in my life. And around that time, an aunt found out and she said, “You’re gonna come stay with us.” And this was like this three-year process of me living with them in this, like, functional family that ate dinner together. And they went to the zoo. They had family passes. And they took family photos at Christmastime. This was all weird stuff. Like, I didn’t know—I didn’t know who did these things. It was—I felt like a puppy that like lived in a home that was like…it was a home that was just always kind of like violent or like just really toxic. And then it gets put into a healthy home and doesn’t know how to act. That’s how it felt. And this was around like 19, 20 years old. During that time I started putting myself through school. So I went to community college and I was broke as a joke. And so I couldn’t afford the textbooks while I was going. So I would just go to the bookstore, the Barnes and Noble bookstore in Mira Mesa here in San Diego. And I would stay there all night using the textbooks or using the books there for doing my work. And then I would just put the books back on the shelves. Because let’s just face it. Textbooks are expensive, brother wasn’t trying to pay for all that. So I really had to earn that time. So I was working full-time. I was going to school. And, eventually I got a job in working in finance with a really great friend who mentored me during my younger twenties. And I didn’t wanna be broke and finance made sense.

Eric Cross (04:44):

And so I did that for a little while, until I got to a point in my career where I was watching an episode of The Office, the UK version, the Ricky Gervais version, and a character said, “I’d rather be at the bottom of a ladder I want to climb than halfway up one I don’t.” And I realized, working in finance, that I was halfway up a ladder I never wanted to climb. So I wanted to move into something that, if I was gonna spend eight hours a day or 10 hours a day doing something, I wanted it to be something that actually filled me up inside. And this is how I got into teaching. So I had always been working with young people, specifically 12- to 18-year-olds, like a non-profit or volunteering, mentoring, after-school programs. And I’ve always managed to rationalize my job in the finance world as meaningful because it let me do the real work that fulfilled me. So the real work was working with the kids. But my day job, my, like, Clark Kent-type job, was just, you know, doing the finance thing of like helping people that have a lot of money make more money. Which at the end of my life, I look back and I said, “That’s not what I want my legacy to be.”

Eric Cross (05:43):

And when the finance crash happened in 2008, that’s when I think I started looking back on it and said, “If I’m gonna spend all my time doing something and spending 40 or 60 or 80 hours of my day of my week doing things, I want it to matter. And that’s when I decided to pivot and leave that field and go and get my master’s in education and get my teaching credential, teaching science specifically. Now, one of the questions we get asked a lot and I’ve been asked is, is “How has teaching changed as a result of the pandemic?” And I feel like this could be several podcasts in and of itself, and it’s also regional, because everybody’s experienced it differently, And we’re still experiencing it! That’s the crazy thing! It’s like, it’s not over, we’re still in it. And some places have innovated and pivoted and some places just did what they needed to and they are trying to go back to business as usual. But if anything has happened, the pandemic revealed how much more, how much schools are more than places of just content learning. For many students it’s where they have their only community, their structure, their emotional wellness. They get regular meals, access to tech, and adults that care about them that are outside of their family. The schools are so much more than that. I mean, my school, they were a place, like a hub, that was giving out food every single day during the pandemic to families that would kind of drive by. So for a lot of schools, they became places like that. It also…the pandemic revealed the intensity of the educator workload. I mean, being able to manage your family, having the capacity, to be a content expert, you need to be a counselor, a trauma-care specialist, a coach, an encourager, a tech expert.

Eric Cross (07:23):

I mean, the term mental health is now more common and starting to become prioritized. Now we’re focusing so much more on the whole child. And we know from research that how a child feels about themselves and their safety and their security impacts their ability to learn. So the more comfortable and safe a student feels in the classroom with teachers and with friends, the better they’re gonna be able to learn. And ultimately the higher they’re gonna be able to achieve. You can’t, you can’t have one without the other. In addition, I think less teachers, see themselves teaching into retirement. I think that’s a big thing. I read these articles about teacher shortages and I think the reality is it’s actually teacher exodus. It’s teachers leaving. And that’s been really difficult. I’ve had many friends who’ve left for the private sector. And I get it, especially if you’re one that has—if you’re the first in your family to graduate from college, with a STEM degree, to them taking a teaching position can mean walking away from a salary in the private sector that pays two or three times more.

Eric Cross (08:23):

And in many places around the country, in order to be a teacher and maintain a median standard of living, you need either dual income, multiple jobs, or a multi-generational household. For a lot of people it just doesn’t make sense. And even right now, today, as I’m recording this, I’m reading articles and getting text messages…and I received a text message three days ago from a teacher that said, “My goal this year is to just not resign.” And that’s where a lot of teachers are feeling right now: isolated, challenged, and under-appreciated. And Plato said, “What’s honored in a country is cultivated there.” And I’ve been looking at how teachers are honored and one of the ways is just, like, practical. Like, look, I gotta pay my bills. You know, love the Starbucks gift card. Love the CPK, the gift card. The cards, all those other things…but brother got a car payment. And at the end of the day, if we care about our kids, we need to take care of the people that take care of them. And there’s very practical ways for that to happen. And everybody in different sectors around the country is dealing with that in different ways. I think the pandemic also revealed, now the public can see how our kids don’t receive the same quality of education. And once you’re aware of that, you can’t put the genie back in the bottle. So once you see on Zoom or once you see in a meeting, or once you see on the news, that students in different areas, whether it’s the rural South or a suburb in Seattle, are not getting equitable educations, well, ultimately that impacts all of us. Now. It’s not all doom and gloom. Good things have come from, as a result of, the pandemic. Many schools have made progress towards narrowing the technology gap, ’cause they had to! ‘Cause you can’t do Zoom and you can’t do Google Meet and all that stuff with a packet! You gotta get those Chromebooks. And Chromebooks and the internet and access to tech is not a new thing. It’s been out for a long time. The technology gap is not a new thing. It’s been written about extensively, but all of a sudden districts and schools started figuring out how to close that gap. And that’s awesome. We didn’t want a pandemic to be the catalyst for that to happen. But at the end of the day, we started closing it. A lot of schools did an amazing job and districts did an amazing job with deploying the hardware, sending out buses with wifi, putting lessons and videos on USB sticks and dropping them off to parents who live in sparsely populated areas. I mean, there were so many stories that I’ve heard about schools and teachers just doing amazing things, going above and beyond what they needed to on behalf of kids.

Eric Cross (10:51):

I think in addition to that, there’s also been students and families are now having more options to personalize their learning. So we have this in-person model, we have this Zoom or kind of online model, and this hybrid model, and it hasn’t all been perfect, you know, at all. But some families have come out and said, you know what actually doing this hybrid model is better for my son or better for my daughter or better for my student, because they’re able to get the socialization, but also able to focus better at home than they are in a classroom of 36. And that’s legitimate. You know, we talk about personalized learning, but it’s not exactly personalized when everybody has to wake up at the same time, same schedule, go to the same, the same classroom of, you know, up to 40 kids, and do the same lesson. I mean, we have to be honest about our limitations with personalizing learning for students. And when we can provide more options and we give teachers the infrastructure to be able to use different platforms, then we’re able to personalize learning a lot more.

Eric Cross (11:51):

There’s also been an emphasis on the whole-child wellness. I think the spotlight on mental well-being heavily impacts their academic success, but counseling teams, social workers, school psychologists—I think more than ever we’ve realized the value that they bring to the schools. And unfortunately many of them have caseloads of 200 students or more. And they’re seeing students most often that are in crisis. And especially after the pandemic, we’re realizing how valuable they are and how much we need to, one, honor them and give them the support that they need, and also recruit more. Because as we start recognizing how our brains are impacted by the things that we’re dealing with, we’re also gonna see how that’s gonna impact our students’ performance. And we need the specialists in those positions to be able to support our kids. I think, last, I think more innovation and lesson design and how we assess students. And so we’ve been talking about in education just kind of critiquing: how do we assess what a student knows? How do we make what a student actually does at school relevant to real life? I mean, so many times I have students who’ve graduated that are like, “I feel like the things I learned in school, like, they’re not always transferable to real life. It helped me on a test, but like, I don’t know how to do my taxes.” Or “I memorized these facts, but I don’t really apply it in my job.” Or “The facts that I learned I could have actually learned on the fly in my job. I wish I would’ve actually focused on the skills or had an earlier opportunity to get some experience because when I’m trying to apply for a job, <laugh> they ask for experience and I’m 22 years old.”

Eric Cross (13:28):

And so all these things kind of come up. And so I think there’s been some great conversations around “how do we rethink what education looks like?” And there’s different pockets around the country that have been doing that, I think, really well. And I think it’s important for us as teachers to stay connected to those people who are kind of pushing the boundaries and thinking outside the box, because when we get siloed, it’s really easy to get calcified and cynical. I get it. And it impacts me too. But when we’re around those people who have those fresh ideas, who are really pushing the limits, it inspires us. And that’s something I think during the pandemic that I’m grateful that I was intentional about, is staying connected with other teachers. There’s a big question; Why do you continue your work in the classroom and what keeps you motivated? And I was thinking really hard about this question, because depending on <laugh>, depending on my day, I feel like my answer’s gonna be a little bit different. So I’ve had to step back from this 30-foot, thousand-foot perspective and answer the question. And my answer is this: I think because I still feel like I can be effective to influence positive change in my classroom with my students and within the larger education system as a whole. I think if I lost either of those two, then I’d rethink my profession. Look, I’m an innovator. I like asking “why” questions and things like that. And I’m not always the most popular person when you do that. But education is like just a huge ship. It doesn’t pivot on a dime. And asking why questions and pushing for change on behalf of kids isn’t easy, fun, or glamorous, but it’s it’s necessary. And I feel like over the last few years, I’ve been able to see these kind of glimmers of a trajectory change, at least where I am locally. And that’s something that has given me a lot of hope. I’m very fortunate to be connected to educators and people in leadership that are really about making a difference beyond just kind of the cliched platitudes. They actually wanna make systemic change, in a way that’s positive. And that’s been really helpful for me. So as long as I feel like I’m useful in the classroom for students, and as long as I feel like I’m bringing, I think change, on behalf of teachers and students and administrators and our community in a way that moves the ball down the field, that’s what keeps me motivated. And what I like to ask teachers when I close in the podcast is. “What teacher or teachers have inspired you?”

Eric Cross (15:54):

And for me, I think it would start off with the teachers who cared about me when they didn’t have to, in elementary school all the way through college. And there are numerous teachers. My science-teacher community of practice. For the last two years, I’ve been fortunate to spend every month, once a month, meeting with just a core group of science teachers that really care about some of the things that we are impacted by in the classroom. And when the pandemic was going on, we still met regularly. And because we’re not all teaching in the same place, we kind of were able to bring different perspectives to the table. I think the current classroom teachers and former classroom teachers that I have in my community really inspire me. The ones who are dedicated to opening doors for students. The graduate students that I teach at the University of San Diego, they keep me fresh. I love leaving teaching my 12- and 13-year-olds, and then driving down the street to the university and teaching 20somethings who are all about to be in the classroom. They come with new ideas, they’re asking questions, and I get to actually share things that I just did three hours ago. I think that’s one thing that continues to inspire me. And it’s one of the reasons why I love teaching at the University of San Diego. Their energy and enthusiasm is super-refreshing. And then all the teachers that are willing to take risks and fail forward, to try things different, to ask hard questions, to push the envelope. Teaching’s hard. It’s easy to point out the problems in education as a whole. But after we do that, it’s important to figure out the practical ways we can make the changes that we wanna see.

Eric Cross (17:23):

Now, that’s to say that if you have the capacity for it and the resources and the support. Some of us, we don’t. Some of us, we are on an island, and that’s a really, really difficult place to be, especially when you have family and kids to take care of. And you have to make decisions on what’s best for you and for your own students. We do this work on behalf of kids. And it’s one of the most honorable services a person can provide to our community. But one area for growth that I think we have kind of as a society, is teachers spend their lives, daily, on behalf of the future of our country. For other people’s children. They fall asleep at night worrying about other people’s kids. They spend their own money to create opportunities and experiences that students might not otherwise have. And it’s important that we collectively, and I know I’m preaching the choir when I say this, but this is one of my messages, is that we honor them in turn. We create programs that allow them to be able to afford housing. We create opportunities for them to be able to generate wealth. We create ways for them to be able to find rest, to get connection. And then internally we create systems where they can just work on themselves, fill themselves, get trained, and be whole, so they can bring their best self to the kids in front of them. That’s one of my personal platforms. It’s something that I think is vital. We gotta take care of the people that take care of our kids. So there’s a saying that says, “It’s better to light a candle than to curse the darkness.” And it takes one person to blow out a candle, but one candle can light thousands of other candles, without diminishing its own light. And that’s what we have to be. So my encouragement, teachers, as you’re going into this new school year, and you’re thinking about what’s going on, you’re thinking about all the challenges—and they’re there, and they’re real, and trust me, it’s not like some Pollyanna, like, “Hey, just be positive!” mindset and everything’s gonna be great—no, no, no, no, no. It’s not that. But my encouragement…if I can tell you one thing that’s helped me more than anything else, it’s being connected to other people who are candle-lighters. Because there are a lot of places that are gonna blow out the candle. It could be the staff lounge. It could be Twitter, it could be Reddit. It could be Instagram. It could be TikTok. It could be, you know, anybody. Someone next door to you. There’s a lot of folks that are gonna be willing to point out and say, “Look, this is what’s wrong.” But find the helpers. Find the people that are candle-lighters. And stay connected with them. Find that community. I can tell you for me, that’s been the thing that’s been able to help me sojourn through all of this—I couldn’t do this by myself—is being able to share my story with other teachers and knowing that I’m doing this work alongside of other folks who are doing this work, and I can share my story with them and listen to their stories, is something that’s been able to fill my cup. And so I hope I can do the same for you and for other people listening to other people I come in contact with.

Eric Cross (20:08):

Teachers, I wish you a great school year. Hang in there. Be those candle-lighters and bring your best self on behalf of the students. Thanks so much for listening. Now, we wanna hear more about you. If you have any stories you wanna share about the classroom, please email stem@amplify.com. That’s STEM at amplifycom.wpengine.com. And make sure to click subscribe wherever you listen to podcasts. And join our Facebook group, Science Connections: The Community. Until next time.

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What Eric Cross says about science

“We do this work on behalf of kids, and it’s one of the most honorable services a person can provide to our community.”

– Eric Cross

K–8 Science teacher, Host of Science Connections: The Podcast

Meet the guest

Eric Cross is a 7th grade science/technology teacher, grade level lead, and digital learning innovator for Albert Einstein Academies, International Baccalaureate schools. He is also an adjunct professor of learning and technology at the University of San Diego and a Google certified innovator. Eric earned a bachelor’s degree from Azusa Pacific University and a Master of Education from the University of San Diego. He had 17 years of experience working with at-risk youth and underserved populations before becoming a middle school teacher. By building relationships with students, colleagues, and the community, he has become an empowered leader in and out of the classroom. Through meaningful learning experiences centered around student agency, STEM has become accessible to students through highly engaging lesson design, thoughtful integration of digital tools, and culturally relevant pedagogy.

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About Science Connections

Welcome to Science Connections! Science is changing before our eyes, now more than ever. So…how do we help kids figure that out? We will bring on educators, scientists, and more to discuss the importance of high-quality science instruction. In this episode, hear from our host Eric Cross about his work engaging students as a K-8 science teacher. Listen here!

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Weaving Literacy Instruction Into the Science Classroom to Accelerate Learning

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In every unit of Amplify Science, students take on the roles of scientists and engineers to figure out real-world phenomena. Students actively investigate compelling questions by finding and evaluating evidence, then developing convincing arguments. These engaging roles and phenomena bring science to life in your classroom.

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To complete your review digitally, click the orange button below to explore the digital Teacher’s Guide. You’ll have access to one full unit from every grade.

When you explore the digital Teacher’s Guide, a quick guided tour will familiarize you with navigation of the program and its features.

Review the digital Teacher’s Guide now

While you can access all of the print resources from the digital Teacher’s Guide, we’ve collected a few exemplars here from each unit:

A woman sits at a desk in a classroom, looking at a laptop while referencing an open binder and papers.
Student Books
  1. Student Book: A Busy Day in Pushville
  2. Student Book: A Busy Day in Pushville (Spanish)
Student Investigation Notebook
  1. Pushes and Pulls Student Investigation Notebook sample
  2. Pushes and Pulls Student Investigation Notebook sample (Spanish)
Teacher’s Guide
  1. Pushes and Pulls Teacher’s Guide sample
Two children stand in a jungle with plants, rocks, and frogs on the covers of two science books titled "Modelos de ranas" and "Frog Models.
Student Books
  1. Student Book: Frog Models
  2. Student Book: Frog Models (Spanish)
Two books titled "Animal and Plant Defenses: Spikes, Shells, and Camouflage" in English and Spanish, both featuring a turtle and shark illustration on the cover.
Student Investigation Notebook
  1. Animal and Plant Defenses Student Investigation Notebook sample
  2. Animal and Plant Defenses Student Investigation Notebook sample
A book cover titled "Animal and Plant Defenses: Spikes, Shells, and Camouflage" with an illustration of a turtle, labeled as the Teacher's Guide.
Teacher’s Guide
  1. Animal and Plant Defenses Teacher’s Guide sample
Student Books
  1. Student Book: Landform Postcards
  2. Student Book: Landform Postcards (Spanish)
Student Investigation Notebook
  1. Changing Landforms Student Investigation Notebook sample
  2. Changing Landforms Student Investigation Notebook sample (Spanish)
Teacher’s Guide
  1. Changing Landforms Teacher’s Guide sample
Student Books
  1. Student Book: Hoverboard
  2. Student Book: Hoverboard (Spanish)
Student Investigation Notebook
  1. Balancing Forces Student Investigation Notebook sample
  2. Balancing Forces Student Investigation Notebook sample (Spanish)
Teacher’s Guide
  1. Balancing Forces Teacher’s Guide sample
Student Books
  1. Student Book: Blackout!
  2. Student Book: Blackout! (Spanish)
Student Investigation Notebook
  1. Energy Conversions Student Investigation Notebook sample
  2. Energy Conversions Student Investigation Notebook sample (Spanish)
Teacher’s Guide
  1. Energy Conversions Teacher’s Guide sample
  1. Student Book: Drinking Cleopatra’s Tears
  2. Student Book: Drinking Cleopatra’s Tears (Spanish)
  1. The Earth System Student Investigation Notebook sample
  2. The Earth System Student Investigation Notebook sample (Spanish)
  1. The Earth System Teacher’s Guide sample

Request more information

If you’d like to review the full program, request physical samples, or speak to a product expert for more information, fill out the form below and we’ll be in touch.

Amplify Science

A new core curriculum designed from the ground up for the NGSS.

Preview the Student Books and Student Investigation Notebooks

Needs of Plants and Animals

Pushes and Pulls

Sunlight and Weather

Animal and Plant Defenses

Light and Sound

Spinning Earth

Plant and Animal Relationships

Properties of Materials

Changing Landforms

Balancing Forces

Environments and Survival

Inheritance and Traits

Weather and Climate

Energy Conversions

Earth’s Features

Vision and Light

Waves, Energy, and Information

Patterns of Earth and Sky

Ecosystem Restoration

The Earth System

Modeling Matter

Grades 6–8 Integrated Model

Spanish Student Books and Student Investigation Notebooks

Kindergarten

Grade 1

Grade 2

Grade 3

Grade 4

Grade 5

Grade 6

Grade 7

Grade 8

Amplify Science

A new core curriculum designed from the ground up for the NGSS.

Preview the Student Books and Student Investigation Notebooks

Needs of Plants and Animals

Pushes and Pulls

Sunlight and Weather

Animal and Plant Defenses

Light and Sound

Spinning Earth

Plant and Animal Relationships

Properties of Materials

Changing Landforms

Balancing Forces

Environments and Survival

Inheritance and Traits

Weather and Climate

Energy Conversions

Earth’s Features

Vision and Light

Waves, Energy, and Information

Patterns of Earth and Sky

Ecosystem Restoration

The Earth System

Modeling Matter

Spanish Student Books and Student Investigation Notebooks

Kindergarten

Grade 1

Grade 2

Grade 3

Grade 4

Grade 5

Review the digital teacher’s guide

  1. Sign in with this username and password:
  2. Click on the orange button below.
  3. Select “Log in with Amplify”.

Username: t.LouisianaReview@tryamplify.net
Password: AmplifyNumber1

Log in

Navigational Guides

Watch the video
Get an overview of the program as a whole.

Take the guided tour
Click through to learn how to navigate around our program.

Preview the Student Books and Investigation Notebooks

Kindergarten

Needs of Plants and Animals

Pushes and Pulls

Sunlight and Weather

Grade 1

Animal and Plant Defenses

Light and Sound

Spinning Earth

Grade 2

Plant and Animal Relationships

Properties of Materials

Changing Landforms

Grade 3

Balancing Forces

Environments and Survival

Inheritance and Traits

Weather and Climate

Grade 4

Energy Conversions

Earth’s Features

Vision and Light

Waves, Energy, and Information

Grade 5

Patterns of Earth and Sky

Ecosystem Restoration

The Earth System

Modeling Matter

Preview the Student Books and Investigation Notebooks

Kindergarten

Needs of Plants and Animals

Pushes and Pulls

Sunlight and Weather

Grade 1

Animal and Plant Defenses

Light and Sound

Spinning Earth

Grade 2

Plant and Animal Relationships

Properties of Materials

Changing Landforms

Grade 3

Balancing Forces

Environments and Survival

Inheritance and Traits

Weather and Climate

Grade 4

Energy Conversions

Earth’s Features

Vision and Light

Waves, Energy, and Information

Grade 5

Patterns of Earth and Sky

Ecosystem Restoration

The Earth System

Modeling Matter

Kindergarten

Needs of Plants and Animals

Pushes and Pulls

Sunlight and Weather

Grade 1

Animal and Plant Defenses

Light and Sound

Spinning Earth

Grade 2

Plant and Animal Relationships

Properties of Materials

Changing Landforms

Grade 3

Balancing Forces

Environments and Survival

Inheritance and Traits

Weather and Climate

Grade 4

Energy Conversions

Earth’s Features

Vision and Light

Waves, Energy, and Information

Grade 5

Patterns of Earth and Sky

Ecosystem Restoration

The Earth System

Modeling Matter

Grade 6

Grade 7

Grade 8

2025

September 18, 2025

Edutopia: “Using Virtual Manipulatives in Math Class”

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August 19, 2025

Education Week: “Here’s Why It’s Important for Teachers to Have a Say in Curriculum”

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August 18, 2025

Investors Hangout: “Amplify Classroom Revolutionizes K-12 Teaching Experience”

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August 5, 2025

WhaTech: “K-12 Online Education Market Set for Strong Expansion, Reaching $349.77 Billion by 2029”

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August 4, 2025

Education Week: “Districts Using ‘High-Quality’ Reading Curricula Still Supplement With Other Materials. Why?”

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July 9, 2025

K-12 Dive: “Youngest students see big reading gains post-COVID on DIBELS assessment”

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June 25, 2025

The 74: “How Districts in Georgia, Maryland and D.C. Are Raising Reading Proficiency”

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May 28, 2025

Open PR: “K-12 Online Education Market Forecast 2025-2034: Comprehensive Analysis And Growth Opportunities”

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May 27, 2025

District Administration: “Early literacy: How to implement programs that start strong”

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May 20, 2025

EdSource: “California schools prepare to introduce universal reading screening”

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April 23, 2025

The 74: “Eric Adams Expands Reading, Math Curriculum Mandates to All NYC Middle Schools”

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April 21, 2025

Daily News: “NYC expanding reading, math curriculum overhaul to more schools”

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March 19, 2025

Education Next: “School Reinvention in Practice”

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February 28, 2025

K-12 Dive, “Test yourself on this week’s K-12 news”

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February 26, 2025

K-12 Dive: “Only 56% of K-2 students are ready to read”

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January 24, 2025

Chalkbeat Philadelphia: “Two AI-powered charter schools could soon open in Pennsylvania”

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January 16, 2025

Tech & Learning: “What is Polypad and How Can Teachers Use It?”

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2024

December 18, 2024

EdSource: “State takes another step toward mandatory testing for reading difficulties in 2025”

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December 6, 2024

Chalkbeat Philadelphia: “Philadelphia is now spending over $100 million on its curriculum overhaul. Here’s a breakdown.”

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November 27, 2024

Lincoln Journal Star: “Lincoln Public Schools drops a classification rating on statewide assessment”

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November 6, 2024

EdNC: “New K-3 literacy data shows growth in skills for North Carolina students”

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October 1, 2024

The 74: “As NY District Implements Science of Reading, Parents Push for New Focus on Math”

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September 18, 2024

Tech & Learning: “Tech & Learning Announces Winners of Best for Back to School 2024”

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August 22, 2024

Chalkbeat Philadelphia: “Philadelphia school board renews charters, funds tutoring and a new science curriculum”

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August 2, 2024

EdNC: “‘Dedication of our teachers’ praised in an update on the state’s science of reading journey”

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July 31, 2024

The 74: “Classroom Case Study: To Maximize the Impact of Curriculum Mandates, Follow the Science of Reading”

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July 23, 2024

Chalkbeat: “Should teachers customize their lessons or just stick to the ‘script’?”

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July 7, 2024

The Economist: “Will artificial intelligence transform school?”

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June 24, 2024

Chalkbeat: “Math instruction overhaul: NYC unveils new curriculum mandate for middle and high schools”

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June 6, 2024

EdNC: “Perspective | Teachers are the heroes of the literacy story in North Carolina”

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May 24, 2024

The Dallas Morning News: “How Don Quixote changed a Dallas public school classroom”

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May 2, 2024

Akron.com: “Tutoring program at Summit Academy Akron Elementary School attracts national interest”

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April 25, 2024

Edutopia: “Using Tech Tools to Energize Young Students’ Math Learning”

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April 4, 2024

EdNC: “State Board hears update on district ESSER spending, literacy data, and Restart schools”

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March 22, 2024

Thomas B Fordham Institute: “Five takeaways from Ohio’s baseline survey of elementary reading curricula”

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March 15, 2024

The 74: “New Data: Despite K-2 Reading Gains, Students Face a ‘Much Harder Journey’ Ahead”

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March 5, 2024

The 74: “Case Study: How One Texas School District Is Repurposing Staff Development Time to Embrace the Science of Reading”

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February 21, 2024

Times Record News: “UPDATED: Texas Education Commissioner Mike Morath likes what he sees at local school”

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February 19, 2024

Chalkbeat: “Chicago Public Schools recover from pandemic declines more than other districts, study shows”

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February 7, 2024

The 74: “Building Oral Language Skills and Equity Through High-Quality Reading Curriculum”

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2023

December 19, 2023

The 74: “Best Education Articles of 2023: Our 23 Most Important Stories About Students, Schools & Learning Recovery ”

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December 8, 2023

Education Week: “Aligned Science Curriculum, Better Scores? Research Finds a Connection”

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December 6, 2023

WRAL News: “Reading readiness rises in NC’s K-3 classrooms, new data shows”

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November 27, 2023

The Dallas Morning News: “Dallas’ new lessons aim to keep kids on track, but some worry about limiting teachers”

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November 2, 2023

Fort Worth Report: “Black students in Fort Worth ISD still struggle to read at grade level”

Read Full Article

October 31, 2023

Chicago Tribune: “Lake Forest-area schools take stock of state grades; ‘While we celebrate our successes, we acknowledge that the journey … is ongoing’”

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October 19, 2023

Chalkbeat: “NYC eyes middle and high school literacy overhaul. It’s asking families to weigh in.”

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October 16, 2023

The 74: “As Virginia Rolls Out Ambitious Statewide High-Dosage Tutoring Effort This Week, 3 Keys to Success”

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October 6, 2023

Language Magazine: “Embracing Bilingual Assessment”

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September 18, 2023

Tech & Learning: “Best for Back to School 2023”

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September 18, 2023

Chalkbeat: “Chicago Public Schools hired hundreds of tutors with federal COVID money. Can they keep them?”

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September 7, 2023

EdNC: “Perspective | Union County Public Schools empowers educators, elevates readers”

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August 14, 2023

Chicago Parent: “Common Core Math: How to Help Your Kids”

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August 6, 2023

The News & Observer: “NC sees big increase in reading skills among K-3 students. Is the state back on track?”

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August 4, 2023

The 74: “Slow Literacy Gains, Long COVID in Kids: 7 Insights into Pandemic Recovery and Aftermath in U.S. Schools”

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August 3, 2023

EdNC: “State Board of Education: New reading data, parental leave, and a call to support public schools”

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July 28, 2023

Houston Public Media: “New literacy curriculum is among the many changes coming to HISD”

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July 17, 2023

Houston Chronicle: “Mike Miles says HISD schools will teach the ‘science of reading.’ Here’s what that means.”

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July 11, 2023

The 74: “‘Education’s Long COVID’: New Data Shows Recovery Stalled for Most Students”

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July 6, 2023

Houston Chronicle: “HISD superintendent gives voluntary schools one last chance to back out of New Education System”

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June 29, 2023

The Report Card: “Larry Berger on Curriculum”

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June 2, 2023

EdWeek Market Brief:”K-12 Dealmaking: Substitute Teaching Startup Secures $38M; Amplify Raises Undisclosed Series C”

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May 25, 2023

The 74: “Expanding Access to Tutors: Nonprofit Grants $6 Million to 32 Learning Organizations Across 20 States to Help More Students”

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April 21, 2023

The 74: “The ‘Transformation is Real’ as Science of Reading Takes Hold in N.C. Schools”

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April 18, 2023

The 74: “Louisiana District Ravaged by Hurricane & COVID is Bouncing Back with Science”

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April 5, 2023

WFAE: “NC midyear reading data shows gains, but third-grade goals remain elusive”

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April 5, 2023

EdNC: “K-3 students show growth in literacy skills, mid-year DPI data show”

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March 24, 2023

The 74: “COVID & School Recovery: Critics Warn Washington Bill Would Reduce Classroom Learning Time By 4 Hours a Week”

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March 24, 2023

Edutopia: “Using Collective Leadership to Make a Major Shift in Your District”

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March 15, 2023

K-12 Dive: “California at center of latest push for science-based reading approaches”

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March 7, 2023

District Administration: “ESSER pressure: How one district intends to spend wisely as deadline looms”

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March 3, 2023

The 74: “‘The Other Long COVID’ Affecting Kids: Missed Opportunities”

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March 2, 2023

3 WTKR: “More students on track to learn to read in 2022-2023 school year since start of pandemic, researchers say”

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March 2, 2023

ABC 7: “Reading skills rebounding for young students following pandemic disruptions”

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March 1, 2023

K-12 Dive: “By The Numbers: DIBELS testing shows improved reading progress over last two years”

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February 27, 2023

The 74: “Exclusive: Despite K-2 Reading Gains, Results Flat for 3rd Grade ‘COVID Kids’”

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February 27, 2023

Education Week: “Students’ Early Literacy Skills Are Rebounding. See What the Data Show”

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February 7, 2023

The 74: “Using High-Quality Curriculum Doesn’t Mean You Can’t Still Have Fun Learning”

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January 13, 2023

NPR: “Can a middle school class help scientists create a cooler place to play?”

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January 6, 2023

News & Record: “After a numbing low, NC students now heading in ‘right direction’ in reading, math”

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January 5, 2023

CBS17.com: “K-3 students in NC make significant strides on literacy exams, DPI says”

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2022

December 20, 2022

District Administration: “Literacy Under the Lights: 10 ways to bring the community back together”

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December 14, 2022

The 74: “14 Charts This Year That Helped Us Better Understand Covid’s Impact On Students Teachers and Schools”

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December 14, 2022

The 74: “Learning Loss Is Worse than NAEP Showed. Middle School Math Must Be the Priority”

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November 21, 2022

Voicebot.ai: “SoapBox Labs Brings Child-Centered Voice AI to Dyslexia Detection Assessment”

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October 24, 2022

Education Week: “Two Decades of Progress, Nearly Gone: National Math, Reading Scores Hit Historic Lows”

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October 20, 2022

The 74: “Exclusive Literacy Data: Small Gains Since Last Fall, But No Reading Rebound”

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August 30, 2022

The 74: “Test English Learners in the Languages They Speak at School and at Home”

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August 29, 2022

WTKR TV NC: “News 3 investigates childhood literacy rates, raising money to give books to local kids for new school year”

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August 28, 2022

EdNC: “Elementary students made growth last year in skills that lead to reading proficiency, new data show”

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August 18, 2022

SHRM Blog: “The Great Resignation Skipped Us. Here’s why.”

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August 16, 2022

Forbes: “Curious About Knowledge-Building Curricula? Check Out This Website”

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July 20, 2022

District Administration: “Out-of-school STEM learning is much more powerful when it’s inclusive”

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July 19, 2022

Chalkbeat: “The state of learning loss: 7 takeaways from the latest data”

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June 28, 2022

The Preschool Podcast: “Early literacy strategies that stick with Darryl from Run-DMC and Makeda from Nickelodeon [Podcast]”

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May 24, 2022

Forbes: “States That Want To Boost Literacy Should Keep An Eye On Texas”

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April 24, 2022

Business Ecosystem Alliance: “Ecosystems in Education–Collaborating to Efficiently Serve the End User”

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April 18, 2022

KQED Mind Shift: “Weighing the best strategies for reading intervention”

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April 15, 2022

Fordham Institute: “Assessing a standards-aligned physical science curriculum”

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March 23, 2022

The Baltimore Sun: “National test scores show student gains from in-person learning in all but a critical group: new and pre-readers | COMMENTARY”

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March 15, 2022

NPR: “Two years ago schools shut down around the world. These are the biggest impacts”

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March 11, 2022

The Hub – Dallas ISD: “Students at Greiner and Anson Jones Elementary find success in reading and writing with a new program”

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March 10, 2022

NY Daily News: “Read it and weep: The new reading instruction emergency”

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March 10, 2022

WISH TV Indianapolis: “Study shows student performance plummeted during pandemic”

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March 9, 2022

New York Post: “Young students have suffered ‘alarming’ drops in reading skills during pandemic”

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March 9, 2022

The Daily Caller: “Childhood Literacy Plummeted Following Pandemic Shutdowns, Studies Show”

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March 8, 2022

The New York Times: “It’s ‘Alarming’: Children Are Severely Behind in Reading”

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March 7, 2022

Education Next: “The Education Exchange: Pandemic Hurt Younger Students’ Learning Worse, Amplify Data Suggest”

Listen to the Podcast

February 28, 2022

The 74: “Our 12 Best Education Articles in February: Reflections on 700 Days of COVID Chaos, Setting a Bar for Unmasking in Schools, Burying Schools in Record Requests & More”

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February 24, 2022

The Daily Advertiser: “Reading scores improve slightly, but pre-COVID reading levels are ‘the wrong goal’”

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February 24, 2022

Wall Street Journal: “The School Shutdowns and Lost Literacy”

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February 23, 2022

K-12 Dive: “DIBELS data illustrates pandemic reading setbacks”

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February 22, 2022

ABC 7 Buffalo: “Children falling behind in reading”

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February 18, 2022

The Carolina Journal: “Report: Elementary students lag in literacy due to pandemic”

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February 16, 2022

The 74: “‘We Have First-Graders Who Can’t Sing the Alphabet Song’: Pandemic Continues to Push Young Readers Off Track, New Data Shows”

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February 16, 2022

Education Week: “More Than 1 in 3 Children Who Started School in the Pandemic Need ‘Intensive’ Reading Help”

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February 4, 2022

Literary Hub: “EXCLUSIVE: Watch Joshua Bennett Discuss A.R. Ammons’s poem “Cascadilla Falls”

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January 26, 2022

The Ross Kaminsky Show: “Susan Lambert and the Literacy Gap”

Listen to the podcast

January 19, 2022

K-12 Dive: “Report: Colorado reading law update boosts quality of literacy curriculum”

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2021

December 15, 2021

Chalkbeat: “How Denver plans to address a drop in early elementary reading scores”

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December 8, 2021

The SHRM Blog: “What’s the Best Work Perk of All? Contributing to the Social Good”

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November 13, 2021

Hechinger Report: ‘The Reading Year’: First grade is critical for reading skills, but kids coming from disrupted kindergarten experiences are way behind”

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October 20, 2021

Hechinger Report: “OPINION: Younger students were among those most hurt during the pandemic”

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September 2, 2021

EdSurge: “An Edtech User’s Glossary to Speech Recognition and AI in the Classroom”

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September, 2021

SIIA Education: “ED TECH SUCCESS STORIES”

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August 23, 2021

CNN: “Irish tech firm helps kids’ voices be heard”

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August 18, 2021

SoapBox Labs: “Can Speech Recognition Help Children Learn to Read?”

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August 12, 2021

FOX Chicago Broadcast Interview: “Pandemic widens literacy gap for students”

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August 3, 2021

T.H.E Journal: “More Students of Color at Risk in Reading After Pandemic”

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July 28, 2021

The 74: “Early Reading Skills See a Rebound From In-Person Learning, But Racial Gaps Have Grown Wider, Tests Show”

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July 28, 2021

K-12 Dive: “Reports: Math, reading progress slowed during first full school year of pandemic”

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July 20, 2021

EdNC: “The mCLASS reading assessment tool is back in North Carolina classrooms, but it’s going to look different”

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July 5, 2021

WBAL: “Baltimore students from all socio-economic backgrounds get a chance to ‘Amplify’ their learning skills”

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June 15, 2021

Language Magazine: “Using Evidence to Overcome Adversity”

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May 7, 2021

The Dallas Morning News: “How can a one-minute kindergarten test help teachers tackle the ‘COVID slide’?”

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April 20, 2021

Education Week: “How Teachers and Curriculum Will Shape Ed Tech’s Future: A CEO Makes the Case”

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March 24, 2021

The Hechinger Report: “OPINION: Children will need summer tutors to make up for pandemic learning loss”

Read full article

March 23, 2021

Education Week: “Most States Fail to Measure Teachers’ Knowledge of the ‘Science of Reading,’ Report Says”

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March 17, 2021

Axios: “How online education and tutoring could fight COVID learning loss”

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March 16, 2021

USA Today: “Students are struggling to read behind masks and screens during COVID-19, but ‘expectations are no different’”

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March 16, 2021

The 74: “Schools and COVID, a Year Later: 12 Months After Classrooms Closed, 12 Key Things We’ve Learned About How the Pandemic Disrupted Student Learning”

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February 25, 2021

K–12 Dive: “Reading gaps widen in mid-year data, especially for K-1 students of color”

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February 24, 2021

The 74: “One Year into Pandemic, Far Fewer Young Students are on Target to Learn How to Read, Tests Show”

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February 17, 2021

NBC Los Angeles: “Local Students Design Rovers in Mission to Mars Student Challenge”

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February 5, 2021

District Administration: “To save literacy, focus first on high-quality core instruction”

Read full article

February 4, 2021

The Hechinger Report: “5 ways schools hope to fight Covid-19 learning loss”

Read full article

January 5, 2021

The 74: “Science Matters Now More than Ever. The Time to Start Teaching It Is in Elementary School”

Read full article

2020

December 15, 2020

Education Week: “Students’ Reading Losses Could Strain Schools’ Capacity to Help Them Catch Up”

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December 9, 2020

Education Post: “How to Help Beginning Readers During the Pandemic”

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December 3, 2020

American Consortium for Equity in Education: “The Importance of Quality Curriculum With Industry Voice”

Read full article

September 29, 2020

The 74: “Beyond the Scantron: Ed Tech CEO Larry Berger on Why the Pandemic Is No Excuse to Abscond Accountability and ‘Disruptions Are Great Opportunities to Try Something New’”

Read full article

May 25, 2020

The 74: “Class Disrupted Podcast Episode 2: Why Is My Child Doing So Many Worksheets Right Now?”

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February 5, 2020

Getting Smart Podcast: “Larry Berger on EdTech Past and Future”

Read full article

A closer look at grades K–2

Amplify Science California is based on the latest research on teaching and learning and helps teachers deliver age-appropriate, high-quality, literacy-rich instruction that enables students to take on the roles of scientists and engineers to solve real-world phenomena every day.

In the K–2 classroom, this looks like students:

  • Collecting evidence from a variety of sources.
  • Making sense of evidence in a variety of ways.
  • Formulating convincing scientific arguments.
A collage of four images: building a toothpick structure, a boy reading a book to a girl, two children conducting a water experiment, and a light projection setup.
Graphic showing a research process with four steps: spark intrigue with a real-world problem, explore evidence, explain and elaborate, and evaluate claims, connected in a cycle with arrows.

Program structure

Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, their understanding gradually builds and deepens, ultimately leading to their ability to develop and refine increasingly complex explanations of the unit’s phenomenon.

It’s this proven program structure and lesson design that enables Amplify Science California to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our K–2 program to address 100% of the California NGSS in just 66 days.

Scope and sequence

Every year of our K–2 consists of 3 units and 66 total lessons. Said another way, each unit contains 20 lessons plus two dedicated assessment days (a Pre-Unit Assessment and End-of-Unit Assessment).

Lessons at grades K–1 are written for a minimum of 45-minutes, and grade 2 lessons are written for a minimum of 60-minutes—though teachers can expand or contract the timing to meet their needs.

Educational curriculum chart showcasing a progression of amplify science lessons from kindergarten to grade 5, categorized by grade and subject areas like plants, animals, weather, and energy.

Unit types

While every unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, each unit also emphasizes a particular science and engineering practice.

In each grade K–2:

  • One unit emphasizes the practice of investigation.
  • One unit emphasizes the practice of modeling.
  • One unit emphasizes the practice of engineering design.
Investigation Units

Investigation units focus on the process of strategically developing investigations and gathering data to answer questions. Students are first asked to consider questions about what happens in the natural world and why, and are then involved in designing and conducting investigations that produce data to help answer those questions.

Modeling Units

Modeling units provide extra support to students engaging in the practice of modeling. Students use physical models, investigate with computer models, and create their own diagrams to help them visualize what might be happening on the nanoscale.

Engineering Design Units

Engineering design units provide opportunities for students to solve complex problems by applying science principles to the design of functional solutions, and iteratively testing those solutions to determine how well they meet preset criteria.

Units at a glance

An illustration from Needs of Plants and Animals unit
Needs of Plants and Animals

Domains: Life Science, Earth and Space Science, Engineering Design

Unit type: Investigation

Student role: Scientists

Phenomenon: There are no monarch caterpillars in the Mariposa Grove community garden since vegetables were planted. 

Download unit guide

Download lesson planner

An illustration from the Pushes and Pulls unit
Pushes and Pulls

Domains: Physical Science, Engineering Design

Unit type: Engineering design

Student role: Pinball engineers

Phenomenon: Pinball machines allow people to control the direction and strength of forces on a ball.  

Download unit guide

Download lesson planner

Silhouette of a playground structure against a blue sky with clouds and three yellow suns.
Sunlight and Weather

Domains: Earth and Space Science, Life Science, Engineering Design

Unit type: Modeling

Student role: Weather scientists

Phenomenon: Students at Carver Elementary School are too cold during morning recess, while students at Woodland Elementary School are too hot during afternoon recess.  

Download unit guide

Download lesson planner

Illustration of sea turtles swimming among seaweed in the ocean, with a large shark in the background.
Animal and Plant Defenses

Domain: Life Science

Unit type: Modeling

Student role: Marine scientists

Phenomenon: Spruce the Sea Turtle lives in an aquarium and will soon be released back into the ocean, where she will survive despite ocean predators.  

Download unit guide

Download lesson planner

Two hands holding a paper with a drawing of a pyramid and a tree, illuminated by a flashlight, projecting another shadow of the image on the wall.
Light and Sound

Domains: Physical Science, Engineering Design

Unit type: Engineering design

Student role: Light and sound engineers

Phenomenon: A puppet show company uses light and sound to depict realistic scenes in puppet shows.  

Download unit guide

Download lesson planner

An illustration from the Spinning Earth unit
Spinning Earth

Domain: Earth and Space Science

Unit type: Investigation

Student role: Sky scientists

Phenomenon: The sky looks different to Sai and his grandma when they talk on the phone.  

Download unit guide

Download lesson planner

An elephant standing next to a tree uses its trunk to pick a fruit from a branch while more fruit hangs above.
Plant and Animal Relationships

Domains: Life Science, Engineering Design

Unit type: Investigation

Student role: Plant scientists

Phenomenon: No new chalta trees are growing in the fictional Bengal Tiger Reserve in India.  

Download unit guide

Download lesson planner

A hand holds a red bean on a table, while a wooden stick spreads white glue and scattered beans. Also on the table are a white cup and a yellow pen.
Properties of Materials

Domains: Physical Science, Engineering Design

Unit type: Engineering design

Student role: Glue engineers

Phenomenon: Different glue recipes result in glues that have different properties.  

Download unit guide

Download lesson planner

Illustration of a coastline with cliffs, a recreation center building with a red roof and a sign, evergreen trees, a blue flag, and a sandy beach below.
Changing Landforms

Domain: Earth and Space Science

Unit type: Modeling

Student role: Geologists

Phenomenon: The cliff that Oceanside Recreation Center is situated on appears to be receding over time.  

Download unit guide

Download lesson planner

Resources

Pilot support brochure for K–2

Unit phenomena for K–5

Take a closer look at the unit phenomena featured in each grade level…

Classroom Slides for K–5

Meet your new hands-free TG! These PowerPoints for every lesson make teaching sc…

What’s so phenomenal about phenomena?

Learn actionable strategies that will help you implement 3-D teaching and learni…

Literacy-rich instruction in K–5

Scientists read and write with purpose too.

Student Books in K–5

Read a summary of each of our award-winning student books.

Investigations for K–5

Explore the types of hands-on investigations that take place in K–5 classrooms.

Four stages of learning: Engage (eye icon), Explore (people icon), Construct (blocks icon), Apply (brain icon), arranged in a cycle with arrows and descriptions below each stage.

The 5E model at K–8

Learn how the 5E elements are woven throughout each and every unit.

The CER model for K–5

Learn how we integrate the Science and Engineering Practices (SEPs) into daily i…

Approaches to assessment in K–5

Learn about our embedded assessments.

Science activity kit featuring books "Earthworms Underground" and "What's Going On with the Weather?", balloons, plant seeds, propellers, and other educational materials.

Program component list for TK–5

Explore the components that come with each unit.

What’s included

Along with compelling print materials, powerful digital resources, and more hands-on materials than any other program, Amplify Science California also includes engaging and realistic experiences, access to diverse role models, countless a-ha moments, and the inspiration and confidence to consider a future as a scientist or engineer.

Choose level

K–56–8

Year at a glance

Amplify Science California is organized around units where students explore compelling phenomena and real-world problems, develop and strengthen claims by collecting evidence and testing assumptions, and apply their learning in new contexts.

Educational curriculum chart showcasing a progression of amplify science lessons from kindergarten to grade 5, categorized by grade and subject areas like plants, animals, weather, and energy.

Units at a glance

In each Amplify Science California unit, students are asked to inhabit the role of a scientist or engineer in order to investigate a real-world problem. These problems provide relevant, 21st-century contexts through which students investigate different scientific phenomena.

An illustration from Needs of Plants and Animals unit

1

Needs of Plants and Animals

Students take on the role of scientists in order to figure out why there have been no monarch caterpillars in the community garden since vegetables were planted. They investigate how plants and animals get what they need to live and grow, and make a new plan for the community garden that provides for the needs of the monarch caterpillars in addition to producing vegetables for humans.

An illustration from the Pushes and Pulls unit

2

Pushes and Pulls

Students take on the role of pinball machine engineers as they investigate the effects of forces on the motion of an object. They conduct tests in their own prototypes (models) of a pinball machine and use what they learn to contribute to the design of a class pinball machine. Over the course of the unit, students construct a foundational understanding of why things move in different ways.

Silueta de una estructura de parque infantil contra un cielo azul con nubes y tres soles amarillos.

3

Sunlight and Weather

The principals of Woodland Elementary and Carver Elementary need student weather scientists to help them explain why Woodland’s playground is warmer than Carver’s at recess. Students gather data from models of the sun and Earth’s surface and observe their own playgrounds to figure out how sunlight causes changes in the temperatures of different surfaces. Students then use models to figure out why Woodland’s playground sometimes floods.

Illustration of sea turtles swimming among seaweed in the ocean, with a large shark in the background.

1

Animal and Plant Defenses

Students play the role of marine scientists. In their role, students apply their understanding of plant and animal defense structures to explain to aquarium visitors how a sea turtle and her offspring can defend themselves from ocean predators when they are released into the wild.

Dos manos sosteniendo un papel con un dibujo de pirámide y árbol, iluminado por una linterna, proyectando otra sombra de la imagen en la pared.

2

Light and Sound

Students take on the role of light and sound engineers for a puppet show company as they investigate cause and effect relationships to learn about the nature of light and sound. They apply what they learn to design shadow scenery and sound effects for a puppet show.

An illustration from the Spinning Earth unit

3

Spinning Earth

As sky scientists, students explain why a boy living in a place near them sees different things in the sky than his grandma does when he talks to her on the phone. Students record, organize, and analyze observations of the sun and other sky objects as they look for patterns and make sense of the cycle of daytime and nighttime.

An elephant standing next to a tree uses its trunk to pick a fruit from a branch while more fruit hangs above.

1

Plant and Animal Relationships

In their role as plant scientists, students work to figure out why there are no new chalta trees growing in the Bengal Tiger Reserve, which is part of a broadleaf forest. Students investigate what the chalta tree needs to survive, then collect and analyze qualitative and quantitative data to solve the mystery.

A hand holds a red bean on a table, while a wooden stick spreads white glue and scattered beans. Also on the table are a white cup and a yellow pen.

2

Properties of Materials

As glue engineers, students are challenged to create a glue for use at their school that meets a set of design goals. Students present an evidence-based argument for why their glue mixture will be good for their school to use.

Ilustración de una costa con acantilados, un edificio de centro recreativo con un techo rojo y un letrero, árboles de hoja perenne, una bandera azul y una playa de arena debajo.

3

Changing Landforms

The director of the Oceanside Recreation Center gets a scare when a nearby cliff collapses overnight. Research reveals that the distance between the Recreation Center’s flagpole and the edge of the cliff have changed over time. Students play the role of geologists and work to figure out why the cliff has changed over time. Based on what they learn about erosion, they advise on whether it is safe to keep the center open even though the cliff is changing.

An illustration from the Balancing Forces unit

1

Balancing Forces

People in Faraday are excited to hear that a new train service will be built for their city, but concerned when they hear that it will be a floating train. Students are challenged to figure out how a floating train works in order to explain it to the citizens of Faraday. They develop models of how the train rises, floats, and then falls back to the track, and then write an explanation of how the train works.

An illustration from the Inheritance and Traits unit

2

Inheritance and Traits

Students play the role of wildlife biologists working in Greystone National Park. They study two wolf packs and are challenged to figure out why an adopted wolf (“Wolf 44”) in one of the packs has certain traits. Students observe variation between and within different species, investigate inherited traits and those that result from the environment, and explain the origin of several of the adopted wolf’s traits.

An illustration from the Environments and Survival unit

3

Environments and Survival

In their role as biomimicry engineers, students work to figure out how the traits of grove snails affect their survival in different environments. They then explore how the traits of different organisms make them more likely or less likely to survive, collecting and interpreting data to understand how organisms’ traits affect their survival in different environments. Students then apply their understanding to a new challenge: designing effective solutions for the removal of invasive plants.

An illustration from the Weather and Climate unit

4

Weather and Climate

In their role as meteorologists, students gather evidence to decide where to build an orangutan reserve by analyzing patterns in weather data. After choosing the strongest evidence, students use data to make arguments about which of three fictional islands has weather most like that of orangutans’ existing habitats, Borneo and Sumatra. They then discern patterns in the locations of natural hazards in order to figure out which ones the Wildlife Protection Organization must prepare for.

An illustration from the Energy Conversions unit

1

Energy Conversions

Students take on the role of systems engineers for Ergstown, a fictional town that experiences frequent blackouts, and explore reasons why an electrical system can fail. Students apply what they learned as they choose new energy sources and energy converters for the town, then write arguments for why their design choices will make the town’s electrical system more reliable.

An illustration from the Vision and Light unit

2

Inheritance and Traits

As conservation biologists, students work to figure out why a population of Tokay geckos has decreased since the installation of new highway lights in the rainforest. Students use their understanding of vision, light, and information processing to figure out why an increase in light in the geckos’ habitat is affecting the population.

An illustration from the Earth's Features unit

3

Environments and Survival

Playing the role of geologists, students help the director of Desert Rocks National Park explain how and when a particular fossil formed and how it came to be in its current location. Students figure out what the environment of the park was like in the past and why it has so many visible rock layers.

An illustration from the Waves, Energy, and Information unit

4

Weather and Climate

In their role as marine scientists, students work to figure out how mother dolphins communicate with their calves. They write a series of scientific explanations with diagrams to demonstrate their growing understanding of how sound waves travel. Then they apply what they’ve learned about waves, energy, and patterns in communication to figure out how to create patterns that can communicate information over distances.

An illustration from the Patterns of Earth and Sky unit

1

Patterns of Earth and Sky

Playing the role of astronomers, students help a team of archaeologists figure out what the missing piece of a recently discovered artifact might have depicted. As they learn about the sun and other stars and the movement of Earth, students can explain what is shown on the artifact and what might be on the missing piece.

An illustration from the Modeling Matter unit

2

Modeling Matter

In their role as food scientists at a fictional company, students are introduced to the idea that all matter is made of particles too small to see, and that each different substance is made of particles (molecules) that are unique. They are then challenged to solve two problems: one requires them to separate a mixture, and the other requires them to make unmixable substances mix. Students are challenged to use the particulate model of matter to explain their work to the CEO of the company.

An illustration from the Earth System unit

3

The Earth System

The cities of East Ferris and West Ferris are located on different sides of a mountain on the fictional Ferris Island. East Ferris is having a water shortage while West Ferris is not. As water resource engineers, students learn about the Earth system to help figure out what is causing the water shortage problem and design possible solutions, including freshwater collection systems and proposals for using chemical reactions to treat wastewater.

An illustration from the Ecosystem Restoration unit

4

Ecosystem Restoration

As ecologists, students work to figure out why the organisms in a part of a Costa Rican rainforest ecosystem aren’t growing and thriving. As they solve this problem, students learn more generally how organisms in an ecosystem get the matter and energy they need to survive, and then write a series of restoration plans that include arguments about why the rainforest ecosystem is not thriving and recommend actions to restore its health.

Print & digital components

Amplify Science California includes instructional guidance and student materials in English and Spanish for a year of instruction, with lessons and activities that keep students engaged every day.

Component

FORMAT

NEW! Classroom Slides

Meet your new hands-free TG! These lesson-specific PowerPoints make delivering daily instruction a snap with embedded links to related resources and suggested teacher talk in the Notes section of each slide.

Digital

Most adopted curriculum for the NGSS California

Teacher’s Reference Guide

Available digitally and in print, this unit-specific reference guide includes scientific background knowledge, planning information and resources, color-coded 3-D Statements, detailed lesson plans, and tips for delivering instruction and differentiating learning.

Print and digital

Two digital devices displaying educational content, one a tablet showing a green-themed start page, and the other a laptop depicting various science chapters.

Hands-on materials kits

Each unit-specific kit contains consumable and nonconsumable materials for use during hands-on investigations. In each kit you will find:

  • Hands-on materials
  • 18 copies of each of the Student Books
  • Big books (grades K–1)
  • Classroom display materials
  • One Student Investigation Notebook

Kit

Amplify Science California supports 3-D learning with more materials than any other program.

NGSS Benchmark Assessments

Delivered four times per year in grades 3–5 and three times per year in grades 6–8, our benchmark assessments report on students’ facility with each of the grade-level appropriate DCIs, SEPs, CCCs, and performance expectations of the California NGSS.

And now, Amplify Science California users can choose to administer the NGSS Benchmark Assessments (grades 3–8) through their Illuminate assessment platform.

*Also available in Spanish

Digital

An open laptop displaying a website with a quiz question about geographical changes over time, featuring a series of island maps from different years.

Component

FORMAT

Student Investigation Notebooks

Available for every unit, the Student Investigation Notebooks contain instructions for activities and space for students to record data, reflect on ideas from texts and investigations, and construct explanations and arguments.

*Also available in Spanish

Print and digital

Two educational books titled "amplifyscience," one in spanish and one in english, featuring illustrations of desert canyon landscapes on the covers.

Big books (grades K–1)

Amplify Science California never asks our youngest readers to read alone. Rather, we provide scaffolded literacy experiences every step of the way. With our large-format big books, introducing and revisiting concepts though read-aloud and shared reading experiences is a breeze.

*Also available in Spanish

Print

Two hardcover books titled "maravillas rocas" and "rocky wonders" by amplify science, lying open, showing a continuous desert rock formation across both covers.

Simulations and practice tools (grades 2+)

Developed exclusively for the Amplify Science California program, these serve as venues for exploration and data collection, allowing students to explore scientific concepts that might otherwise be invisible or impossible to see with the naked eye.

*Spanish versions coming soon

Digital

A computer screen displays an educational website titled "Earth's Features" with chapters and illustrations of canyons; a printed teacher’s guide is shown beside it.

Explore more programs

Our programs are designed to support and complement one another. Learn more about our related programs.

See all programs

Welcome, New York City reviewers

On this site, you will find the following information to assist you as you review Amplify Science: a guided tour to help you navigate both our K–5 and 6–8 programs, an overview video of our 6–8 program, a Getting Started guide, a program guide, unit maps and correlations to New York State standards for each of the units Amplify is submitting to the New York City Department of Education for review.

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

Getting started

Welcome to Amplify Science, a breakthrough curriculum designed from the ground up for new science standards and three-dimensional learning. Amplify is pleased to submit our next-generation K–8 science curriculum for review as a core instructional resource to the New York City Department of Education. We recommend watching the below video and walking through the Guided Tour for the level you are reviewing to get started.

Watch the video

View the guided tour

Learn how to navigate our online curriculum by clicking through the guided tour for the level(s) you’re reviewing:

Elementary school program
Middle school program

Units for review

Amplify Science has kindergarten through eighth grade units available for review.

Please note: for the K–5 units, the teacher accesses the digital curriculum for daily instruction (or a printed version of the teacher guide), while students use a variety of print and hands-on materials. When lessons call for students to access simulations and other digital tools (about once a week in grades 2–5), they will share devices and be logged-in via teacher credentials.

For the 6–8 program, both teachers and students access the digital curriculum, with students requiring devices for about 50 percent of lessons (either on shared devices or 1:1). Printed teacher guides and student notebooks are also available as downloadable PDFs in the program, or printed and bound from Amplify.

To access the digital curriculum, simply click on the link below to access the unit(s) you will be reviewing and related materials. View Technology Requirements.

An illustration from the Pushes and Pulls unit
Pushes and Pulls

Resources

Review the Getting Started Guide and take the Guided Tour before logging in.

Log in
An illustration from the Animal and Plant Defenses unit
Animal and Plant Defenses

Resources

Review the Getting Started Guide and take the Guided Tour before logging in.

Log in
An illustration from the Weather and Climate unit
Weather and Climate

Resources

Review the Getting Started Guide and take the Guided Tour before logging in.

Log in
An illustration from the Earth's Features unit
Earth’s Features

Resources

Review the Getting Started Guide and take the Guided Tour before logging in.

Log in
An illustration from the Modeling Matter unit
Modeling Matter

Resources

Review the Getting Started Guide and take the Guided Tour before logging in.

Log in
An illustration from the Chemical Reactions unit
Chemical Reactions
Log in
An illustration from the Light Waves unit
Earth, Moon, and Sun
Log in
An illustration from the Evolutionary History unit
Evolutionary History
Log in
An illustration from the Magnetic Fields unit
Force and Motion
Log in
An illustration of a whale with jellyfish and turtles from Amplify Science
Populations and Resources
Log in
An illustration from the Natural Selection unit
Traits and Reproduction
Log in

Archived Professional Learning Resources for NYC (K-8)

Welcome! This page contains archived professional learning resources designed for the New York City Department of Education Amplify Science adoption for grades K–8.

2023-24 Sessions

Previous Years

Winter 2021 materials:

Fall 2020 materials:

Summer 2020 materials:

Fall 2019 materials:

Summer 2019 materials:

  • Needs of Plants and Animals Presentation (Year 1 schools)
  • Needs of Plants and Animals Presentation (Year 2 schools)

Winter 2021 materials:

Fall 2020 materials:

Summer 2020 materials:

Fall 2019 materials:

Summer 2019 materials:

Winter 2021 materials:

Fall 2020 materials:

Summer 2020 materials:

  • K-5 New Teacher Orientation with Participant Notebook
  • Grades 2-3 Utilizing Program Assessments Effectively Webinar
  • Reaching All Learners for Grades 2-3 Webinar
  • Grade 2 Returning Teacher Remote Learning: Guided Planning Workshop Webinar

Fall 2019 materials:

Summer 2019 materials:

  • Plant and Animal Relationships Presentation (Year 1 schools)
  • Plant and Animal Relationships Presentation (Year 2 schools)

Spring 2021 materials:

  • Unit 4: Focusing on Evidence of Learning for New Teachers Webinar

Winter 2021 materials:

Fall 2020 materials:

Summer 2020 materials:

  • Grade 3 New Teacher Orientation Webinar with Participant Notebook
  • Grades 2-3 Utilizing Program Assessments Effectively Webinar
  • Reaching All Learners for Grades 2-3 Webinar
  • Grade 3 Returning Teacher Remote Learning: Guided Planning Workshop Webinar

Fall 2019 materials:

Summer 2019 materials:

Winter 2021 materials:

Fall 2020 materials:

Summer 2020 materials:

  • Grade 4 New Teacher Orientation Webinar with Participant Notebook
  • Grades 4-5 Utilizing Program Assessments Effectively Webinar
  • Reaching All Learners for Grades 4-5 Webinar
  • Grade 4 Returning Teacher Remote Learning: Guided Planning Workshop Webinar

Fall 2019 materials:

Summer 2019 materials:

  • Energy Conversions P(Year 1 schools)
  • Energy Conversions Energy Conversions (Year 2 schools)

Winter 2021 materials:

Fall 2020 materials:

Summer 2020 materials:

  • Grade 5 New Teacher Orientation Webinar with Participant Notebook
  • Grades 4-5 Utilizing Program Assessments Effectively Webinar
  • Reaching All Learners for Grades 4-5 Webinar
  • Grade 5 Returning Teacher Remote Learning: Guided Planning Workshop Webinar

Fall 2019 materials;

Summer 2019 materials:

Winter 2022 materials:

Spring 2021materials:

Winter 2021materials:

Fall 2020 materials:

Summer 2020 materials:

Fall 2019 materials:

Summer 2019 materials:

Winter 2022 materials:

Spring 2021 materials:

Winter 2021 materials:

Fall 2020 materials:

  • Grade 7: Progress Builds & Embedded Assessments Webinar
  • Grade 7: Amplify Science Remote & Hybrid Resources Webinar

Summer 2020 materials:

Fall 2019 materials:

Summer 2019 materials: 

Winter 2022 materials:

Spring 2021 materials:

Winter 2021 materials:

Fall 2020 materials:

  • Grade 8: Progress Builds & Embedded Assessments Webinar
  • Grade 8: Amplify Science Remote & Hybrid Resources Webinar

Summer 2020 materials:

Fall 2019 materials:

Summer 2019 materials:

Inspiring the next generation of Massachusetts scientists, engineers, and curious citizens

Amplify Science is an engaging new core curriculum designed for three-dimensional, phenomena-based learning.

Collage of four images: a jungle illustration with a giraffe, students using computers, a boy studying with classmates, and an animated hillside with kites flying.

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify. This partnership extends to 2032, allowing us to continuously improve our program and provide our customers with the most up-to-date enhancements, free of charge. Get a glimpse at our latest back-to-school updates here.

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

Three blue panels describing educational activities: "hands-on science" with lab experiments, "discuss" with collaborative learning, and "read" with literacy in science articles.

Phenomena-based approach

In each Amplify Science unit, students take on the roles of scientists or engineers in order to investigate a real-world problem. Students work to define the problem and collect and make sense of evidence. Once the context is clear, students collect evidence from multiple sources and through a variety of modalities. At the end of the unit, students are presented with a brand new problem, giving them an opportunity to apply what they’ve learned over the course of the unit to a new context. This represents a shift from asking students to learn about science to supporting students in figuring out the science.

Flowchart of a learning unit divided into four chapters, showing stages of student engagement from introduction to application, with assessments indicated at various points.

Resources to support your review

Scope and Sequence

GRADE

Kindergarten

UNITS

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water

Grade 1

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

Flexible implementation

One of the key features of Amplify Science is the flexibility that it offers. We give students authentic opportunities to experience the full breadth of what it means to be a scientist or engineer. Just as scientists gather evidence from many types of sources, so do students in our program. Like scientists, students gather evidence not just from physical models, but also from digital models, texts, videos, photographs, maps, data sets, and even their peers!
Simply put, real scientists don’t just get messy—they read, write, analyze, hypothesize, model, test, and communicate with purpose, too.

Illustration of the indirect effects of overfishing on northern benguela jelly populations displayed on a laptop screen.

Student Books
Beginning and young readers have unique developmental needs, and science instruction should support these students in reading more independently as they progress through sections of content, the school year, and each grade. One way Amplify Science meets these needs is by strategically deploying different modes of reading throughout each unit: Read-Aloud, Shared Reading, and Partner Reading.

A collage of various educational book covers related to science and math, featuring illustrated themes like sports, nature, and energy.

Student Investigation Notebooks

Available for every unit, the Student Investigation Notebooks provide space for students to:

  • record data.
  • reflect on ideas from texts and investigations.
  • construct explanations and arguments.
Collection of educational books from 'amplify science' on topics including ocean atmosphere, matter and energy ecosystems, and insect interactions, displayed in various angles.

Digital student experience

Students access the digital simulations and Modeling Tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • conduct hands-on investigations.
  • engage in Active Reading and writing activities.
  • participate in discussions.
  • record observations.
  • craft end-of-unit scientific arguments.

Dive into a quick example of our powerful simulations

Grades K–5 simulation

A digital illustration showcasing a laptop and a tablet displaying complex data analysis software interfaces with graphs and heatmaps.

Hands-on materials kits

Hands-on learning is at the heart of Amplify Science and is integrated
into every unit. Students actively take on the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them.

Check out this 2-minute video to see an Amplify Science hands-on investigation in action.

Each unit kit contains:

  • consumable and non-consumable hands-on materials.
  • print classroom display materials.
  • premium print materials for student use (sorting cards, maps, etc.).
A perforated rectangular board, three small containers with different powders, a black battery holder with red wires, and three colored alligator clips are arranged on a white background.

Teaching support

Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • detailed lesson plans.
  • unit and chapter overview documentation.
  • differentiation strategies.
  • standards alignments.
  • in-context professional development.
A laptop displaying the Geology on Mars webpage sits beside a book titled "Geology on Mars," both featuring the same cover image of Mars and a spacecraft, perfect for enhancing three-dimensional learning in any science classroom.

Massachusetts Academic Standards in Science coverage

Amplify Science was designed from the ground up to meet the NGSS, a set of standards that closely align with the Massachusetts Learning Standards for Science coverage. Most grade levels’ respective set of Amplify Science units therefore address the necessary MASS (see correlation). 

For grades K, 1, 2, 3, and 5, teachers should plan to also use the resources provided in the sections below to achieve full coverage of the appropriate standards before their students move on to the next grade band. Organized by grade level, each section outlines:

  • companion lesson materials that were written to support 100% alignment to the Massachusetts Learning Standards for Science coverage when used with the core Amplify Science units for the grade level
  • the standard being addressed with each companion lesson; and
  • the recommended placement of each companion lesson within a specific Amplify Science unit

Standard: K-PS1-1(MA). Investigate and communicate the idea that different kinds of materials can be solid or liquid depending on temperature.

Recommended placement: Following Lesson 5.6 of Sunlight and Weather

Resources: After students finish reflecting on their unit-long exploration of energy and temperature, play and discuss this read-aloud video of the student book Can you Change it Back?, which is featured in the grade 2 unit Properties of Materials. You might also consider borrowing the physical books from a grade 2 colleague’s Properties of Materials kit and reading it as a class instead of or in addition to playing the video.

Using the book, you will introduce students to the idea that heating and cooling can cause changes to materials. In the book, students are presented with a variety of materials and asked to predict whether a certain change caused by heating or cooling is reversible or irreversible.

Companion lesson: “Seasonal Changes”

Standard: 1-ESS1-2– Analyze provided data to identify relationships among seasonal patterns of change, including relative sunrise and sunset time changes, seasonal temperature and rainfall or snowfall patterns, and seasonal changes to the environment.

Recommended placement: Following Lesson 5.1 of Spinning Earth

Resources: Season Changes Classroom Slides and Student Sheet

Companion lesson: “Properties and Weight”

Standard: 2-PS1-3– Analyze a variety of evidence to conclude that when a chunk of material is cut or broken into pieces, each piece is still the same material and, however small each piece is, has weight. Show that the material properties of a small set of pieces do not change when the pieces are used to build larger objects.

Recommended placement: Following Lesson 4.4 of Properties of Materials.

Resources: Weight and Properties Classroom SlidesResources, and Student Sheet

Companion lesson 1: Extinct Insects

Standard: 3-LS4-1: Use fossils to describe types of organisms and their environments that existed long ago and compare those to living organisms and their environments. Recognize that most kinds of plants and animals that once lived on Earth are no longer found anywhere.

Recommended placement: Following Lesson 2.3 of Environments and Survival

Resources: Extinct Insects Classroom Slides and Student Sheet

Companion lesson 2: Friction

Standard: 3-PS2-1: Provide evidence to explain the effect of multiple forces, including friction, on an object. Include balanced forces that do not change the motion of the object and unbalanced forces that do change the motion of the object.

Recommended placement: Following Lesson 1.1 of Balancing Forces

Resources: Friction Classroom SlidesResources, and Student Sheet

Companion lesson 1: Composters

Standard: 5-LS2-2(MA)– Compare at least two designs for a composter to determine which is most likely to encourage decomposition of materials.

Recommended placement: Following Lesson 3.7 of Ecosystem Restoration

Resources: Composters Classroom Slides and Student Sheet

Companion lesson 2: Properties of Materials

Standard: 5-PS1-3 (MA) – Make observations and measurements of substances to describe characteristic properties of each, including color, hardness, reflectivity, electrical conductivity, thermal conductivity, response to magnetic forces, and solubility.

Recommended placement: Following Lesson 1.3 of Modeling Matter

Resources: Properties of Materials Classroom SlidesResourcesArticlesCopymaster, and Student Sheet

Companion lesson 3: Water Filters

Standard: 5-ESS3-2(MA)– Test a simple system designed to filter particulates out of water and propose one change to the design to improve it.

Recommended placement: Following Lesson 5.6 of The Earth System

Resources: Water Filters Classroom Slides and Student Sheet

Benchmark Assessments

Amplify’s Benchmark Assessments are designed to help teachers measure student progress toward the three dimensions—Disciplinary Core Ideas (DCIs), Science and Engineering Practices (SEPs), and Crosscutting Concepts(CCCs)—and performance expectations (PEs) of the NGSS. The assessments provide important insight into how students are progressing toward mastery of different standards ahead of high-stakes, end-of-year assessments.

The Benchmark Assessments are built to be delivered after specific units in the recommended Amplify Science scope and sequence.* They are given three or four times per year, depending on the grade level. The benchmarks are intended to show progress at various points in time across a school year, and are therefore not summative in nature. Digital items and item clusters are also tagged to specific NGSS standards, allowing customization to align with other course sequences. The assessments are available via the following platforms:

Print
PDF files: For administering Benchmark Assessments on paper

Digital platforms

  • Illuminate
  • SchoolCity
  • Otus
  • QTI (“Question and Test Interoperability”) files
    Not sure whether QTI files are compatible with your assessment platform? Contact your school IT or assessment platform representative for more information.
    Please note that Amplify is able to provide access to the QTI files themselves, but is not able to support the integration process. Your assessment platform provider should be able to assist with QTI file integration.

Remote and hybrid learning support

A child sits at a desk using a laptop. Next to the desk is a bookshelf with books, a fishbowl, and a soccer ball.

See an example of our remote and hybrid learning support below:

Intended to make extended remote and hybrid learning easier, Amplify Science @Home includes two useful options for continuing instruction: @Home Videos and @Home Units.
Amplify Science @Home Videos are recordings of real Amplify Science teachers teaching the lessons. For those teachers who are unable to meet synchronously with their students, the recorded lessons are a great way to keep their students on track and engaged with Amplify Science while at home.

Amplify Science @Home Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @Home Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. Each @Home unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @Home Units if synchronous learning or in-class time with students is available
  • Overviews to send home to families

Student materials will be available in two formats:

  • @Home Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home
  • Downloadable @Home Packets (PDF) for students without access to technology at home

Download the remote and hybrid learning guide

Explore the digital Teacher’s Guide

To familiarize yourself with navigation of the digital Teacher’s Guide, watch our navigational guide videos:

Grades K–5:

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We’ve developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans.
  • Information on where to locate standards and other planning materials.
  • Recommendations and tips for day-to-day teaching with Amplify programs.
  • Support with administering and interpreting assessment data and more.

Timely technical and program support

Our technical and program support is included and available Monday through Friday, from 7 a.m. to 7 p.m. ET, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

Ready to dive in?

Contact your Massachusetts representative:

Tracy Yefimenko
518-466-3497
tyefimenko@amplify.com

Welcome!

Amplify Science: California Edition is an immersive and engaging core curriculum authored by UC Berkeley’s Lawrence Hall of Science and built specifically for the NGSS.

K–8 Integrated Course Model

Needs of Plants and Animals

Pushes and Pulls

Sunlight and Weather

Animal and Plant Defenses

Light and Sound

Spinning Earth

Plant and Animal Relationships

Properties of Materials

Changing Landforms

Balancing Forces

Environments and Survival

Inheritance and Traits

Weather and Climate

Energy Conversions

Earth’s Features

Vision and Light

Waves, Energy, and Information

Patterns of Earth and Sky

Ecosystem Restoration

The Earth System

Modeling Matter

Grades 6–8 Integrated Model

Grades 6–8 Discipline Specific Model

Amplify Science

A new core curriculum designed from the ground up for the NGSS.

Preview the Student Books and Student Investigation Notebooks

Needs of Plants and Animals

Pushes and Pulls

Sunlight and Weather

Animal and Plant Defenses

Light and Sound

Spinning Earth

Plant and Animal Relationships

Properties of Materials

Changing Landforms

Balancing Forces

Environments and Survival

Inheritance and Traits

Weather and Climate

Energy Conversions

Earth’s Features

Vision and Light

Waves, Energy, and Information

Patterns of Earth and Sky

Ecosystem Restoration

The Earth System

Modeling Matter

Grades 6–8 Integrated Model

NGSS Benchmark Assessments

The Amplify NGSS Benchmark Assessments were authored by Amplify and were not developed as part of the Amplify Science program or created by the Lawrence Hall of Science.

Welcome!

As the 2021-2022 school year continues to pose new challenges, you’re likely thinking about making your classroom responsive to student needs due to the covid-19 pandemic.

Got additional questions? Use Zoom to attend office hours with Nadya Awadallah, the DOE’s Elementary Science Lead on Fridays from 12-1pm.

Meeting ID: 835 9458 3142

Passcode: 263518

NYC Newsletters

Educator Spotlight Submission

Calling all NYC DOE educators! Do you know an educator who has gone above and beyond? Would you like to highlight your teaching experience for others? Submit nominations here to see them featured as a spotlight in a future edition of our monthly newsletter and on our Instagram pages!

Introduction

This page includes planning, implementation, and professional learning resources for NYC schools using Amplify Science. Please take a moment to familiarize yourself with the categories in the navigation bar on the left side of the page so that you’ll be able to easily find what you need.

Most New York City educators come here looking for specific information, but if you’re new to Amplify Science, we recommend you read through the program guide to learn a little about the program. 

New to Amplify? – Start HERE!

Teachers and Administrators 

Step 1: Review the Amplify Science Navigation Essentials K-5 Video 

Step 2: Review your Scope and sequence/course structure calendar

Step 3: Review the Unpacking the Kit Videos listed below to understand what’s in your unit 1 kit

Step 4: Access your unique log in information to log-in to the Amplify Science Curriculum outlined below under Login support

Step 5: Log into the platform and access our Program Hub.  Select Using this site for self study for a complete suite of training videos and resources for an initial orientation video series

Step 6: Log into the curriculum and begin studying the Unit Map and Teacher’s Guide resources and begin planning your first lesson. Print out the NYC Program Guide for essential program information.

Step 7: Administrator’s ONLY – Review the K-5 Admin Orientation presentation for an overview on the program. Review materials under Admin Resources. 

NOTE: Should you need any additional guidance on how to get started with prep (or anything else!), please feel free to get in touch with our pedagogical support team. They are available Monday-Friday from 7AM-7PM EST. You can reach them via the chat icon in the lower right- hand corner of your screen when logged in, through email (help@amplify.com), or via phone (800-823-1969).

Getting started resources

NYC Resource Site overview – quick links

Technology requirements

Login support

Materials

  • Materials lists – lists of kit contents by unit
    K | 1 | 2 | 3 | 4 | 5
  • Spanish materials lists – lists of Spanish print kit contents by unit
    K | 1 | 2 | 3 | 4 | 5
  • Kit-level packing detail (chart) – high-level information regarding kits including dimensions, weights, etc. 

Unpacking your first Amplify Science classroom kit

All Amplify Science units coming with kits that include hands-on and print materials. The number of boxes (sometimes referred to as “tubs”) varies depending on the unit.

21-22 Login Update

The temporary login credentials for fall ’21 have been deactivated. 

Please make sure you check out the Getting started resources > Login support below for instructions around teacher and the NYC shared student logins.

If there are any issues, please confirm with your STARS programmer that your classes are finalized and then contact the Amplify Help Desk at help@amplify.com or at 1-800-823-1969.

Planning and implementation resources

Use our NYC Field Trip List to plan an engaging field trip for your students!

Use the resources below to plan out your year and ensure you are teaching each standard to mastery.

NYC DOE Supplemental Guiding Documents: Curriculum Gaps

Admin resources

Remote and hybrid learning resources

In response to the shifts towards remote learning, Amplify has created resources for using our programs remotely. Please visit our Program Hub accessible via your Teacher Platform for all of our hybrid and remote learning supports which includes guidance for teachers and parents/guardians.

Additionally, please see below where you’ll find the recordings from our recently held webinars on our remote learning resources and some best practices for implementing Amplify Science in a distance learning setting.

Resource guides

  1. K-8 Remote and hybrid learning guide

On-demand remote learning videos

Professional Learning Opportunities

Interested in attending training? Check out and sign up for this year’s PL offerings here!

All 2021-2022 PL session materials will be uploaded below under Professional learning resources.

Amplify Science Back-to-School Recorded Webinars – Amplify held a series of national office hours throughout the summer and fall to share information about our new resources to support remote and hybrid learning– including recommendations about what to prioritize from your curriculum and essential refresher topics, such as how to navigate your program and find the best planning resources. Feel free to watch all recorded sessions at your convenience.

21-22 Professional learning resources

Fall 2021 materials:

Summer 2021 materials:

Fall 2021 materials:

Summer 2021 materials:

Fall 2021 materials:

Summer 2021 materials:

Fall 2021 materials:

Summer 2021 materials:

Fall 2021 materials:

Summer 2021 materials:

Fall 2021 materials:

Summer 2021 materials:

20-21 Professional learning resources

Winter 2021 materials:

Fall 2020 materials:

Summer 2020 materials:

Winter 2021 materials:

Fall 2020 materials:

Summer 2020 materials:

Winter 2021 materials:

Fall 2020 materials:

Summer 2020 materials:

  • K-5 New Teacher Orientation with Participant Notebook
  • Grades 2-3 Utilizing Program Assessments Effectively Webinar
  • Reaching All Learners for Grades 2-3 Webinar
  • Grade 2 Returning Teacher Remote Learning: Guided Planning Workshop Webinar

Spring 2021 materials:

  • Unit 4: Focusing on Evidence of Learning for New Teachers Webinar

Winter 2021 materials:

Fall 2020 materials:

Summer 2020 materials:

  • Grade 3 New Teacher Orientation Webinar with Participant Notebook
  • Grades 2-3 Utilizing Program Assessments Effectively Webinar
  • Reaching All Learners for Grades 2-3 Webinar
  • Grade 3 Returning Teacher Remote Learning: Guided Planning Workshop Webinar

Winter 2021 materials:

Fall 2020 materials:

Summer 2020 materials:

  • Grade 4 New Teacher Orientation Webinar with Participant Notebook
  • Grades 4-5 Utilizing Program Assessments Effectively Webinar
  • Reaching All Learners for Grades 4-5 Webinar
  • Grade 4 Returning Teacher Remote Learning: Guided Planning Workshop Webinar

Winter 2021 materials:

Fall 2020 materials:

Summer 2020 materials:

  • Grade 5 New Teacher Orientation Webinar with Participant Notebook
  • Grades 4-5 Utilizing Program Assessments Effectively Webinar
  • Reaching All Learners for Grades 4-5 Webinar
  • Grade 5 Returning Teacher Remote Learning: Guided Planning Workshop Webinar

19-20 Professional learning resources

Summer 2019 materials:

Fall 2019 materials:

Spring 2020 materials:

  • Reaching ALL Learners: Utilizing Program Assessments Effectively in Grades K & 1 – Participant Notebook

Summer 2019 materials:

Fall 2019 materials:

Spring 2020 materials:

  • Reaching ALL Learners: Utilizing Program Assessments Effectively in Grades K & 1 – Participant Notebook

Summer 2019 materials:

Fall 2019 materials:

Spring 2020 materials:

  • Reaching ALL Learners: Utilizing Program Assessments Effectively in Grades 2 & 3 – Participant Notebook

Summer 2019 materials:

Fall 2019 materials:

Spring 2020 materials:

  • Reaching ALL Learners: Utilizing Program Assessments Effectively in Grades 2 & 3 – Participant Notebook

Summer 2019 materials:

Fall 2019 materials:

Summer 2019 materials:

Fall 2019 materials;

Caregiver Resources

Caregiver letters – information about Next Generation Science Standards by grade level

K | 1 | 2 | 3 | 4 | 5

Caregiver Hub

Questions

Amplify Science K–5 FAQs

For general questions about the Amplify program (navigation, pedagogy, login), please reach out:

Email – scihelp@amplify.com
Phone – call toll-free at (800) 823-1969, Monday to Friday 7 a.m.–7 p.m. ET

Amplify Chat – click the Amplify Chat icon within the individual teacher account

Elk Grove Science K5

To view this protected page, enter the password below:



Getting started with Amplify Science California

Dear Elk Grove K–5 teachers,

Welcome to the Amplify Science California family! Below you’ll find everything you need to successfully kick off your science instruction this year.

– Your California team

Amplify Science - Student reading a book remote & hybrid

Program introduction

Onboarding videos

To start using Amplify Science California quickly in your classroom, check out the following onboarding videos. They cover what you need to know to get started fast, from unpacking materials to quickly start using Amplify Science in your classroom and navigating the digital Teacher’s Reference Guide.

Program pacing

Hands-on materials kit

The following videos give you a quick look into our Amplify Science California classroom kits. For each grade level, you’ll find a “How to unpack your kit” video for the first unit of the program.

Teacher digital resources

Watch this video to understand the basic organization of the digital teacher experience and how to navigate the platform.

Want some practice? Download this exploration guide to practice toggling between teacher view, presentation view, and student view.

Our new digital experience also makes it easy to assign work through our LMS integrations.

Our new digital experience also makes it easy to view student work in real time.

Student digital resources

Watch this video to take a peek at the various student digital resources available to your class.

Use this Student Login Click Path document to support students and families logging in from home.

Essential resources

Your Teacher’s Reference Guide is a tremendously rich resource. It’s also packed! That’s why teachers getting started with Amplify Science love our condensed Unit Guides, lesson planners, and device calendars.

Unit Guides

These short and sweet guides provide a big picture overview of each unit’s phenomenon and storyline, the key questions that guide learning, and how the storyline develops from chapter to chapter. We even spoil the big reveal at the end by pointing out ahead of time what students figure out throughout the unit.

A laptop displays an educational website titled "The Earth System" with lesson modules; a printed Teacher’s Guide with a similar cover design is shown beside it.

Kindergarten

Grade 1

Grade 2

Grade 3

Grade 4

Grade 5

Lesson planners

Our lesson planners give you easy access to direct links to key resources within the program.

Kindergarten

Grade 1

Grade 2

Grade 3

Grade 4

Grade 5

Teacher-provided materials

Your Amplify Science classroom kit includes a wide variety of consumable and non-consumable items. In fact, each kit contains enough non-consumables to support a class of 36 students working in small groups, and enough consumables to support 72 student uses.

In addition to these provided items, there are some teacher-provided items required in each unit. For a consolidated list of teacher-provided items per unit, download the appropriate PDF below.

Device calendars

Our at-a-glance device calendars make device management and sharing between grade-level colleagues a breeze. With one calendar per unit (beginning in grade 2), you can easily see which lessons utilize devices.

Approach to assessment

The Amplify Science California assessment system is grounded in the principle that students benefit from regular and varied opportunities to demonstrate understanding through performance. In practice this means that conceptual understanding is revealed through engagement in the science and engineering practices.

Assessment types at a glance

In your classroom, you’ll be utilizing a variety of formative (F) and summative (S) assessments:

  • End-of-Unit Assessment (S): Assessments toward the end of each unit feature a combination of targeted discussions, student-generated models, and written explanations to gauge students’ knowledge and growth.
  • Pre-Unit Assessments (F): Discussion, modeling, and written explanations to gauge students’ knowledge.
  • On-the-Fly Assessments (OtFA) (F): Multi-dimensional tasks integrated regularly throughout the lessons. OtFA opportunities were designed to help teachers make sense of student activity during a learning experience (e.g., student-to-student talk, writing, and model construction) and to provide evidence of how a student is coming to understand core concepts and developing dexterity with SEPs and CCCs. Three-dimensional assessment opportunities make measuring progress toward NGSS learning goals possible.
  • Self-assessments (F): One per chapter; brief opportunities for students to reflect on their own learning, ask questions, and reveal ongoing wonderings about unit content.
  • Critical Juncture Assessments (F): Variety of multidimensional performance tasks intended to assess student progress, occurring at the end of each chapter. Examples include writing scientific explanations, engaging in argumentation, developing and using models, and designing engineering solutions. Based on student performance on the assessment, teachers have access to recommendations for targeted student interventions, suggested follow-ups, or differentiating classroom instruction.
  • End-of-Unit Assessment (S): Assessments toward the end of each unit feature a combination of targeted discussions, student-generated models, and written explanations to gauge students’ knowledge and growth.

Pre-Unit Assessments

Most Pre-Unit assessments are embedded within an activity of the first lesson of a unit. In kindergarten and grade 1, the Pre-Unit assessment (as well as the End-of-Unit assessment) is oral. In grades 2–5 they are typically written. Refer to the Digital Resources area of the Lesson Brief for materials needed for the assessment activity, such as the Clipboard Assessment Tool (K–1 only), copymasters (grades 2–5 only), and an Assessment Guide that will help you interpret and leverage students’ responses.

If you and your students have Interactive Classroom licenses, students can complete their assessment digitally instead of using the copymaster.

When students complete the assessment pages digitally, you’ll be able to review their work on the View Work page.

Critical Juncture Assessments

Critical Juncture assessments typically occur towards the end of each chapter. The Materials and Preparation section will indicate when there is a Critical Juncture to prepare for, but you can also tell when an activity is designed to be a Critical Juncture assessment by the hummingbird icon that will appear within it. Selecting the hummingbird icon will tell you how to assess students’ understanding with the activity, and how to tailor instruction based on what you find. If you need guidance on the “answers” to the assessment activity, refer to the “Possible Responses” tab.

If you are using Classroom Slides or Interactive Classroom, you’ll see a hummingbird or “Critical Juncture” label in the bottom right corner of one of the slides of the activity.

The notes about assessing understanding and tailoring instruction are located in the notes of that slide (on the right-hand side of the Teacher’s Guide tab in the Interactive Classroom experience; underneath the slide in Classroom Slides).

End-of-Unit Assessments

End-of-Unit assessments are typically the last lesson of a unit. In some units, these are two-part assessments that take place over two lessons. The easiest way to find the End-of-Unit assessment is to skim through the lesson titles. Lessons containing End-of-Unit assessments will always have that noted in the title.

Like the Pre-unit assessment, you can find materials for the End-of-unit assessments in the Digital Resources area of the Lesson Brief.

On-the-Fly Assessments

These embedded assessments leverage the formative opportunities in the learning experience students are already engaged in, such as creating models, analyzing data, actively reading, conducting investigations, and more. Refer to the Critical Juncture section above for guidance on finding information about using them.

Unit-level assessment information

You can find overall information about an individual unit’s assessments in the “Assessment System” resource, which is located within the Teacher References section on the Unit Overview page.

The Assessment System resource contains a comprehensive list of all of the assessment opportunities in the unit, including the assessment’s location, a brief indication of what students are doing in that particular activity, what type of assessment it is, which Disciplinary Core Ideas, science and engineering practices, and cross-cutting concepts it specifically addresses, and the kind of evaluation guidance you can expect for it. If you are in a kindergarten or first grade unit, you will also find information on the Clipboard Assessment Tool (used for supporting oral assessment) in this section.

If you’re interested in focusing on information related to the unit’s Critical Juncture and On-the-Fly assessments in particular, check out the “Embedded Formative Assessments” resource, also located within the Teacher References section on the Unit Overview page.

Three-dimensional assessment connections

All assessment opportunities within Amplify Science California include clear labeling around the Disciplinary Core Ideas (DCIs), Crosscutting Concepts (CCCs), and Science and Engineering Practices (SEPs) to help teachers connect formative and summative assessments to specific NGSS dimensions.

Coming soon

Unlike other publishers, we don’t make you wait until your next adoption to get the latest and greatest from Amplify. We’re always launching new and exciting features. In fact, on this page is a list of new features you can look forward to using during the 2023-2024 school year.

FAQs

Program questions

Amplify Science California is a flexible, blended K–8 science curriculum that addresses 100 percent of the Next Generation Science Standards for California and a significant number of the California English Language Development Standards and Common Core State Standards for English Language Arts, Literacy in Science and Technical Subjects, and Math. Together, the units deliver three-dimensional instruction across the following disciplines: Life Science, Earth and Space Science, Physical Science, and Engineering Design.

Amplify Science California does indeed feature some powerful and engaging digital components, which are gradually introduced beginning at grade 2. However, as a fully blended and flexible program, Amplify Science California can be (and has been) implemented in a wide variety of scenarios.

All lessons were designed with device sharing in mind, and never assume that every student has a separate device. While 1:1 scenarios are great, they aren’t required. When devices are necessary for students to fully experience a concept, teachers can opt to share devices across pairs or small groups, or simply display the Sim or Modeling Tool to the whole class and allow students to “drive” using your device.

Rather than introducing a concept on Monday, testing for mastery on Friday, and knowing students will forget everything by the next Tuesday, we set out to help students build meaningful and lasting knowledge that they can retain and transfer over the course of the entire unit. We accomplish this by giving students multiple opportunities (a.k.a. “at-bats”) to encounter, explore, and experience a concept. Said another way, Amplify Science California is actually made up of a series of multi-modal “mini-lessons.” This intentional, cyclical, and iterative design mirrors the 5Es, allows teachers the flexibility to speed up or skip ahead once students have demonstrated mastery, and empowers students to learn concepts more deeply than any other program.

Yes. Rather than separating performance expectations into physical science units, earth and space science units, and life science units, Amplify Science California units are organized around anchoring phenomena designed to give students opportunities to dive deeply into certain Disciplinary Core Ideas (DCIs) while also drawing from or applying to others. In organizing the Amplify Science California middle school units, we’ve carefully sequenced these ideas within each grade level to support the development of deep and coherent understanding.

Many real-world phenomena cross the domain boundaries of life, physical, or earth and space science (as well as engineering). Each Amplify Science California unit begins with an intriguing real-world phenomenon that poses a problem that needs to be understood and/or solved. By the end of the unit, students will have analyzed the anchor phenomenon across multiple scientific domains, possibly designed and tested an engineering solution, and applied what they’ve learned in a different context.

For example:
In the Light Waves unit, students investigate the anchoring phenomenon of why Australia has a much higher skin cancer rate than countries at similar latitudes like Brazil. The focus of this unit is on Disciplinary Core Ideas related to wave properties (PS4.A) and electromagnetic radiation (PS4.B). Students explore these physical science ideas deeply within the unit, and also draw on ideas from earth science (e.g., latitudinal variation of the sun’s energy) and life science (e.g., the effect of energy on the DNA in the nucleus of a cell) in order to explain the central phenomenon.

Absolutely. Hands-on learning is at the heart of Amplify Science California. Integrated into every unit are opportunities for students to take on the role of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend their claims.

In addition, our unique combination of focus and flex activities means teachers have more options, opportunities, and materials to make learning active. Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

What’s important to remember is that more hands-on doesn’t necessarily mean better, at least according to the California NGSS. That’s because only two of the eight Science and Engineering Practices (SEPs) are directly related to hands-on learning.

Just as scientists gather evidence from many types of sources, students in the Amplify Science California program gather evidence not just by making physical models, but also by making and interpreting digital models; reading texts; watching videos; and analyzing photographs, maps, and data sets. By doing do, students are provided with more opportunities than any other program to use all of the practices called out in the California NGSS Framework:

  • Asking questions
  • Developing and using models
  • Planning and carrying out investigations
  • Analyzing and interpreting data
  • Using mathematics and computational thinking
  • Constructing explanations
  • Engaging in arguments from evidence
  • Obtaining, evaluating, and communicating information

While all of our units engage students in gathering evidence from a rich collection of sources, the reliance on different types of evidence (and evidence sources) varies according to unit. For instance, some units lend themselves to meaningful hands-on experiences, while in other units the phenomena students are investigating are too slow, too dangerous, or too big to be observed directly. In those units, students rely more heavily on other evidence sources such a physical models or simulations.

Unit types in grades K–5

In each K–5 grade, there is one unit that emphasizes investigation, one that emphasizes modeling, and one that emphasizes design. In addition, in grades 3–5, there is also one unit that emphasizes argumentation.

Unit types in grades 6–8

Each 6–8 grade features three types of units: LaunchCore, and Engineering Internships. Each year has one Launch unit, six Core units, and two Engineering Internships.

For teachers who want to supplement the lessons with even more hands-on activities, optional “flextension” activities are included in many units.

Yes indeed. Amplify Science California integrates all four STEM disciplines—science, technology, engineering, and math, in addition to English Language Arts—throughout the curriculum. In addition, each grade level features specific units that emphasize engineering design.

Yes, the program includes multiple opportunities for summative assessments.

End-of-unit assessments: At grades K–1 these look like targeted conversations, at grades 2–5 we incorporate written responses, and at grades 6–8 we assess through a combination of auto-scored multiple-choice questions and rubric-scored written responses. These summative assessments for each unit are designed to provide valid, reliable, and fair measures of students’ progress and attainment of three-dimensional learning.

Benchmark assessments: Delivered four times per year in grades 3–5 and three times per year in grades 6–8, benchmark assessments report on students’ facilities with each of the grade appropriate DCIs, SEPs, CCCs, and performance expectations of the California NGSS.

Science Seminars and final written arguments (formative and summative components): In grades 6–8, culminating performance tasks for each core unit invite students to figure out a new real-world problem. They collect and analyze evidence, examine a number of claims, and then engage in a full-class discussion where they must state which claims are best supported by the evidence, all while making clear their reasoning that connects the evidence to the claims. After the seminar, students then individually write their final scientific argument, drawing on the DCIs, SEPs, and CCCs they have used over the course of the unit to develop a sophisticated and convincing argument that addresses the problem they’ve been investigating. Rubrics, scoring guides, and examples of student responses at each scoring level are provided to teachers to support the assessment of students’ understanding of concepts and specific practices.

Amplify Science California provides more than enough instructional content to fill 180 days of instruction. However, unlike other programs that expect you to complete 180 discrete lessons, Amplify Science California includes built-in wiggle room.

For example, the typical elementary classroom delivers science instruction only two times per week. Rather than asking teachers to wade through unnecessary content, we designed our program to address 100 percent of the California NGSS in just 66 days at grades K–2 and 88 days at grades 3–5. When it comes to middle school, we address 100 percent of the California NGSS in 146 lessons.

Some classes might last longer than one session due to a number of reasons (e.g., enthusiastic student conversations, challenging topics requiring deeper dives, more time needed to accommodate diverse learners, etc.). Also, teachers might want to supplement Amplify Science California with some of their own favorite lessons. Lastly, we’ve accounted for the inevitable assembly days, class trips, testing schedules, etc. For teachers that want to go deeper or expand upon a unit topic, we also offer a number of additional lessons that are not core to each unit.

Amplify Science California lessons are designed to be completed in the following time frames:
Lessons in grades K–1 are designed for 45 minutes of science instruction.
Lessons in grades 2–5 are designed for 60 minutes of science instruction.

That said, it’s not a problem if you can’t allocate 45 minutes of science instruction every day at K–1, or 60 minutes per day at 2–5. Since there are a total of 66 lessons to address 100 percent of California NGSS at grades K–2, and 88 lessons to address 100 percent of California NGSS at grades 3–5, you can easily teach the lessons in smaller blocks and cover all of the content over the course of the school year.

Each lesson of every Amplify Science California unit includes point-of-use differentiation strategies and embedded teacher and student supports for diverse learners, including English learners, students who need more support, and students who are ready for more challenge. These strategies and methods ensure that all students have access to the same content as their peers.

Two notable categories of suggested modifications are:

  • English-learner-specific strategies such as English/Spanish glossaries, native language supports, and provision of cognates and other content-specific language scaffolds are provided in each unit.
  • Relatively small alterations and additional scaffolds that provide students with greater access to the content.
    These types of scaffolds benefit all learners and include suggestions such as providing graphic organizers, practice with multiple-meaning words, etc.

With Amplify Science California, the use of technology is always purposeful.

For example:

  • The curriculum has a strong emphasis on literacy, with students reading and analyzing informational texts, and writing scientific explanations and arguments.
  • Digital elements are gradually introduced to students in grades 2–3, with the greatest use of digital elements taking place in grades 4–5, as the phenomena at these grades become more challenging to observe directly.
  • The curriculum’s readers and interactive notebook pages are available in both print and digital across all K–5 units.

This curriculum addresses a significant number of the standards as they pertain to science. Throughout each unit, students read science texts, engage in science talk and argumentation, and write evidence-based science explanations. The curriculum supports vocabulary, language, and reading comprehension development. Students also use measurement tools with precision, record and analyze data, make sense of scientific phenomena, and develop solutions to problems experienced in the real world.

Digital questions

Teacher Support notes including sample teacher talk, student responses, pedagogical support, and possible student responses are provided within your student-facing slides. Simply click “Teach” and reference your private Teacher Guide tab. Students will only see the lesson slides that you are presenting.

You, the teacher, must “Start class” to launch the presentation tab. (Remember, without the presentation tab, students would be able to see your teacher notes.)

Clicking “Starting class” also brings students to the correct slide, which is particularly important for young students who are learning to navigate.

Teachers can either press the “End class” button in the bottom right corner of the slide navigation, or they can simply close the presentation tab.

Clicking “End class” also enables students to navigate through the lesson on their own. That means they’ll be able to return to slides and books to review content, to the Sims and Modeling Tools to replay them, or to notebook pages to update their work.

You can click on the “Student preview” option in the bottom right corner (within the menu that opens when you click the three dots) to open a new browser tab where you can preview the student view using your teacher account.

Any work you complete in this student preview (or elsewhere in the teacher experience) will be automatically saved to your account.

Looking for help?

For login or technology issues, please submit an EGUSD Heat ticket. For curriculum and pedagogical questions, please refer to the support resources below.

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We’ve developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans.
  • Information on where to locate standards and other planning materials.
  • Recommendations and tips for day-to-day teaching with Amplify programs.
  • Support with administering and interpreting assessment data and more.

To reach our pedagogical team, use our live chat within your program, call (800) 823-1969, or email edsupport@amplify.com

Timely technical and program support

Our technical and program support is included and available from 4 a.m. to 4 p.m. PT, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

For your most urgent questions:

  • Use our live chat within your program.
  • Call our toll-free number: (800) 823-1969.

For less urgent questions:

Email support

Connect with other teachers

Our Amplify Science Facebook group is a community of Amplify Science educators from across the country. It’s a space to share best practices, ideas, and support on everything from implementation to instruction. Join today.

Welcome, Ohio educators!

Designed from the ground up to teach students to think, read, write, and argue like real scientists and engineers, Amplify Science combines literacy-rich activities with hands-on learning and digital tools to engage students in exploring compelling phenomena in every unit.

Students in a classroom interact with educational technology, featuring a diagram and charts on a screen, while working collaboratively on a laptop.

Overview

Developed by UC Berkeley’s Lawrence Hall of Science, our program features:

  • phenomena-based approach where students construct a more complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Newly crafted units, chapters, lessons, and activities designed to deliver true 3-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.

Hear what these educators have to say about the program. >

Approach to literacy

Two young children sit at a classroom table reading a book together, with educational materials spread out in front of them.

[Video] Literacy in action (K–5)

Watch students use scientific text to obtain information and practice reading skills, while using writing prompts to create arguments using evidence.

A student sits at a desk writing with a pencil while focused on his work, with classroom materials visible in the background.

[Video] Literacy in action (6–8)

Watch students use scientific text to obtain information and practice reading skills, while using writing prompts to create arguments using evidence.

A teacher in a green shirt helps a young student with writing at a classroom table, with other students and large numbers visible on the wall in the background.

Literacy-rich science instruction (K–5)

Immersing young students in reading, writing, and arguing like real scientists and engineers.

Two students sit at a table in a classroom, working on an assignment together. Other students are also seated and appear to be engaged in their work. Papers and books are spread out on the tables.

Active Reading in grades 6–8

Engaging middle school students in complex science texts.

Elementary school

Get started by watching this class share what they’re figuring out with Amplify Science. >

In Grades K–3 we recommend the national grade level units of Amplify Science to provide students with the appropriate grade level literacy and background knowledge. Individual units are available to purchase.

When you’re ready:

  1. Find a summary of each unit below including each unit’s student role and anchor phenomenon.
  2. Download some helpful resources to support your review.
  3. Explore the digital Teacher’s Guide by clicking the orange “Review now” button.
An illustration from Needs of Plants and Animals unit

Unit 1

Needs of Plants and Animals

Student role: Scientists

Phenomenon: There are no monarch caterpillars in the Mariposa Grove community garden ever since vegetables were planted.

An illustration from the Pushes and Pulls unit

Unit 2

Pushes and Pulls

Student role: Pinball engineers

Phenomenon: Pinball machines allow people to control the direction and strength of forces on a ball.

Silueta de una estructura de parque infantil contra un cielo azul con nubes y tres soles amarillos.

Unit 3

Sunlight and Weather

Student role: Weather scientists

Phenomenon: Students at one school are too cold during morning recess, while students at another are too hot during afternoon recess.

Illustration of sea turtles swimming among seaweed in the ocean, with a large shark in the background.

Unit 1

Animal and Plant Defenses

Student role: Marine scientists

Phenomenon: Spruce the Sea Turtle will soon be released back into the ocean, where she will survive despite predators.

An illustration from the Light and Sound unit

Unit 2

Light and Sound

Student role: Light and sound engineers

Phenomenon: A puppet show company uses light and sound to depict realistic scenes in puppet shows.

An illustration from the Spinning Earth unit

Unit 3

Spinning Earth

Student role: Sky scientists

Phenomenon: The sky looks different to Sai and his grandma when they talk on the phone at night.

An elephant standing next to a tree uses its trunk to pick a fruit from a branch while more fruit hangs above.

Unit 1

Plant and Animal Relationships

Student role: Plant scientists

Phenomenon: No new chalta trees are growing in the fictional Bengal Tiger Reserve in India.

A hand holds a red bean on a table, while a wooden stick spreads white glue and scattered beans. Also on the table are a white cup and a yellow pen.

Unit 2

Properties of Materials

Student role: Glue engineers

Phenomenon: Different glue recipes result in glues that have different properties.

Ilustración de una costa con acantilados, un edificio de centro recreativo con un techo rojo y un letrero, árboles de hoja perenne, una bandera azul y una playa de arena debajo.

Unit 3

Changing Landforms

Student role: Geologists

Phenomenon: The cliff on which Oceanside Recreation Center is situated appears to be receding.

Una ilustración de un tren de alta velocidad moderno y aerodinámico que viaja por una vía elevada con un paisaje verde de fondo.

Unit 1

Balancing Forces

Student role: Engineers

Phenomenon: The fictional town of Faraday is getting a new train. Unlike typical trains, this one floats, which is causing some concern among the town’s citizens.

An illustration from the Inheritance and Traits unit

Unit 2

Inheritance and Traits

Student role: Wildlife biologists

Phenomenon: An adopted wolf in Graystone National Park has some traits in common with one wolf pack in the park and other traits in common with a different pack.

An illustration from the Environments and Survival unit

Unit 3

Environments and Survival

Student role: Biomimicry engineers

Phenomenon: Over 10 years, a population of grove snails has changed. Populations with yellow shells have decreased, while those with banded shells have increased.

An illustration from the Weather and Climate unit

Unit 4

Weather and Climate

Student role: Meteorologists

Phenomenon: Three different islands, each a contender for becoming an orangutan reserve, experience different weather patterns.

An illustration from the Energy Conversions unit

Unit 1

Energy Conversions

Student role: System engineers

Phenomenon: The fictional town of Ergstown experiences frequent blackouts. Their electrical system seems to be failing.

An illustration from the Earth's Features unit

Unit 2

Earth’s Features

Student role: Geologists

Phenomenon: A mysterious fossil is discovered in a canyon within the fictional Desert Rocks National Park.

An illustration from the Modeling Matter unit

Unit 3

Modeling Matter

Student role: Food scientists

Phenomenon: Some ingredients dissolve in a salad dressing while others, like oil and vinegar, appear to separate.

An illustration from the Earth System unit

Unit 4

The Earth System

Student role: Water resource engineers

Phenomenon: East Ferris, a city on one side of the fictional Ferris Island, is experiencing a water shortage, while West Ferris is not.

An illustration from the Patterns of Earth and Sky unit

Unit 1

Patterns of Earth and Sky

Student role: Astronomers

Phenomenon: An ancient artifact depicts what we see in the sky at different times of the day, but it appears to be missing a piece.

An illustration from the Vision and Light unit

Unit 2

Vision and Light

Student role: Conservation biologists

Phenomenon: The population of Tokay geckos in a rain forest in the Philippines has decreased since the installation of new highway lights.

An illustration from the Waves, Energy, and Information unit

Unit 3

Waves, Energy, and Information

Student role: Marine scientists

Phenomenon: Mother dolphins in the fictional Blue Bay National Park communicate with their calves despite the distance between them.

An illustration from the Ecosystem Restoration unit

Unit 4

Ecosystem Restoration

Student role: Ecologists

Phenomenon: The jaguars, sloths, and cecropia trees in a reforested section of a Costa Rican rain forest are not growing or thriving.

Middle school

Get started by watching this class share what they’re figuring out with Amplify Science. >

When you’re ready:

  1. Find a summary of each unit below including each unit’s student role and anchor phenomenon.
  2. Download some helpful resources to support your review.
  3. Explore the digital Teacher’s Guide by clicking the orange “Review now” button.
Illustration of a cross-section of Earth showing a volcano near the ocean. Trees, mountains, and clouds are visible above, with subterranean layers below.

CORE

Rock Transformations

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.

Ilustración que muestra las etapas de fusión de una paleta de naranja: entera, parcialmente derretida, más derretida y casi derretida por completo, con palitos de madera, sobre un fondo morado.

CORE

Phase Change

Domains: Physical Science, Earth and Space Science

Unit type: Core

Student role: Chemists

Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart.

Green geometric graphic featuring icons: a baby, thermometer, layers, medical alert, and a flame.

ENGINEERING INTERNSHIP

Phase Change Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Chemical engineering interns

Phenomenon: Designing portable baby incubators with different combinations of phase change materials can keep babies at a healthy temperature.

Illustration of a person in a red hat and fur-lined coat with eyes closed, surrounded by large orange circles on a dark background.

CORE

Thermal Energy

Domain: Physical Science

Unit type: Core

Student role: Thermal scientists

Phenomenon: One of two proposed heating systems for Riverdale School will best heat the school.

Abstract art with vibrant colors featuring a yellow silhouette of a person holding a book against a background of geometric shapes, swirling patterns, and bold textures.

LAUNCH

Microbiome

Domain: Life Science

Unit type: Launch

Student role: Microbiological researchers

Phenomenon: The presence of 100 trillion microorganisms living on and in the human body may keep the body healthy.

Abstract artwork of a person's side profile with geometric shapes and colorful patterns flowing from the head, holding a small sledgehammer. A vision chart is visible in the corner.

CORE

Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

Phenomenon: Elisa, a young patient, feels tired all the time.

Orange abstract background with hexagonal shapes featuring icons of a bar chart, plant, safety vest, test tube, peach, and stethoscope.

ENGINEERING INTERNSHIP

Metabolism Engineering Internship

Domains: Life Science, Engineering Design

Unit type: Engineering internship

Student role: Food engineers

Phenomenon: Designing health bars with different molecular compositions can effectively meet the metabolic needs of patients or rescue workers.

Two people climbing rocky terrain; illustrations show a hiking boot and a belt with gear.

LAUNCH

Harnessing Human Energy

Domains: Physical Science, Earth and Space Science, Engineering Design

Unit type: Launch

Student role: Energy scientists

Phenomenon: Rescue workers can use their own human kinetic energy to power the electrical devices they use during rescue missions.

A girl runs with a colorful kite displaying literacy skills; text reads "Amplify. Science of Reading: A Primer | Part One" on a grassy landscape background.

CODING SCIENCE INTERNSHIP

Coding Science Internship: Coral Restoration (Optional)

Domains: Life Science, Coding Science

Unit type: Coding Science Internship

Student role: Coding science interns

Phenomenon: Implementing a restoration project to improve the health of coral reef populations in Hawaii.

Abstract artwork depicting a bright sun with blue and orange swirling patterns next to green hills under a sky with shades of blue, orange, and red.

CORE

Ocean, Atmosphere, and Climate

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Climatologists

Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.

An illustration from the Weather Patterns unit

CORE

Weather Patterns

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Forensic meteorologists

Phenomenon: In recent years, rainstorms in Galetown have been unusually severe.

An illustration from the Earth's Changing Climate unit

CORE

Earth’s Changing Climate

Domains: Earth and Space Science, Life Science

Unit type: Core

Student role: Climatologists

Phenomenon: The ice on Earth’s surface is melting.

Abstract geometric design in shades of blue and purple featuring a hexagon with icons of a building, wrench, molecules, sun, paint can, and screwdriver.

ENGINEERING INTERNSHIP

Earth’s Changing Climate Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Civil engineers

Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.

A city skyline at night with a prominent full moon, stars in the sky, and a bridge silhouette on the left.

CORE

Earth, Moon, and Sun

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Astronomers

Phenomenon: An astrophotographer can only take pictures of specific features on the Moon at certain times.

An illustration from the Chemical Reactions unit

CORE

Chemical Reactions

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Forensic chemists

Phenomenon: A mysterious brown substance has been detected in the tap water of Westfield.

An illustration from the Light Waves unit

CORE

Light Waves

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Spectroscopists

Phenomenon: The rate of skin cancer is higher in Australia than in other parts of the world.

An illustration of a whale with jellyfish and turtles from Amplify Science

CORE

Populations and Resources

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The size of the moon jelly population in Glacier Sea has increased.

Low-poly landscape with trees and mushrooms. A fox sniffs the ground, a rabbit sits nearby, and mountains and sun are in the background.

CORE

Matter and Energy in Ecosystems

Domains: Life Science, Earth and Space Science, Physical Science

Unit type: Core

Student role: Ecologists

Phenomenon: The biodome ecosystem has collapsed.

A girl runs with a colorful kite displaying literacy skills; text reads "Amplify. Science of Reading: A Primer | Part One" on a grassy landscape background.

CODING SCIENCE INTERNSHIP

Coding Science Internship: Coral Restoration (Optional)

Domains: Life Science, Coding Science

Unit type: Coding Science Internship

Student role: Coding science interns

Phenomenon: Implementing a restoration project to improve the health of coral reef populations in Hawaii.

A barren, rocky desert landscape with rover tracks leading to a distant vehicle on a hill under a hazy sky.

LAUNCH

Geology on Mars

Domain: Earth and Space Science

Unit type: Launch

Student role: Planetary geologists

Phenomenon: Analyzing data about landforms on Mars can provide evidence that Mars may have once been habitable.

Two prehistoric reptiles with long snouts and tails are near the shore, one on land and one in water, with plants, rocks, and an island in the background.

CORE

Plate Motion

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean, even though the Mesosaurus species once lived all together.

Geometric design featuring a telescope, mountain, sound waves, and cosmic elements on a purple hexagonal background.

ENGINEERING INTERNSHIP

Plate Motion Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Mechanical engineering interns

Phenomenon: Patterns in earthquake data can be used to design an effective tsunami warning system.

Una nave espacial se acerca a una estación espacial modular con paneles solares extendidos en una ilustración ambientada en el espacio.

CORE

Force and Motion

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: The asteroid sample-collecting pod failed to dock at the space station as planned.

Green geometric background with a hexagonal emblem containing a parachute icon, ruler, bandage, and stacked layers on a gradient pattern.

ENGINEERING INTERNSHIP

Force and Motion Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Mechanical engineering interns

Phenomenon: Designing emergency supply delivery pods with different structures can maintain the integrity of the supply pods and their contents.

Illustration of a roller coaster filled with people, hands raised, going down a steep track against a bright blue sky with clouds.

CORE

Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: During a test launch, a spacecraft traveled much faster than expected.

Imagen que muestra un gráfico de arañas de diferentes colores con patrones distintos de patas y cuerpo, incluidas variaciones de color marrón, amarillo y azul. El fondo es una superficie oscura y texturizada.

CORE

Traits and Reproduction

Domain: Life Science

Unit type: Core

Student role: Biomedical students

Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.

Four low-poly dinosaurs with missing body sections are standing in a row; one is yellow, and the others are green. They have purple spikes and red patches on their bodies.

CORE

Natural Selection

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The newt population in Oregon State Park has become more poisonous over time.

Red geometric background with icons including a mosquito, DNA strand, bar chart, and world map inside a hexagon.

ENGINEERING INTERNSHIP

Natural Selection Engineering Internship

Domains: Life Science, Earth and Space Science

Student role: Clinical engineers

Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development while helping malaria patients.

Illustration of a cross-section of Earth showing a volcano near the ocean. Trees, mountains, and clouds are visible above, with subterranean layers below.

CORE

Rock Transformations (optional)

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.

Two giant tortoises with long necks stand near water; one tortoise feeds on leaves from a tree while the other is near dense vegetation.

CORE

Evolutionary History

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Paleontologists

Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.

A girl runs with a colorful kite displaying literacy skills; text reads "Amplify. Science of Reading: A Primer | Part One" on a grassy landscape background.

CODING SCIENCE INTERNSHIP

Coding Science Internship: Coral Restoration (Optional)

Domains: Life Science, Coding Science

Unit type: Coding Science Internship

Student role: Coding science interns

Phenomenon: Implementing a restoration project to improve the health of coral reef populations in Hawaii.

Resources to support your review

Select a topic below to explore helpful resources with more information about Amplify Science, the program’s development, and pedagogy.

Two young girls, one with braided hair and the other with blonde hair, smiling and looking at a laptop screen in a classroom.
Four-step educational infographic depicting problem-solving process: engaging with real-world problems, exploring multiple sources, constructing explanations, and applying knowledge to new problems.
Integrated 5e model

Learn how the 5E elements are integrated throughout every unit.

Two children engaged in an animated conversation while sitting at a school desk with laptops and books.
Phenomena and storylines (K–5)

Read more about the real-world phenomena featured in each unit.

Children doing schoolwork at home
Phenomena and storylines (6–8)

Read more about the real-world phenomena featured in each unit.

A screenshot from a video titled "amplify science in action: a week in the..." featuring a smiling woman sitting in a classroom setting.
[Video] Planning in action (K–5)

Watch how easy it is for Amplify Science teachers to prep their 3-D instruction.

A woman smiling and gesturing while speaking, seated in a classroom with computers and educational materials around her, with a paused video screen featuring text about "amplify science.
[Video] Planning in action (6–8)

Watch how easy it is for Amplify Science teachers to prep their 3-D instruction.

Two young children sit at a classroom table, one smiling broadly, during an Amplify Science educational activity.
[Video] Hands-on in action (K–5)

Watch Amplify Science students conduct hands-on investigations.

A student in a classroom uses a dropper to add liquid to clear plastic cups during a science experiment. Other students and lab materials are visible in the background.
[Video] Hands-on in action (6–8)

Watch Amplify Science students conduct hands-on investigations.

Two young girls sit side by side at a desk, looking at a laptop screen and working together in a classroom setting.
[Video] Simulations and modeling tools (K–5)

Watch how students investigate phenomena with the help of digital tools.

Two students sit at a table in a classroom, working on laptops and talking, with other students visible in the background.
[Video] Simulations and modeling tools (6–8)

Watch how students investigate phenomena with the help of digital tools.

A young girl wearing safety goggles stretches a gooey substance from a cup in a kitchen or classroom setting.
Summary of Investigations (K–5) coming soon

Explore the types of investigations that students conduct.

A young person wearing gloves looks through a microscope at a table with laboratory supplies, including bottles, slides, and a tray, against a plain blue background.
Summary of Investigations (6–8) coming soon

Explore the types of investigations that students conduct.

A young boy and girl sitting in a classroom, reading a book together with focused expressions.
Program structure and components (K–5)

Take a closer look at how the program is organized.

Teacher assisting two students working on laptops in a classroom; other students are in the background.
Program structure and components (6–8)

Take a closer look at how the program is organized.

Digital collage of various devices displaying educational content about earth’s energy system, including graphs and text explanations.
[Video] New! Classroom Slides

Learn more about our customizable PowerPoints for every lesson.

A laptop screen displays a writing lesson with prompts and a student's response in Amplify Classwork. The student's answer discusses dangers related to a specific scenario involving a sick child.
Classwork (6–8)

A new, intuitive approach to reviewing student work online.

An adult sits on a couch using a laptop while a child next to them does homework in a notebook.
Remote and hybrid learning guide

Amplify is here to help! Amplify Science will soon feature product enhancements and new resources that will help manage the new landscape of back-to-school 2020.

Educational presentation slides from grade 8 amplify science materials spanish kit, displaying various science topics like geology and biology.
Spanish-language supports

Learn more about the Spanish-language supports in Amplify Science.

students collaborating and using laptops
English Learners

Learn how we make learning accessible for English learners.

Amplify Science California supports you every step of the way on your journey to the California NGSS.
Students needing support

Learn how we make learning accessible for students who need more support.

Teacher using a tablet while conducting an mCLASS reading intervention with three young students seated around a table in a classroom.
Students ready for more

Learn how we make learning more rigorous for students ready for a challenge.

Two boys work together on a laptop while a woman—likely one of their middle school teachers—sits beside them, observing and smiling in a classroom setting.
Accessibility

Read more about text design and accessibility, including embedded Read-Aloud audio.

A teacher discusses educational content in front of a whiteboard while students in the classroom raise their hands eagerly.
Approach to assessment (K–5)

Learn about our embedded formative and summative assessments.

Two students sit at desks writing in notebooks and using laptops in a classroom setting.
Approach to assessment (6–8)

Learn about our embedded formative and summative assessments.

A teacher and a young student looking at a laptop together in a colorful classroom decorated with children's artwork.
NGSS Benchmark assessments

Learn more about the Next Generation Science Standards Benchmark assessments created by Amplify.

A young girl in a classroom gives a thumbs up with both hands, smiling broadly, while other students look on in the background.
NGSS Benchmark assessments

NGSS alignment by performance expectation.

Two students in a classroom, one looking at the camera and the other listening intently, with a whiteboard displaying educational content in the background.
NGSS alignment (6–8)

NGSS alignment by performance expectation.

Ready to explore with digital access and physical samples?

Start your digital review and request physical samples with these three easy steps.

  1. Note these Ohio specific login credentials for your digital access.
    Username: t.ohscience@tryamplify.net
    Password: AmplifyNumber1
  2. Click Review now.
  3. Complete the form and select Log in with Amplify to input the Ohio specific login.
A woman sits at a desk in a classroom, working on a laptop with an open binder and papers in front of her.

Contact an Amplify representative

For any questions, fill out the form to the right and a member of our sales team will reach out to you soon.

Katie Cannon
Senior Account Executive

Casie Rayes
Account executive

Matt Paupore
Senior Account Executive

Welcome, Nebraska educators!

Designed from the ground up for the NGSS to teach students to think, read, write, and argue like real scientists and engineers, Amplify Science combines literacy-rich activities with hands-on learning and digital tools to engage students in exploring compelling phenomena in every unit.

Students in a classroom interact with educational technology, featuring a diagram and charts on a screen, while working collaboratively on a laptop.

Overview

Developed by UC Berkeley’s Lawrence Hall of Science, our program features:

  • phenomena-based approach where students construct a more complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Newly crafted units, chapters, lessons, and activities designed to deliver true 3-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.

Hear what these educators have to say about the program. >

Explore your grade level

Get started by watching this class share what they’re figuring out with Amplify Science. >

Then select your grade level below to learn more about how we make this type of rich learning accessible to all students at every grade.

Grades K-5 Grades 6–8

Elementary school

When you’re ready:

  1. Find a summary of each unit below including each unit’s student role and anchor phenomenon.
  2. Download some helpful resources to support your review.
  3. Explore the digital Teacher’s Guide by clicking the orange “Review now” button.
A boy reads a book with an illustrated background featuring a dinosaur skull, the Earth, trees, clouds, and water.
An illustration from Needs of Plants and Animals unit

Unit 1

Needs of Plants and Animals

Student role: Scientists

Phenomenon: There are no monarch caterpillars in the Mariposa Grove community garden ever since vegetables were planted.

An illustration from the Pushes and Pulls unit

Unit 2

Pushes and Pulls

Student role: Pinball engineers

Phenomenon: Pinball machines allow people to control the direction and strength of forces on a ball.

Silueta de una estructura de parque infantil contra un cielo azul con nubes y tres soles amarillos.

Unit 3

Sunlight and Weather

Student role: Weather scientists

Phenomenon: Students at one school are too cold during morning recess, while students at another are too hot during afternoon recess.

Illustration of sea turtles swimming among seaweed in the ocean, with a large shark in the background.

Unit 1

Animal and Plant Defenses

Student role: Marine scientists

Phenomenon: Spruce the Sea Turtle will soon be released back into the ocean, where she will survive despite predators.

An illustration from the Light and Sound unit

Unit 2

Light and Sound

Student role: Light and sound engineers

Phenomenon: A puppet show company uses light and sound to depict realistic scenes in puppet shows.

An illustration from the Spinning Earth unit

Unit 3

Spinning Earth

Student role: Sky scientists

Phenomenon: The sky looks different to Sai and his grandma when they talk on the phone at night.

An elephant standing next to a tree uses its trunk to pick a fruit from a branch while more fruit hangs above.

Unit 1

Plant and Animal Relationships

Student role: Plant scientists

Phenomenon: No new chalta trees are growing in the fictional Bengal Tiger Reserve in India.

A hand holds a red bean on a table, while a wooden stick spreads white glue and scattered beans. Also on the table are a white cup and a yellow pen.

Unit 2

Properties of Materials

Student role: Glue engineers

Phenomenon: Different glue recipes result in glues that have different properties.

Ilustración de una costa con acantilados, un edificio de centro recreativo con un techo rojo y un letrero, árboles de hoja perenne, una bandera azul y una playa de arena debajo.

Unit 3

Changing Landforms

Student role: Geologists

Phenomenon: The cliff on which Oceanside Recreation Center is situated appears to be receding.

Una ilustración de un tren de alta velocidad moderno y aerodinámico que viaja por una vía elevada con un paisaje verde de fondo.

Unit 1

Balancing Forces

Student role: Engineers

Phenomenon: The fictional town of Faraday is getting a new train. Unlike typical trains, this one floats, which is causing some concern among the town’s citizens.

An illustration from the Inheritance and Traits unit

Unit 2

Inheritance and Traits

Student role: Wildlife biologists

Phenomenon: An adopted wolf in Graystone National Park has some traits in common with one wolf pack in the park and other traits in common with a different pack.

An illustration from the Environments and Survival unit

Unit 3

Environments and Survival

Student role: Biomimicry engineers

Phenomenon: Over 10 years, a population of grove snails has changed. Populations with yellow shells have decreased, while those with banded shells have increased.

An illustration from the Weather and Climate unit

Unit 4

Weather and Climate

Student role: Meteorologists

Phenomenon: Three different islands, each a contender for becoming an orangutan reserve, experience different weather patterns.

An illustration from the Energy Conversions unit

Unit 1

Energy Conversions

Student role: System engineers

Phenomenon: The fictional town of Ergstown experiences frequent blackouts. Their electrical system seems to be failing.

An illustration from the Vision and Light unit

Unit 2

Vision and Light

Student role: Conservation biologists

Phenomenon: The population of Tokay geckos in a rain forest in the Philippines has decreased since the installation of new highway lights.

An illustration from the Earth's Features unit

Unit 3

Earth’s Features

Student role: Geologists


Phenomenon: A mysterious fossil is discovered in a canyon within the fictional Desert Rocks National Park.

An illustration from the Waves, Energy, and Information unit

Unit 4

Waves, Energy, and Information

Student role: Marine scientists

Phenomenon: Mother dolphins in the fictional Blue Bay National Park communicate with their calves despite the distance between them.

An illustration from the Patterns of Earth and Sky unit

Unit 1

Patterns of Earth and Sky

Student role: Astronomers

Phenomenon: An ancient artifact depicts what we see in the sky at different times of the day, but it appears to be missing a piece.

An illustration from the Modeling Matter unit

Unit 2

Modeling Matter

Student role: Food scientists

Phenomenon: Some ingredients dissolve in a salad dressing while others, like oil and vinegar, appear to separate

Illustration of a pixelated green mountain cliff deconstructing into a digital grid, with red dots floating over a tranquil sea and flying white birds.

Unit 3

The Earth System

Student role: Water resource engineers

Phenomenon: East Ferris, a city on one side of the fictional Ferris Island, is experiencing a water shortage, while West Ferris is not.

An illustration from the Ecosystem Restoration unit

Unit 4

Ecosystem Restoration

Student role: Ecologists

Phenomenon: The jaguars, sloths, and cecropia trees in a reforested section of a Costa Rican rain forest are not growing or thriving.

Middle school

When you’re ready:

  1. Find a summary of each unit below including each unit’s student role and anchor phenomenon.
  2. Download some helpful resources to support your review.
  3. Explore the digital Teacher’s Guide by clicking the orange “Review now” button.
A person in a black hoodie smiles while working on a laptop, surrounded by illustrations of rockets, satellites, popsicles, and the Earth.
Abstract art with vibrant colors featuring a yellow silhouette of a person holding a book against a background of geometric shapes, swirling patterns, and bold textures.

LAUNCH

Microbiome

Domain: Life Science

Unit type: Launch

Student role: Microbiological researchers

Phenomenon: The presence of 100 trillion microorganisms living on and in the human body may keep the body healthy.  

Abstract artwork of a person's side profile with geometric shapes and colorful patterns flowing from the head, holding a small sledgehammer. A vision chart is visible in the corner.

CORE

Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

Phenomenon: Elisa, a young patient, feels tired all the time.  

Orange abstract background with hexagonal shapes featuring icons of a bar chart, plant, safety vest, test tube, peach, and stethoscope.

ENGINEERING INTERNSHIP

Metabolism Engineering Internship

Domains: Life Science, Engineering Design

Unit type: Engineering internship

Student role: Food engineers

Phenomenon: Designing health bars with different molecular compositions can effectively meet the metabolic needs of patients or rescue workers.  

Imagen que muestra un gráfico de arañas de diferentes colores con patrones distintos de patas y cuerpo, incluidas variaciones de color marrón, amarillo y azul. El fondo es una superficie oscura y texturizada.

CORE

Traits and Reproduction

Domain: Life Science

Unit type: Core

Student role: Biomedical students

Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.  

Illustration of a person in a red hat and fur-lined coat with eyes closed, surrounded by large orange circles on a dark background.

CORE

Thermal Energy

Domain: Physical Science

Unit type: Core

Student role: Thermal scientists

Phenomenon: One of two proposed heating systems for Riverdale School will best heat the school.  

Abstract artwork depicting a bright sun with blue and orange swirling patterns next to green hills under a sky with shades of blue, orange, and red.

CORE

Ocean, Atmosphere, and Climate

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Climatologists

Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.  

An illustration from the Weather Patterns unit

CORE

Weather Patterns

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Forensic meteorologists

Phenomenon: In recent years, rainstorms in Galetown have been unusually severe.  

An illustration from the Earth's Changing Climate unit

CORE

Earth’s Changing Climate

Domains: Earth and Space Science, Life Science

Unit type: Core

Student role: Climatologists

Phenomenon: The ice on Earth’s surface is melting.  

Abstract geometric design in shades of blue and purple featuring a hexagon with icons of a building, wrench, molecules, sun, paint can, and screwdriver.

Engineering Internship

Earth’s Changing Climate Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Civil engineers

Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.  

A barren, rocky desert landscape with rover tracks leading to a distant vehicle on a hill under a hazy sky.

LAUNCH

Geology on Mars

Domain: Earth and Space Science

Unit type: Launch

Student role: Planetary geologists

Phenomenon: Analyzing data about landforms on Mars can provide evidence that Mars may have once been habitable.  

Two prehistoric reptiles with long snouts and tails are near the shore, one on land and one in water, with plants, rocks, and an island in the background.

CORE

Plate Motion

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean, even though the Mesosaurus species once lived all together.   

Geometric design featuring a telescope, mountain, sound waves, and cosmic elements on a purple hexagonal background.

ENGINEERING INTERNSHIP

Plate Motion Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Mechanical engineering interns

Phenomenon: Patterns in earthquake data can be used to design an effective tsunami warning system.  

Illustration of a cross-section of Earth showing a volcano near the ocean. Trees, mountains, and clouds are visible above, with subterranean layers below.

CORE

Rock Transformations

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.  

Ilustración que muestra las etapas de fusión de una paleta de naranja: entera, parcialmente derretida, más derretida y casi derretida por completo, con palitos de madera, sobre un fondo morado.

CORE

Phase Change

Domains: Physical Science, Earth and Space Science

Unit type: Core

Student role: Chemists

Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart.  

Green geometric graphic featuring icons: a baby, thermometer, layers, medical alert, and a flame.

ENGINEERING INTERNSHIP

Phase Change Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Chemical engineering interns

Phenomenon: Designing portable baby incubators with different combinations of phase change materials can keep babies at a healthy temperature.  

An illustration from the Chemical Reactions unit

CORE

Chemical Reactions

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Forensic chemists

Phenomenon: A mysterious brown substance has been detected in the tap water of Westfield.   

An illustration of a whale with jellyfish and turtles from Amplify Science

CORE

Populations and Resources

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The size of the moon jelly population in Glacier Sea has increased.  

Low-poly landscape with trees and mushrooms. A fox sniffs the ground, a rabbit sits nearby, and mountains and sun are in the background.

CORE

Matter and Energy in Ecosystems

Domains: Life Science, Earth and Space Science, Physical Science

Unit type: Core

Student role: Ecologists

Phenomenon: The biodome ecosystem has collapsed.  

Two people climbing rocky terrain; illustrations show a hiking boot and a belt with gear.

LAUNCH

Harnessing Human Energy

Domains: Physical Science, Earth and Space Science, Engineering Design

Unit type: Launch

Student role: Energy scientists

Phenomenon: Rescue workers can use their own human kinetic energy to power the electrical devices they use during rescue missions.  

Illustration of a futuristic space station with large solar panels, orbiting in deep space, emitting a blue glow from its propulsion system.

CORE

Force and Motion

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: The asteroid sample-collecting pod failed to dock at the space station as planned.   

Green geometric background with a hexagonal emblem containing a parachute icon, ruler, bandage, and stacked layers on a gradient pattern.

ENGINEERING INTERNSHIP

Force and Motion Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Mechanical engineering interns

Phenomenon: Designing emergency supply delivery pods with different structures can maintain the integrity of the supply pods and their contents.  

Illustration of a roller coaster filled with people, hands raised, going down a steep track against a bright blue sky with clouds.

CORE

Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: During a test launch, a spacecraft traveled much faster than expected.  

An illustration from the Light Waves unit

CORE

Light Waves

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Spectroscopists

Phenomenon: The rate of skin cancer is higher in Australia than in other parts of the world.   

A city skyline at night with a prominent full moon, stars in the sky, and a bridge silhouette on the left.

CORE

Earth, Moon, and Sun

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Astronomers

Phenomenon: An astrophotographer can only take pictures of specific features on the Moon at certain times.  

Four low-poly dinosaurs with missing body sections are standing in a row; one is yellow, and the others are green. They have purple spikes and red patches on their bodies.

CORE

Natural Selection

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The newt population in Oregon State Park has become more poisonous over time.  

Red geometric background with icons including a mosquito, DNA strand, bar chart, and world map inside a hexagon.

ENGINEERING INTERNSHIP

Natural Selection Engineering Internship

Domains: Engineering Design, Life Science

Unit type: Engineering internship

Student role: Clinical engineers

Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development while helping malaria patients.   

Two giant tortoises with long necks stand near water; one tortoise feeds on leaves from a tree while the other is near dense vegetation.

CORE

Evolutionary History

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Paleontologists

Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.    

Resources to support your review

Select a topic below to explore helpful resources with more information about Amplify Science, the program’s development, and pedagogy.

Dos niñas están sentadas en una mesa, mirando juntas la pantalla de una computadora portátil en un salón de clases. Al fondo se ven estanterías con libros y materiales de clase.
Two children engaged in an animated conversation while sitting at a school desk with laptops and books.
Phenomena and storylines (K–5)

Read more about the real-world phenomena featured in each unit.

Children doing schoolwork at home
Phenomena and storylines (6–8)

Read more about the real-world phenomena featured in each unit.

Four-step educational infographic depicting problem-solving process: engaging with real-world problems, exploring multiple sources, constructing explanations, and applying knowledge to new problems.
Integrated 5e model

Learn how the 5E elements are integrated throughout every unit.

A woman smiling and gesturing while speaking, seated in a classroom with computers and educational materials around her, with a paused video screen featuring text about "amplify science.
[Video] Planning in action (K–5)

Watch how easy it is for Amplify Science teachers to prep their 3-D instruction.

A screenshot from a video titled "amplify science in action: a week in the..." featuring a smiling woman sitting in a classroom setting.
[Video] Planning in action (6–8)

Watch how easy it is for Amplify Science teachers to prep their 3-D instruction.

Two children sitting at a table, one in a yellow shirt and the other in pink, smiling and looking forward.
[Video] Hands-on in action (K–5)

Watch Amplify Science students conduct hands-on investigations.

A boy in a science classroom observes a reaction in a clear cup. Other students and lab materials are in the background.
[Video] Hands-on in action (6–8)

Watch Amplify Science students conduct hands-on investigations.

Two children in school uniforms work together on laptops in a classroom setting, with focus on learning and collaboration.
[Video] Simulations and modeling tools (K–5)

Watch how students investigate phenomena with the help of digital tools.

Students sitting at a table using laptops, engaging in a classroom activity.
[Video] Simulations and modeling tools (6–8)

Watch how students investigate phenomena with the help of digital tools.

A young girl wearing safety goggles stretches a gooey substance from a cup in a kitchen or classroom setting.
Summary of Investigations (K–5)

Explore the types of investigations that students conduct.

A young person wearing gloves looks through a microscope at a table with laboratory supplies, including bottles, slides, and a tray, against a plain blue background.
Summary of Investigations (6–8)

Explore the types of investigations that students conduct.

A young boy and girl sitting in a classroom, reading a book together with focused expressions.
Program structure and components (K–5)

Take a closer look at how the program is organized.

Teacher assisting two students working on laptops in a classroom; other students are in the background.
Program structure and components (6–8)

Take a closer look at how the program is organized.

Digital collage of various devices displaying educational content about earth’s energy system, including graphs and text explanations.
[Video] New! Classroom Slides

Learn more about our customizable PowerPoints for every lesson.

A laptop screen displays a writing lesson with prompts and a student's response in Amplify Classwork. The student's answer discusses dangers related to a specific scenario involving a sick child.
Classwork (6–8)

A new, intuitive approach to reviewing student work online.

students collaborating and using laptops
English Learners

Learn how we make learning accessible for English learners.

Amplify Science California supports you every step of the way on your journey to the California NGSS.
Students needing support

Learn how we make learning accessible for students who need more support.

Teacher using a tablet while conducting an mCLASS reading intervention with three young students seated around a table in a classroom.
Students ready for more

Learn how we make learning more rigorous for students ready for a challenge.

Two young children sit at a table looking at an open book, with other books placed in front of them. A play button is visible over the image.
[Video] Literacy in action (K–5)

Watch students use scientific text to obtain information and practice reading skills, while using writing prompts to create arguments using evidence

A student writes in a notebook, holding a pencil, focused on the task.
[Video] Literacy in action (6–8)

Watch students use scientific text to obtain information and practice reading skills, while using writing prompts to create arguments using evidence.

A teacher in a green shirt helps a young student with writing at a classroom table, with other students and large numbers visible on the wall in the background.
Literacy-rich science instruction (K–5)

Immersing young students in reading, writing, and arguing like real scientists and engineers.

Two students sit at a table in a classroom, working on an assignment together. Other students are also seated and appear to be engaged in their work. Papers and books are spread out on the tables.
Active Reading in grades 6–8

Engaging middle school students in complex science texts.

Two boys work together on a laptop while a woman—likely one of their middle school teachers—sits beside them, observing and smiling in a classroom setting.
Accessibility

Read more about text design and accessibility, including embedded Read-Aloud audio.

A teacher discusses educational content in front of a whiteboard while students in the classroom raise their hands eagerly.
Approach to assessment (K–5)

Learn about our embedded formative and summative assessments.

Two students sit at desks writing in notebooks and using laptops in a classroom setting.
Approach to assessment (6–8)

Learn about our embedded formative and summative assessments.

A teacher and a young student looking at a laptop together in a colorful classroom decorated with children's artwork.
NGSS Benchmark assessments

Learn more about the Next Generation Science Standards Benchmark assessments created by Amplify.

A young girl in a classroom gives a thumbs up with both hands, smiling broadly, while other students look on in the background.
NGSS alignment (K–5)

NGSS alignment by performance expectation.

Two students in a classroom, one looking at the camera and the other listening intently, with a whiteboard displaying educational content in the background.
NGSS alignment (6–8)

NGSS alignment by performance expectation.

Two children sit at a table with Chromebooks, facing each other and talking, in a classroom with books and storage bins in the background.
Remote and hybrid learning guide

Amplify is here to help! Amplify Science will soon feature product enhancements and new resources that will help manage the new landscape of back-to-school 2020.

Educational presentation slides from grade 8 amplify science materials spanish kit, displaying various science topics like geology and biology.
Spanish-language supports

Learn more about the Spanish-language supports in Amplify Science.

Ready to start exploring with digital access?

A woman sits at a desk in a classroom, working on a laptop with an open binder and papers in front of her.

Contact an Amplify representative

Laina Armbruster
larmbruster@amplify.com
(602) 791-4135

Bob McCarty
rmccarty@amplify.com
(435) 655-1731

Kristin McDonald
kmcdonald@amplify.com
(515) 240-0244

A closer look at grades K–2

Amplify Science California is based on the latest research on teaching and learning and helps teachers deliver age-appropriate, high-quality, literacy-rich instruction that enables students to take on the roles of scientists and engineers to solve real-world phenomena every day.

In the K–2 classroom, this looks like students:

  • Collecting evidence from a variety of sources.
  • Making sense of evidence in a variety of ways.
  • Formulating convincing scientific arguments.
A collage of four images: building a toothpick structure, a boy reading a book to a girl, two children conducting a water experiment, and a light projection setup.
Graphic showing a research process with four steps: spark intrigue with a real-world problem, explore evidence, explain and elaborate, and evaluate claims, connected in a cycle with arrows.

Program structure

Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, their understanding gradually builds and deepens, ultimately leading to their ability to develop and refine increasingly complex explanations of the unit’s phenomenon.

It’s this proven program structure and lesson design that enables Amplify Science California to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our K–2 program to address 100% of the California NGSS in just 66 days.

Scope and sequence

Every year of our K–2 consists of 3 units and 66 total lessons. Said another way, each unit contains 20 lessons plus two dedicated assessment days (a Pre-Unit Assessment and End-of-Unit Assessment).

Lessons at grades K–1 are written for a minimum of 45-minutes, and grade 2 lessons are written for a minimum of 60-minutes—though teachers can expand or contract the timing to meet their needs.

Educational curriculum chart showcasing a progression of amplify science lessons from kindergarten to grade 5, categorized by grade and subject areas like plants, animals, weather, and energy.

Unit types

While every unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, each unit also emphasizes a particular science and engineering practice.

In each grade K–2:

  • One unit emphasizes the practice of investigation.
  • One unit emphasizes the practice of modeling.
  • One unit emphasizes the practice of engineering design.
Investigation Units

Investigation units focus on the process of strategically developing investigations and gathering data to answer questions. Students are first asked to consider questions about what happens in the natural world and why, and are then involved in designing and conducting investigations that produce data to help answer those questions.

Modeling Units

Modeling units provide extra support to students engaging in the practice of modeling. Students use physical models, investigate with computer models, and create their own diagrams to help them visualize what might be happening on the nanoscale.

Engineering Design Units

Engineering design units provide opportunities for students to solve complex problems by applying science principles to the design of functional solutions, and iteratively testing those solutions to determine how well they meet preset criteria.

Units at a glance

An illustration from Needs of Plants and Animals unit
Needs of Plants and Animals

Domains: Life Science, Earth and Space Science, Engineering Design

Unit type: Investigation

Student role: Scientists

Phenomenon: There are no monarch caterpillars in the Mariposa Grove community garden since vegetables were planted. 

Download unit guide

Download lesson planner

An illustration from the Pushes and Pulls unit
Pushes and Pulls

Domains: Physical Science, Engineering Design

Unit type: Engineering design

Student role: Pinball engineers

Phenomenon: Pinball machines allow people to control the direction and strength of forces on a ball.  

Download unit guide

Download lesson planner

Silhouette of a playground structure against a blue sky with clouds and three yellow suns.
Sunlight and Weather

Domains: Earth and Space Science, Life Science, Engineering Design

Unit type: Modeling

Student role: Weather scientists

Phenomenon: Students at Carver Elementary School are too cold during morning recess, while students at Woodland Elementary School are too hot during afternoon recess.  

Download unit guide

Download lesson planner

Illustration of sea turtles swimming among seaweed in the ocean, with a large shark in the background.
Animal and Plant Defenses

Domain: Life Science

Unit type: Modeling

Student role: Marine scientists

Phenomenon: Spruce the Sea Turtle lives in an aquarium and will soon be released back into the ocean, where she will survive despite ocean predators.  

Download unit guide

Download lesson planner

Two hands holding a paper with a drawing of a pyramid and a tree, illuminated by a flashlight, projecting another shadow of the image on the wall.
Light and Sound

Domains: Physical Science, Engineering Design

Unit type: Engineering design

Student role: Light and sound engineers

Phenomenon: A puppet show company uses light and sound to depict realistic scenes in puppet shows.  

Download unit guide

Download lesson planner

An illustration from the Spinning Earth unit
Spinning Earth

Domain: Earth and Space Science

Unit type: Investigation

Student role: Sky scientists

Phenomenon: The sky looks different to Sai and his grandma when they talk on the phone.  

Download unit guide

Download lesson planner

An elephant standing next to a tree uses its trunk to pick a fruit from a branch while more fruit hangs above.
Plant and Animal Relationships

Domains: Life Science, Engineering Design

Unit type: Investigation

Student role: Plant scientists

Phenomenon: No new chalta trees are growing in the fictional Bengal Tiger Reserve in India.  

Download unit guide

Download lesson planner

A hand holds a red bean on a table, while a wooden stick spreads white glue and scattered beans. Also on the table are a white cup and a yellow pen.
Properties of Materials

Domains: Physical Science, Engineering Design

Unit type: Engineering design

Student role: Glue engineers

Phenomenon: Different glue recipes result in glues that have different properties.  

Download unit guide

Download lesson planner

Illustration of a coastline with cliffs, a recreation center building with a red roof and a sign, evergreen trees, a blue flag, and a sandy beach below.
Changing Landforms

Domain: Earth and Space Science

Unit type: Modeling

Student role: Geologists

Phenomenon: The cliff that Oceanside Recreation Center is situated on appears to be receding over time.  

Download unit guide

Download lesson planner

Resources

Pilot support brochure for K–2

Unit phenomena for K–5

Take a closer look at the unit phenomena featured in each grade level…

Classroom Slides for K–5

Meet your new hands-free TG! These PowerPoints for every lesson make teaching sc…

What’s so phenomenal about phenomena?

Learn actionable strategies that will help you implement 3-D teaching and learni…

Literacy-rich instruction in K–5

Scientists read and write with purpose too.

Student Books in K–5

Read a summary of each of our award-winning student books.

Investigations for K–5

Explore the types of hands-on investigations that take place in K–5 classrooms.

Four stages of learning: Engage (eye icon), Explore (people icon), Construct (blocks icon), Apply (brain icon), arranged in a cycle with arrows and descriptions below each stage.

The 5E model at K–8

Learn how the 5E elements are woven throughout each and every unit.

The CER model for K–5

Learn how we integrate the Science and Engineering Practices (SEPs) into daily i…

Approaches to assessment in K–5

Learn about our embedded assessments.

Science activity kit featuring books "Earthworms Underground" and "What's Going On with the Weather?", balloons, plant seeds, propellers, and other educational materials.

Program component list for TK–5

Explore the components that come with each unit.

Welcome, Utah K-8 reviewers!

To view this protected page, enter the password below:



Our Instructional model

The Amplify Science Alabama program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science Alabama has students getting hands-on in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation, and importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Supporting resources

To review the digital program, visit learning.amplify.com.

Click Login with Amplify, and use the following credentials:

Teacher view

Additional Materials to support your review:

Alabama Science Standards correlation for grades K-5

Scientific Literacy

Literacy-rich science instruction

Scope and sequence

GRADE

UNITS

Kindergarten

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water

Grade 1

  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

GRADES K-5

Grade K: Pushes and Pulls

Grade 1: Animal and Plant Defenses

Grade 2: Properties of Materials

Grade 3: Balancing Forces

Grade 4: Investigating Wavelength

Grade 5: Introducing Food Science

Hands On Investigations

Hands-on Investigations
Hands-on learning is an essential part of Amplify Science Alabama, and is integrated into every unit. Students actively participate in science, acting like scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them. Every unit includes hands-on investigations which are critical to achieving the unit’s learning goals.

Amplify offers hands-on material kits as well as the option to use AMSTI Kit Resources for many of the student investigations.

Digital Experience

Digital student experience
Students access the digital simulations and modeling tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • Conduct hands-on investigations
  • Engage in active reading and writing activities
  • Participate in discussions
  • Record observations
  • Craft end-of-unit scientific arguments

Alabama Teacher’s Guides
Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • Classroom Slides
  • Detailed lesson plans
  • Unit and chapter overview documentation
  • Differentiation strategies
  • Standards alignments
  • In-context professional development

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We have developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans
  • Information on where to locate standards and other planning materials
  • Recommendations and tips for day-to-day teaching with Amplify programs
  • Support with administering and interpreting assessment data and more

To reach our pedagogical team, use our live chat within your program, call (800) 823-1969, or email edsupport@amplify.com

Timely technical and program support

Our technical and program support is included and available from 7 a.m. to 7 p.m. ET, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

For your most urgent questions:

  • Use our live chat within your program
  • Call our toll-free number: (800) 823-1969

For less urgent questions:

Email support

Building and Accelerating Math Understanding through Reengagement Activities

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Tuesday, 4pm ET

It’s the middle of the school year and you have students all over the map—some are ahead, some are behind, and others are holding steady at grade-level. But how can we push all students a step further while reinforcing conceptual understanding and engaging all learners? Join this session to unpack how assessment, intervention, and reengagement activities work together to welcome all students into the math while accelerating learning.

Create transformation that lasts.

Embarking on educational change takes heart, intention, and determination. It also requires proven strategies and practical tools. With data, resources, and countless stories of successful implementations to guide us, we can take the first step toward true transformation together.

A woman with long dark hair is smiling while sitting at a desk in a classroom. Children in the foreground look toward her. The wall has colorful paper decorations.
Three women sit at a table in a library, engaged in conversation with notebooks and pens in front of them.

Principles for Educational Change Management

Whether you’re looking for transformative change in math, literacy, or science instruction, some essential principles apply across the board. As a teacher, administrator, or community leader, you’ll find these guiding principles can help you manage your new curriculum implementation and help each student reach their potential.

Download the principles
Corey Beil, Instructional Interventionist
“This goes out to the interventionists, coaches, and administrators … support your staff. Lead staff trainings, provide push-in support, model and co-teach so that the staff will see that this is not ‘just another initiative.’ Remember, this is the start of a long, powerful journey. Take small steps, do them well, then use data to move on to the next small step.”

— Corey Beil, Instructional Interventionist

Quakertown Community School District, PA

Leading instructional shifts across all disciplines

Two women review material on a tablet next to a document titled "Literacy Change Management Playbook," featuring a flowchart illustrating k-12 education concepts and the implementation of high-quality instruction materials.

Make the shift to the Science of Reading.

Learn the key steps that will drive the success you need.

learn more

Two pages of a math change management playbook for grades K–12, featuring a cover with teachers and a sample interior page with illustrations of children and math concepts for effective curriculum implementation.

Change in math is different.

Managing change in math doesn’t have to mean starting over. It starts with a few simple shifts.

learn more

Cover and inside page of a document titled "Science Change Management Playbook," featuring photos of adults and children engaged in educational activities with high-quality instruction materials for k-12 education.

Be a science inspiration.

Intentional shifts help transform students into concerned global citizens ready to take on the world. Find out how.

learn more

Let data guide your transformation.

The right data at the right time is crucial in planning lasting instructional change. With specific metrics to guide your implementation, you’ll know exactly how to monitor your progress. Download our literacy assessment infographic as a model for the key data questions to ask at critical points in the school year.

Start your data journey
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Achieve implementation success.

Ready to navigate educational implementation with confidence? The following resources will help you discover practical strategies for decision-making, managing change, and engaging stakeholders.

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Discover five steps to successful implementation.

Balancing decision-making, data collection, and transparent communication doesn’t have to be overwhelming. Discover the five essential steps to making implementation manageable.

learn more

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Think like a leader.

Strategic leadership requires more than sharp management skills. Find out how the leadership brain model can help you, as a district leader, connect initiatives with your broader vision.

learn more

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Turn plans into results.

Educational change requires intentional effort. Key leadership imperatives can provide the framework you need for effective implementation.

learn more

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What district leaders are saying

“In the past we’ve adopted a resource and we’ve left it to the teachers and the buildings to use and to put into practice. I was determined that we needed to do more than just that for both our teachers and our students. That is really where…the leadership brain concept has come into play. [It] provided the framework and key questions that I needed so that I could reflect, process, and determine what was next throughout the first year of implementation.”

—Lori Riehle, Assistant Director of Curriculum, Northwest Local School District, OH

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What district leaders are saying

“Through the guidance and collaboration of the Amplify Team, our stakeholders participated in thoughtful conversations, relevant hands-on learning, and the development of clear guidelines for moving forward [with Amplify CKLA]. This process led to the creation of our district commitments, which, together with the six leadership imperatives, remain central to the progress we continue to make today.”

—Kristina Tucker, Coordinator of English Language Arts and Social Studies, Richland School District, WA

Woman with wavy brown hair wearing a brightly patterned blouse, large round earrings, and a necklace, smiling at the camera against a white background—perfect for illustrating curriculum implementation in schools.

What district leaders are saying

“[My advice to other leaders is to] stop trying to fix everything at once. Dig deep with systematic analysis to find your one high leverage problem; then build your entire system around solving it. You can have all the coaching and support in the world, but if you’re not focused on the right problem, those systems won’t translate to classroom impact.”

—Susan Rawlings, Assistant Principal, Charleston County School District, SC

Educational leaders share their success.

Find out how educational leaders have transformed their districts through successful implementation, revealing the commitment and strategic approach that led to real academic improvements.

A document titled "Building sustainable implementation" by Amplify, detailing Richland School District's approach to collaborative commitments for k-12 education, with an orange "PDF" label on the top right.

Change needs commitment.

Change is achievable when everyone commits to the process. See how one district turned collaboration into a successful implementation of Amplify CKLA.

learn more

A document titled "From system to classrooms" discusses Charleston County School District’s efforts to improve teacher resources and support, featuring a Q&A with a district leader. An orange "PDF" label is overlaid.

Existing strengths need focused direction.

Strong district foundations require intentional focus. Learn how systematic analysis helped one district turn comprehensive resources into meaningful impact for teachers.

learn more

A PDF titled "From solo leadership to distributed ownership" explores how a school district engaged stakeholders for sustainable curriculum implementation. Amplify logo appears at the bottom.

Shared responsibility transforms implementation.

Managing implementation alone limits success. Discover how one district leader used stakeholder mapping to create shared leadership and building-level ownership.

learn more

Cover page of a PDF titled "Driving impact through implementation science," featuring a simple line drawing of a head and an orange label reading "PDF." Ideal for those seeking high-quality instruction materials in K-12 education.

See implementation in action.

Learn how one district achieved positive test results across grades 1–5 within their first year of adopting Amplify CKLA.

learn more

Cover page of a PDF titled "Driving impact through implementation science," featuring an outline of Washington state, with the Richland School District highlighted and a focus on curriculum implementation in schools.

Strategic change delivers results.

Results happen when change is managed strategically. Check out how one district turned thoughtful planning into successful Amplify CKLA adoption.

learn more

Cover page of a PDF titled "Driving impact through implementation science," featuring a line drawing and orange banner reading "District Success Story." Highlights high-quality instruction materials in K-12 education. Amplify logo at the bottom.

Curriculum evaluation leads to confident decisions.

Explore how one district implemented Amplify CKLA (after piloting seven different programs!) and achieved powerful kindergarten reading gains.

learn more

Cover page of a PDF titled "Driving impact through implementation science," featuring an outline of South Carolina and highlighting Charleston County School District's curriculum implementation and teacher resources.

Regular communication fosters growth.

Structured coaching support transforms implementation outcomes. Find out how regular communication helped one district achieve consistency and sustained student growth with Amplify CKLA.

learn more

Cover page of a PDF titled "Driving impact through implementation science," featuring an outline map and text about Knox County Schools' academic achievement using Amplify CKLA's high-quality instruction materials.

Preparation creates lasting results.

Comprehensive training creates the foundation for sustained success. Read about how strategic summer preparation and ongoing professional learning helped one county achieve significant academic improvements.

learn more

Peoria K–5 Science Review

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A closer look at grades K–2

Amplify Science is based on the latest research on teaching and learning and helps teachers deliver age-appropriate, high-quality, literacy-rich instruction that enables students to take on the roles of scientists and engineers to solve real-world phenomena every day.

In the K–2 classroom, this looks like students:

  • Collecting evidence from a variety of sources.
  • Making sense of evidence in a variety of ways.
  • Formulating convincing scientific arguments.
A collage shows science activities: toothpick structure, two kids reading, two kids pouring liquid into cups, and a light experiment with shadows.
A four-step process diagram: Spark, Explore, Explain and elaborate, and Evaluate, connected by arrows, with a summary below about engaging through cohesive storylines.

Program structure

Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, their understanding gradually builds and deepens, ultimately leading to their ability to develop and refine increasingly complex explanations of the unit’s phenomenon.

It’s this proven program structure and lesson design that enables Amplify Science to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our K–2 program to address 100% of the NGSS in just 66 days.

Scope and sequence

Every year of our K–2 consists of 3 units and 66 total lessons. Said another way, each unit contains 20 lessons plus two dedicated assessment days (a Pre-Unit Assessment and End-of-Unit Assessment).

Lessons at grades K–1 are written for a minimum of 45-minutes, and grade 2 lessons are written for a minimum of 60-minutes—though teachers can expand or contract the timing to meet their needs.

Grid of nine educational subject cards for kindergarten, grade 1, and grade 2, each listing curriculum topics like "needs of plants and animals" and "engineering design" with lesson durations.

Unit types

While every unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, each unit also emphasizes a particular science and engineering practice.

In each grade K–2:

  • One unit emphasizes the practice of investigation.
  • One unit emphasizes the practice of modeling.
  • One unit emphasizes the practice of engineering design.
Investigation Units

Investigation units focus on the process of strategically developing investigations and gathering data to answer questions. Students are first asked to consider questions about what happens in the natural world and why, and are then involved in designing and conducting investigations that produce data to help answer those questions.

Modeling Units

Modeling units provide extra support to students engaging in the practice of modeling. Students use physical models, investigate with computer models, and create their own diagrams to help them visualize what might be happening on the nanoscale.

Engineering Design Units

Engineering design units provide opportunities for students to solve complex problems by applying science principles to the design of functional solutions, and iteratively testing those solutions to determine how well they meet preset criteria.

Units at a glance

Needs of Plants and Animals

Domains: Life Science, Earth and Space Science, Engineering Design

Unit type: Investigation

Student role: Scientists

Phenomenon: There are no monarch caterpillars in the Mariposa Grove community garden since vegetables were planted. 

Pushes and Pulls

Domains: Physical Science, Engineering Design

Unit type: Engineering design

Student role: Pinball engineers

Phenomenon: Pinball machines allow people to control the direction and strength of forces on a ball.  

Sunlight and Weather

Domains: Earth and Space Science, Life Science, Engineering Design

Unit type: Modeling

Student role: Weather scientists

Phenomenon: Students at Carver Elementary School are too cold during morning recess, while students at Woodland Elementary School are too hot during afternoon recess.  

Animal and Plant Defenses

Domain: Life Science

Unit type: Modeling

Student role: Marine scientists

Phenomenon: Spruce the Sea Turtle lives in an aquarium and will soon be released back into the ocean, where she will survive despite ocean predators.  

Light and Sound

Domains: Physical Science, Engineering Design

Unit type: Engineering design

Student role: Light and sound engineers

Phenomenon: A puppet show company uses light and sound to depict realistic scenes in puppet shows.  

Spinning Earth

Domain: Earth and Space Science

Unit type: Investigation

Student role: Sky scientists

Phenomenon: The sky looks different to Sai and his grandma when they talk on the phone.  

Plant and Animal Relationships

Domains: Life Science, Engineering Design

Unit type: Investigation

Student role: Plant scientists

Phenomenon: No new chalta trees are growing in the fictional Bengal Tiger Reserve in India.  

Properties of Materials

Domains: Physical Science, Engineering Design

Unit type: Engineering design

Student role: Glue engineers

Phenomenon: Different glue recipes result in glues that have different properties.  

Changing Landforms

Domain: Earth and Space Science

Unit type: Modeling

Student role: Geologists

Phenomenon: The cliff that Oceanside Recreation Center is situated on appears to be receding over time.  

Resources

Pilot support brochure for K–2

Unit phenomena for K–5

Take a closer look at the unit phenomena featured in each grade level…

Classroom Slides for K–5

Meet your new hands-free TG! These PowerPoints for every lesson make teaching sc…

What’s so phenomenal about phenomena?

Learn actionable strategies that will help you implement 3-D teaching and learni…

Literacy-rich instruction in K–5

Scientists read and write with purpose too.

Student Books in K–5

Read a summary of each of our Student books.

Investigations for K–5

Explore the types of hands-on investigations that take place in K–5 classrooms.

The CER model for K–5

Learn how we integrate the Science and Engineering Practices (SEPs) into daily i…

Approaches to assessment in K–5

Learn about our embedded assessments.

Corona-Norco Unified School District

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Amplify Science – Oklahoma

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Welcome, Jordan K-8 reviewers!

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Amplify Science – Oklahoma

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Amplify ELA – Atlanta Review3

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Approach to AI

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Welcome, Program 3 reviewers!

We’re honored to introduce you to Amplify California Language Arts. We’re confident you’ll find this comprehensive program to be a powerful tool for bringing the vision of the California ELA/ELD Framework to life in classrooms across the state.

Please start with the video on the right to learn how to navigate the program and access key features referenced within our submission. Below you’ll find additional resources to support your review.

Your review samples

We’re excited for you to begin your review of Amplify California Language Arts, a comprehensive biliteracy program for kindergarten through grade 6.

Reviewer Binders (K–6)

Your physical samples should have arrived in grade-specific boxes with three Reviewer Binders.

  • The first binder will contain logistical program review information and the printed Evaluation Criteria Map.
  • The second binder will contain the printed Standards Maps for grades K–2.
  • The third binder will contain the printed Standards Maps for grades 3–6.

Physical samples (trade books)

Your review of the program will be entirely digital with the exception of the trade books that you will be receiving as physical samples. You can expect to receive 13 boxes of physical materials for your review. Twelve boxes of trade books, one for each grade K–5, in English and Spanish, and one box containing your Reviewer Binders.

As you begin the process of organizing your materials, please refer to the inventory checklist found inside each box as well as within your Reviewer Binder.

Digital review materials

In order to access your digital review materials, you’ll need to log in to our platform using your unique login credentials found on a Digital Review Credential flyer inside of your Reviewer Binder. Once you have located the flyer:

  • Click the orange button below to access the platform.
  • Click “Log in with Amplify.”
  • Enter the username and password provided on your Digital Review Credential flyer.
Digital Access

Navigation tips

Before you get started, please review these important functionality notes:

Criteria Map and Standards Maps must be opened on Microsoft Word on your desktop to function as intended. If you open the documents without Microsoft Word on your desktop, citations will be cut off at the bottom of most tables within the document.

Many of our citations are deep-links to PDFs, meaning they will take you to the right page or the first page in the sequence for the citation in question. To ensure this functionality works, please disable any PDF-viewing extensions or plug-ins such as Adobe Acrobat Pro Browser Extension.

[Reviewer program navigation video] Grades K–5

[Reviewer program navigation video] Grade 6

Click here for additional information on navigating the program for grade 6.

Category 1: English Language Arts (ELA) and English Language Development (ELD) content/alignment to standards

Evaluation Criteria Map

Linked below is the Evaluation Criteria Map. Please note that you will need to be logged into the digital platform to access the links in the Evaluation Criteria Map.

ELA Standards Maps

The links below provide the Standards Maps for Amplify California Language Arts for each grade level.

ELD Standards Maps

Category 2: Program organization

Amplify California Language Arts’ biliteracy program is a comprehensive curriculum provides a full year of evidence-based instruction for each grade level, with both integrated and designated English Language Development instruction designed to give multilingual/English learners the tools to thrive. Amplify’s biliteracy program for grades K–6 includes:

  • Core English language arts instruction: Amplify Core Knowledge Language Arts (CKLA) California (grades K–5) and Amplify ELA California (grade 6) covering knowledge building and foundational skills.
    • Provides upper grade foundational skills instruction for grades 3–6.
  • Core Spanish language arts instruction: Amplify Caminos California, a fully parallel SLA program that works in tandem with English core instruction across all grades.
    • Provides upper grade foundational skills instruction for grades 3–6.
  • Designated English Language Development: Language Studio California is the designated English Language Development companion that directly aligns with and supports core English instruction. 
  • Newcomer Support: Amplify California Language Arts Newcomer Support to facilitate instruction for students who are new to both English and the United States.

Program structure

Amplify’s California Language Arts programs are built on what the research shows: Strong readers need both word recognition and language comprehension. Our comprehensive curriculum suite follows the Simple View of Reading bringing together foundational skills and knowledge building to deliver instruction grounded in the Science of Reading.

This model is integral to the structure of the Amplify biliteracy program, which directly aligns with the CA CCSS ELA and ELD standards by combining rigorous decoding and skills instruction with research-based knowledge and language development instruction. In its early grades, the Amplify biliteracy program uses a two-strand structure—Skills/Lectoescritura and Knowledge/Conocimiento—to effectively address this learning challenge while meeting standards expectations for both language development and academic content mastery.

Diagram with three orange squares labeled: "Language comprehension," "Word recognition," and "Skilled reading," connected by multiplication and equals signs, with Spanish headings above each square.

[Reviewer highlight video] Program organization for Category 2

[Reviewer highlight video] Program structure for grades K–2

[Reviewer highlight video] Program structure for grades 3–5

[Reviewer highlight video] Program structure for grade 6

Amplify Caminos California lessons are designed to allow all students time to work toward learning objectives, including peer collaboration and discussion. Since each lesson activity is aligned to subsequent activities, students’ understanding and analysis develops progressively throughout the lesson.

Each lesson follows a predictable structure with clearly marked components, beginning with warm-up routines, progressing through explicit instruction with guided practice, and concluding with independent application activities. The program provides detailed teacher language, including question stems and discussion prompts, ensuring clear and consistent delivery of instruction.

Amplify CKLA California and Amplify Caminos California empower teachers to deliver effective instruction and keep students engaged with the following resources:

  • Teacher Guides
  • Assessment Guides
  • Authentic texts and trade books
  • Knowledge Image Cards
  • Knowledge Flip Books
  • Remediation and intervention resources
  • Decodable readers
  • Student Readers and novels
  • Student Activity Books
  • Dedicated ELD support with Language Studio California
  • Poet’s Journals
  • eReaders
  • Sound Library featuring articulation videos and songs
  • Instructional routine modeling videos
  • Assignable Practice Games
  • On-demand professional development

Amplify ELA California students stay engaged with the following resources:

  • Teacher Guides that include:
    • Detailed lesson plans
    • Standards alignment and exit tickets
    • Real-time differentiation strategies
    • Robust reporting
  • Student Editions that include:
    • High-quality narrative and informational texts
    • Videos, audio supports, and digital experiences that capture their attention
    • Personal Writing Journal to keep all student writing in one place
  • Dedicated ELD support with Language Studio California
  • Trade books

Core literacy philosophy

Support every learner. Meet all learning needs with a Multi-Tiered System of Supports (MTSS) that brings together universal screening, scaffolded core instruction, support for multilingual/English learners, and data-driven intervention to ensure every student gets what they need to succeed.

Deliver consistent foundational skills instruction. Daily explicit, systematic skills instruction in grades K–2, with targeted yet flexible support for students still building decoding confidence in grades 3–6, ensures mastery of essential reading foundations.

Build lasting knowledge across all grades. Through coherently sequenced, content-rich instruction that revisits key vocabulary and concepts with increasing complexity, students build meaningful connections that deepen their vocabulary and reading comprehension.

Strengthen reading through writing at every level. Regular writing instruction grounded in the Science of Writing supports reading comprehension, improves sentence-level writing, and provides the foundation for high-quality composition. As students progress through the upper grades, they engage in increasingly complex analytical tasks—synthesizing ideas, drawing generalizations, and interpreting multiple textual layers through both focused quick-writes and comprehensive essays. 

Foster oral language development. Structured opportunities for academic conversation and evidence-based dialogue build students’ ability to express complex ideas with precision and allow them to participate confidently in classroom discussions.

Measure growth with comprehensive assessments. Assessments range from in-the-moment checks for understanding to summative assessments that measure progress toward skills mastery and standards proficiency, providing the data needed to drive targeted instruction.

Scope and sequence

Below you can view the scope and sequence documents for each grade level. 

Routines

Amplify CKLA California, Amplify Caminos California, and Amplify ELA California include several structured instructional routines that provide predictable patterns for both teachers and students:

Discussion and collaboration routines:

  • Turn and Talk: Partners discuss text-specific content using sentence starters and frames
  • Think-Pair-Share: Students engage in individual thinking, partner discussion, and whole-class sharing
  • Partner reading: Students sit shoulder-to-shoulder, taking turns reading and listening

Foundational Skills routines:

  • Sound-spelling review: Warm-up activities that reinforce phonics patterns
  • Oral blending warm-ups: Teacher-guided practice progressing to independent application
  • Finger-tapping: Techniques for blending sounds
  • Chaining activities: Students manipulate letters to transform one word into another
  • Word Work: Daily short activities focused on domain-specific and academic vocabulary

Knowledge-building routines:

  • Teacher modeling: Demonstration of proper intonation, expression, and pacing
  • Choral reading: Whole-class reading practice
  • Partner reading: Paired fluency practice

Close reading routines

The program includes carefully structured close reading activities that guide students through multiple encounters with complex texts. These routines help students develop deeper comprehension through systematic analysis and discussion.

Each routine includes comprehensive instructional guides with clear-cut directions for implementation, straightforward explanations of concepts, and suggestions for discussion.

Cross-Linguistic Transfer routines

The Cross-Linguistic Transfer (CLT) routines are easy-to-implement, 10–15 minute mini-lessons designed to help bridge English and Spanish literacy and language development. These structured routines are organized by grade bands for K–2, grades 3–5 and grade 6, covering five skill areas:

  • Oral language
  • Reading
  • Vocabulary
  • Language
  • Writing

[Reviewer highlight video] Amplify’s program alignment to Cross-Linguistic Transfer criteria

Designated English Language Development materials

Language Studio California is a K–8 content-based companion for English language learners. Built on Amplify CKLA California and Amplify ELA California’s carefully sequenced Knowledge Domains, it combines engaging content knowledge with targeted supports and research-based strategies to help students move swiftly toward language proficiency. This program includes:

  • Real-world content to provide authentic opportunities to practice reading, writing, speaking, and listening.
  • Scaffolding strategies and differentiated instruction to offer targeted support along five English proficiency levels.
  • Progress monitoring tools to help teachers provide consistent and effective support.
  • Teacher Guides that:
    • Provide impactful progress monitoring tools including formative and summative assessments, and Language Proficiency Assessment rubrics.
    • Offer varied differentiation strategies including Support, Challenge, and Access supports in each lesson segment.
    • Are organized into thoughtful lesson segments—Talk Time, Building Background, On Stage and more—that make learning objectives concrete.
  • Activities that:
    • Expand on domain knowledge from core content and read-alouds and prompt collaborative conversation to practice oral fluency.
    • Support hands-on language activities to promote authentic interaction in the classroom.
    • Help students bridge experiences and knowledge with images, vocabulary activities, graphic organizers, anticipation guides, writing space, and more.

Category 3: Assessments

Systematic MTSS alignment

In alignment with the additional 2025 Guidance 3.1.a, the assessment systems align with MTSS tiers, including universal screening, diagnostic assessments for students demonstrating a need for additional support, and progress monitoring tools that complement California’s required reading difficulties screening schedule per SB 114.

Tier 1:
Universal/ differentiated support		Tier 2: 
Supplemental/ targeted
support		Tier 3: 
Intensified/ intensive
support
Core instruction assessments





Frequency of administration		Amplify CKLA California, Amplify Caminos California, Amplify ELA California assessments

Daily, Weekly, Monthly		Amplify CKLA California, Amplify Caminos California, Amplify ELA California assessments

Daily, Weekly, Monthly		Amplify CKLA California, Amplify Caminos California, Amplify ELA California assessments

Daily, Weekly, Monthly
Universal screening assessments

Frequency of administration		mCLASS DIBELS and Lectura


3 times per year – BOY, MOY, EOY		mCLASS DIBELS and Lectura


3 times per year – BOY, MOY, EOY		mCLASS DIBELS and Lectura


3 times per year – BOY, MOY, EOY
Formal progress monitoring assessments


Frequency of administration		mCLASS DIBELS and Lectura



3 times per year – BOY, MOY, EOY		mCLASS DIBELS and Lectura



Monthly		mCLASS DIBELS and Lectura



Bi-weekly
Informal progress monitoring assessments




Frequency of administration		Amplify CKLA California, Amplify Caminos California, Amplify ELA California core assessments

Daily		Intervention Toolkit progress monitoring assessments



When linked to a lesson in the toolkit		Intervention Toolkit progress monitoring assessments



When linked to a lesson in the toolkit
Diagnostic assessment







Frequency of administration		Amplify skill diagnostic assessment


Amplify Spanish skill diagnostic assessment

Optional after universal screening assessment is administered		Amplify skill diagnostic assessment


Amplify Spanish skill diagnostic assessment

After universal screening assessment is administered

Universal assessment system

Amplify’s mCLASS® DIBELS® 8th Edition (K–8) and mCLASS Lectura (K–6) are universal and dyslexia screening assessments that should be administered three times per year (BOY, MOY, and EOY) to all students. The assessments evaluate student literacy risk, determine progress toward grade-level goals, and indicate the level of instructional  support a student may need. Beginning-of-year screenings require adequate instructional time before administration, particularly in grades K–1, while mid-year and end-of-year assessments evaluate instructional effectiveness and guide tier placement adjustments. These screenings also identify students at risk for dyslexia. Universal screening provides essential data for targeting instruction and measuring instructional system effectiveness.

Core instruction assessments

Amplify CKLA California, Amplify Caminos California, and Amplify ELA California provide a comprehensive suite of assessments for grades K–6 that range from low-stakes, informal formative assessments to more formal summative assessments. These assessments incorporate a variety of methods and question types, including multiple-choice questions, open-ended questions, and oral and written responses.

Formative assessments:

  • Checks for Understanding: Incorporated into each lesson segment throughout daily instruction. Quick pulse-checks that provide immediate feedback during lesson delivery (grades K–5). 
  • Daily formative assessments: Highlighted moments within each lesson for teachers to plan to track mastery of Primary Focus objectives and standards of each lesson to get a clear snapshot of individual and whole-class progress (grades K–5). 
  • Activity pages: Completed as part of lessons and can be used to assess lesson content understanding through various formats (grades K–5).
  • Exit Tickets: Located at the end of lessons, these provide a quick gauge of students’ ability to meet the lesson’s focus standards (grade 6).  
  • Writing Prompts: Prompts integrated throughout lessons during writing activities that provide skill snapshots within lessons and tracks patterns of skill development over time (grade 6).
  • Independent reading activities (Solos): At the end of every lesson, students complete an independent reading activity (“Solo”) with reading questions that are scored to measure comprehension (grade 6).

Summative assessments:

  • Skills end-of-unit assessments (grades K–2) 
  • Knowledge end-of-domain assessments (grades K–2) 
  • End-of-unit assessments (grades 3–5) 
  • Unit essays: A culminating end-of-unit set of lessons that guide students through crafting an essay with a rubric to score mastery of writing skills (grade 6)
  • Unit reading assessments: Auto-scored responses and two constructed response items evaluate comprehension, content understanding, and reading skills using the passages students read during the unit (grade 6)

Performance assessments

Student Performance Assessments are multi-day assessments administered in Grades K–5 at the beginning, middle, and end of year to help teachers gauge student mastery of grade-level Core content. These assessments provide critical data to help teachers set targeted instructional goals and monitor individual and class-wide progress towards core objectives.

Progress monitoring

Amplify’s mCLASS® DIBELS® 8th Edition and mCLASS Lectura provide formal progress monitoring in the discrete skills that are indicative of reading growth and predictive of overall success to provide the most instructionally meaningful information to teachers.

Informal progress monitoring tools can be found within the Intervention Toolkit, including materials for teachers to record, track, and evaluate student progress.

Diagnostic assessment

Interventions within Amplify’s literacy programs are informed by a skill diagnostic assessment that provides detailed data on foundational literacy skill deficits. The Amplify Skill Diagnostic Assessment and Amplify Spanish Skill Diagnostic assessment serve as critical tools in this process, administered specifically to students identified as at risk for reading difficulty through universal screening assessments—particularly those demonstrating mCLASS DIBELS 8th Edition or mCLASS Lectura composite scores in the Well Below or Below Benchmark ranges. These diagnostic assessments provide teachers with the precise skills to begin intervention and remediation.

Category 4: Universal Access

Amplify CKLA California, Amplify Caminos California, and Amplify ELA California are developed using the Universal Design for Learning framework to proactively ensure that all learners can access and participate in meaningful, challenging learning opportunities.

Universal Design for Learning

Amplify CKLA California, Amplify Caminos California, and Amplify ELA California incorporate opportunities for engagement, representation, action, and expression based on the guidelines of Universal Design for Learning.

  • Multiple Means of Engagement: The programs incorporate interesting and motivating ways for students to interact with information and content. The Universal Access section in the introduction of each lesson provides specific lesson-level options based on the needs of individual classrooms and students. Scaffolding for students with various levels of need is incorporated into the design of each lesson.
  • Multiple Means of Representation: The programs provide multiple means of presenting content to maximize student understanding. This includes digital component files that allow for a range of presentations of images and text to support learning. Amplify provides access to universal supports such as point-of-use audio for all core texts, embedded definitions for critical vocabulary, and glossaries in multiple languages. The programs include clarification on language found throughout the program, with sidebars that include support on transition words and syntax, and illustrations to help students understand the concepts they are learning.
  • Multiple Means of Action and Expression: The programs include a range of methods for all students, including Multilingual/English Learners, to navigate and demonstrate learning. This includes physical actions, a range of methods for response, appropriate tools for composition, and varied scaffolding. Lessons provide multiple ways for students to interact with text, allowing their brains to process the language through distinct pathways. Activities harness multiple learning modes, using media tools, digital apps, and a variety of visual and physical experiences to strategically support and enhance student learning.
  • Accessibility: Universal access features include visual aids, enlarged materials, physical objects, and multiple learning modalities through activities like Push & Say and Wiggle Cards. The Universal Access section in the introduction of each lesson provides specific lesson-level options based on the needs of individual classrooms and students.

Embedded differentiation

Amplify CKLA California, Amplify Caminos California, and Amplify ELA California provide built-in differentiation strategies in every lesson for all students.

  • Pre-teaching supports include mini-lessons on:
    • Core vocabulary building
    • Core connections
    • Essential background information building
    • What Have We Already Learned?/What Do We Already Know?
  • Differentiated Support for Core Instruction tables, located in the overview of each K–2 Skills Teacher Guide, provide a list of specific opportunities for reteaching and additional support in each lesson based on skill.
  • Support and Challenge Sidebars in lesson margins offer educators immediate guidance in implementing point-of-use differentiation techniques.
  • Flexible Grouping within lessons provides opportunities for teachers to facilitate small groups, partners, or individualized support based on students’ needs. In the Skills Strand, teachers receive specific guidance for differentiated small group instruction, with targeted support and activities outlined for both Group 1 (students needing additional support) and Group 2 (on-level students) based on data. 
  • Amplify ELA California and Amplify Caminos California provide point-of-use supports embedded within key core lesson activities with six levels of differentiation. The goal of these supports is to fully enable access to grade-level content for all students, including students with disabilities, English learners, and students ready for an additional level of challenge.
  • The Universal Access section of Advance Preparation in each lesson includes varied strategies to ensure all students can access and engage in each lesson.
  • Frequent use of graphic organizers and visual supports in lessons provide opportunities for differentiation based on need. The program also includes a variety of technological supports, such as eReaders with audio.
  • Extension opportunities are suggested throughout lessons, often embedded in writing tasks, which include prompts to use more complex and descriptive vocabulary, figurative language,  multi-clause and complex sentences, and  informational text characteristics.

Assessment-driven MTSS resources

  • The K–6 Intervention Toolkit is available online and provides easy-to-use resources that assist teachers in filling gaps in students’ reading skills, with activities to support print concepts, phonological awareness, phonics, fluency, and other key skills.
  • Fluency packets (Grades 2–6)
  • Foundational Skills Intervention Program for Grades 3–6 support students who would benefit from direct and explicit intervention instruction in the full continuum of foundational skills in the upper grades
  • Flexible Instructional Time including:
    • Pausing Points built into the curriculum that provide teachers with dedicated time to address specific student needs through targeted reteaching, remediation, practice, and extension activities 
    • Pausing Point activities designed to support multilingual/English learners’ competence and confidence through differentiated whole-group, small-group, or individual instruction
  • Boost Reading and Boost Lectura are student-led digital intervention programs that follow the scope and sequences of Amplify CKLA California and Amplify Caminos California respectively, to reinforce the same foundational skills taught in core instruction. It integrates easily into daily routines, while the robust data provided by mCLASS® DIBELS® 8th Edition offers a detailed view of how students progress across all instructional tiers.

Category 5: Instructional Planning and Teacher Support

Amplify CKLA California, Amplify Caminos California, and Amplify ELA California teachers are empowered to deliver effective instruction with various print and digital resources. The program provides comprehensive planning and support materials designed to help teachers prepare for and execute lessons effectively and fulfill the requirements of Category 5.

Implementation supports across K–6

Planning and preparation resources

  • Unit Overviews that provide important background and context for the texts students will read, including highlighted elements within the text and guidance for how students will work with those elements
  • Sub-unit Overviews (Grade 6) that provide an overview of Lesson Objectives and reading and writing assignments, as well as a list of any projections, multimedia, or digital apps that can be projected from the teacher’s included digital license
  • Lesson-by-lesson preparation checklists (Grade 6) accompanying each Sub-unit Overview
  • Lesson Briefs for each individual lesson providing important background and context
  • Content knowledge materials regarding topics that students will examine

Point-of-use instructional guidance

  • Teacher Editions that feature insets of the same text and activity instructions as the corresponding Student Edition, wrapping teacher instruction around these materials
  • Activity guidance at point of use
  • Lesson standards clearly called out
  • Discussion suggestions embedded in lessons
  • Differentiation tips at point of use
  • Detailed Instructional Guides in each activity that include sequencing and grouping suggestions, tips for facilitating discussion, possible student responses and exemplars
  • On-the-Fly supports (Grade 6)—quick call-outs to the identifying features of “on track” and “needs support” students accompanied by short models of student guidance to foster strong performance

Multimedia and digital support

  • Teacher tip videos provide modeling and guidance for implementing key foundational skills routines within the program
  • Digital platform access where teachers can access printable PDFs of differentiated support materials for multilingual/English learners and students struggling to read, including translated Unit Background and Context documents and Text Previews
  • Teacher Dashboard and reporting tools provide real-time visibility into student progress and work for immediate instructional response

Caregiver supports

Communication and overview resources

  • Caregiver Hub available in English and Spanish that provides an overview of the curriculum
  • Caregiver Letters for each K–2 Knowledge Domain and unit in Grades 3–5 that provide an overview of the content, the skills students learn, as well as practical methods that continue the learning and knowledge building at home
  • Unit-specific Caregiver Letters (Grade 6) that provide detailed information regarding what students will read and learn in each unit, including conversation starters that allow caregivers to ask questions and discuss specific aspects of a unit with their student
  • Welcome letters that explain the assessment and placement process while inviting parent involvement and offering support
  • Editable Home-School Communication letters available in English and Spanish
  • Editable Progress Reports for teachers to update parents and guardians on what their child is learning

Content and learning support materials

  • Unit Background and Context documents that provide an introduction and overview to the unit’s topic and themes, available in English and Spanish
  • Text Previews that provide a brief introduction to formative, independent reading assignments (called Solos in Grade 6), available in English and Spanish
  • Unit Overview and Support documents (Grade 6) designed for caregivers that provide information about important questions, assignments, and key aspects of the unit texts, available in English and Spanish
  • Conversation starters included in Knowledge Strand Caregiver Letters to discuss domain topics at home

Home practice and extension activities

  • Take-Home pages in the Skills Strand that include copies of decodable passages, enabling students to share their reading progress with families and continue practicing their skills outside of school
  • Take-Home Letters in the Skills Strand that provide specific guidance for parents to support skills practice at home, such as sound-sorting activities, with detailed instructions and materials for home practice activities
  • Take-Home pages in the Knowledge Strand that provide suggested activities families can do together to reinforce and extend learning beyond the classroom
  • Games and activities on Take-Home Pages that extend classroom instruction, including all the materials and instruction necessary to help families assist students in a fun and engaging way
  • Digital access to decodable texts through the Amplify Caregiver Hub, allowing students to practice their reading skills both in class and at home
  • Weekly spelling lists and directions to decoding activities that can be practiced at home

Welcome, K–8 Program 2 reviewers!

We’re honored to introduce you to Amplify California Language Arts. We’re confident you’ll find this comprehensive program to be a powerful tool for bringing the vision of the California ELA/ELD Framework to life in classrooms across the state.

Please start with the video on the right to learn how to navigate the program and access key features referenced within our submission. Below you’ll find additional resources to support your review.

Your review samples

We’re excited for you to begin your review of Amplify Core Knowledge Language Arts (CKLA) California and Amplify ELA California, Language Studio California for grades K–8. Physical and digital review materials will vary by grade level.

Reviewer Binders (K–8)

Your physical samples should have arrived in grade-specific boxes with three Reviewer Binders.

  • The first binder will contain logistical program review information and the printed Evaluation Criteria Map.
  • The second binder will contain the printed Standards Maps for grades K–4.
  • The third binder will contain the printed Standards Maps for grades 5–8.

Physical samples (K–5)

You can expect to receive 15 boxes of physical materials for your review. As you begin the process of organizing your materials, please refer to the inventory checklist found inside each box as well as within your Reviewer Binder. Please note you will not receive any physical samples for grades 6–8 ELA or Language Studio for grades K-8. Your review of the program for grades 6–8 ELA and Language Studio for grades K-8 will be entirely digital.

Digital samples

In order to access your digital samples, you’ll need to log in to our platform using your unique login credentials found on a Digital Review Credential flyer inside of your Reviewer Binder. Once you have located the flyer:

  • Click the orange button below to access the platform.
  • Click “Log in with Amplify.”
  • Enter the username and password provided on your Digital Review Credential flyer.
Digital Access

Navigation tips

Before you get started, please review these important functionality notes:

Criteria Map and Standards Maps must be opened on Microsoft Word on your desktop to function as intended. If you open the documents without Microsoft Word on your desktop, citations will be cut off at the bottom of most tables within the document.

Many of our citations are deep-links to PDFs, meaning they will take you to the right page or the first page in the sequence for the citation in question. To ensure this functionality works, please disable any PDF-viewing extensions or plug-ins such as Adobe Acrobat Pro Browser Extension.

[Reviewer program navigation video] Grades K–5

[Reviewer program navigation video] Grades 6–8

Click here for additional information on navigating the digital materials for grades 6–8.

Category 1: English Language Arts (ELA) and English Language Development (ELD) Content/Alignment to Standards

Evaluation Criteria Map

Linked below is the Evaluation Criteria Map for grades K–8. Please note that you will need to be logged into the digital platform to access the links in the Evaluation Criteria Map.

ELA Standards Maps

The links below provide the Standards Maps for Amplify California Language Arts for each grade level. Please note that you will need to be logged into the digital platform to access the links in the Standards Maps.

ELD Standards Maps

Category 2: Program Organization

The Amplify California Language Arts Program 2 submission includes Amplify CKLA California for Grades K–5, Amplify ELA California for Grades 6–8, and Amplify Language Studio California for Grades K–8. This comprehensive curriculum provides a full year of evidence-based instruction for each grade level, with both integrated and designated English Language Development instruction designed to give English learners the tools to thrive.

Program structure

Amplify’s California Language Arts programs are built on what the research shows: Strong readers need both word recognition and language comprehension. Our comprehensive curriculum suite follows the Simple View of Reading and The Reading Rope–bringing together foundational skills and knowledge building to deliver instruction grounded in the Science of Reading.

Flowchart illustrating skilled reading as the product of language comprehension and word recognition, grounded in the science of reading.
Diagram illustrating the interplay between language comprehension and word recognition in reading, as seen in early literacy stages. It highlights pathways through knowledge, vocabulary, and sentence understanding, reflecting principles from the CKLA reading program.

Each lesson follows a predictable structure with clearly marked components, beginning with warm-up routines, progressing through explicit instruction with guided practice, and concluding with independent application activities. The program provides detailed teacher language, including question stems and discussion prompts, ensuring clear and consistent delivery of instruction.

[Reviewer highlight video] Program organization for Category 2

[Reviewer highlight video] Program structure for grades K–2

[Reviewer highlight video] Program structure for grades 3–5

[Reviewer highlight video] Program structure for grades 6–8

Amplify CKLA California empowers teachers to deliver effective instruction and keeps students engaged with with the following resources:

  • Teacher Guides
  • Assessment Guides
  • Authentic texts and trade books
  • Knowledge Image Cards
  • Knowledge Flip Books
  • Remediation and intervention resources
  • Decodable readers
  • Student Readers and novels
  • Student Activity Books
  • Dedicated ELD support with Language Studio California
  • Poet’s Journals
  • eReaders
  • Sound Library featuring articulation videos and songs
  • Instructional routine modeling videos
  • Assignable Practice Games
  • On-demand professional development

Amplify ELA California students stay engaged with the following resources:

  • Teacher Guides that include:
    • Detailed lesson plans
    • Standards alignment and exit tickets
    • Real-time differentiation strategies
    • Robust reporting
  • Student Editions that include:
    • High-quality narrative and informational texts
    • Videos, audio supports, and digital experiences that capture their attention
    • Personal Writing Journal to keep all student writing in one place
  • Dedicated ELD support with Language Studio California
  • Trade Books

Core literacy philosophy

Support every learner. Meet all learning needs with a Multi-Tiered System of Supports (MTSS) that brings together universal screening, scaffolded core instruction, support for English learners, and data-driven intervention to ensure every student gets what they need to succeed.

Provide intentional ELD support. Honor students’ linguistic assets while building academic English through both integrated and designated instruction.

Deliver consistent foundational skills instruction. Daily explicit, systematic skills instruction in grades K–2, with targeted yet flexible support for students still building decoding confidence in grades 3–8, ensures mastery of essential reading foundations.

Build lasting knowledge across all grades. Through coherently sequenced, content-rich instruction that revisits key vocabulary and concepts with increasing complexity, students build meaningful connections that deepen their vocabulary and reading comprehension.

Strengthen reading through writing at every level. Regular writing instruction grounded in the Science of Writing supports reading comprehension, improves sentence-level writing, and provides the foundation for high-quality composition. As students progress through the upper grades, they engage in increasingly complex analytical tasks—synthesizing ideas, drawing generalizations, and interpreting multiple textual layers through both focused quick-writes and comprehensive essays. 

Foster oral language development. Structured opportunities for academic conversation and evidence-based dialogue build students’ ability to express complex ideas with precision and allow them to participate confidently in classroom discussions.

Measure growth with comprehensive assessments. Assessments range from in-the-moment checks for understanding to summative assessments that measure progress toward skills mastery and standards proficiency, providing the data needed to drive targeted instruction.

Scope and sequence

Below you can view the scope and sequence for each grade level. 

Routines

Amplify CKLA California and Amplify ELA California include several structured instructional routines that provide predictable patterns for both teachers and students:

Discussion and collaboration routines:

  • Turn and Talk: Partners discuss text-specific content using sentence starters and frames
  • Think-Pair-Share: Students engage in individual thinking, partner discussion, and whole-class sharing
  • Partner reading: Students sit shoulder-to-shoulder, taking turns reading and listening

Foundational Skills routines:

  • Sound-spelling review: Warm-up activities that reinforce phonics patterns
  • Oral blending warm-ups: Teacher-guided practice progressing to independent application
  • Finger-tapping: Techniques for blending sounds
  • Chaining activities: Students manipulate letters to transform one word into another
  • Word Work: Daily short activities focused on domain-specific and academic vocabulary

Knowledge-Building Routines:

  • Teacher modeling: Demonstration of proper intonation, expression, and pacing
  • Choral reading: Whole-class reading practice
  • Partner reading: Paired fluency practice

Close reading routines

The program includes carefully structured close reading activities that guide students through multiple encounters with complex texts. These routines help students develop deeper comprehension through systematic analysis and discussion.

Each routine includes comprehensive instructional guides with clear-cut directions for implementation, straightforward explanations of concepts, and suggestions for discussion.

Designated English Language Development materials

Language Studio California is a K–8 content-based companion for English language learners. Built on Amplify CKLA California’s and Amplify ELA California’s carefully sequenced Knowledge Domains and units, it combines engaging content knowledge with targeted supports and research-based strategies to help students move swiftly toward language proficiency. This program includes:

  • Real-world content to provide authentic opportunities to practice reading, writing, speaking, and listening.
  • Scaffolding strategies and differentiated instruction to offer targeted support along with five English proficiency levels.
  • Progress-monitoring tools to help teachers provide consistent and effective support.
  • Teacher Guides that:
    • Provide impactful progress monitoring tools including formative and summative assessments and Language Proficiency Assessment rubrics.
    • Offer varied differentiation strategies including Support, Challenge, and Access Supports in each lesson segment.
    • Are organized into thoughtful lesson segments—Talk Time, Building Background, On Stage and more—that make learning objectives concrete.
  • Activities that:
    • Expand on domain knowledge from core content and read-alouds and prompt collaborative conversation to practice oral fluency.
    • Support hands-on language activities to promote authentic interaction in the classroom.
    • Help students bridge experiences and knowledge with images, vocabulary activities, graphic organizers, anticipation guides, writing space, and more.

Category 3: Assessments

Systematic MTSS alignment

In alignment with the additional 2025 Guidance 3.1.a, the assessment systems align with MTSS tiers, including universal screening, diagnostic assessments for students demonstrating a need for additional support, and progress monitoring tools that complement the California’s required universal screening schedule per SB 114.

Tier 1:
Universal/ differentiated support		Tier 2: 
Supplemental/ targeted support		Tier 3: 
Intensified/ intensive support
Core instruction assessments





Frequency of administration		Amplify CKLA California, Amplify Caminos California, Amplify ELA California assessments

Daily, Weekly, Monthly		Amplify CKLA California, Amplify Caminos California, Amplify ELA California assessments

Daily, Weekly, Monthly		Amplify CKLA California, Amplify Caminos California, Amplify ELA California assessments

Daily, Weekly, Monthly
Universal screening assessments

Frequency of administration		mCLASS DIBELS and Lectura


3 times per year – BOY, MOY, EOY		mCLASS DIBELS and Lectura


3 times per year – BOY, MOY, EOY		mCLASS DIBELS and Lectura


3 times per year – BOY, MOY, EOY
Formal progress monitoring assessments

Frequency of administration		mCLASS DIBELS and Lectura



3 times per year – BOY, MOY, EOY		mCLASS DIBELS and Lectura



Monthly		mCLASS DIBELS and Lectura



Bi-weekly
Informal progress monitoring assessments




Frequency of administration		Amplify CKLA California, Amplify Caminos California, Amplify ELA California core assessments

Daily		Intervention Toolkit progress monitoring assessments




When linked to a lesson in the toolkit		Intervention Toolkit progress monitoring assessments




When linked to a lesson in the toolkit
Diagnostic assessment






Frequency of administration		Amplify skill diagnostic assessment

Amplify Spanish skill diagnostic assessment

Optional after universal screening assessment is administered		Amplify skill diagnostic assessment

Amplify Spanish skill diagnostic assessment

After universal screening assessment is administered

Universal assessment system

Amplify’s mCLASS® DIBELS® 8th Edition and mCLASS Lectura are universal and dyslexia screening assessments that should be administered three times per year (BOY, MOY and EOY) to all students. The assessments evaluate student literacy risk, determine progress toward grade-level goals, and indicate the level of instructional  support a student may need. Beginning-of-year screenings require adequate instructional time before administration, particularly in grades K–1, while mid-year and end-of-year assessments evaluate instructional effectiveness and guide tier placement adjustments. These screenings also identify students at risk for dyslexia. Universal screening provides essential data for targeting instruction and measuring instructional system effectiveness.

Core instruction assessments

Amplify CKLA California and Amplify ELA California provide a comprehensive suite of assessments for Grades K–8 that range from low-stakes, informal formative assessments to more formal summative assessments. These assessments incorporate a variety of methods and question types, including multiple-choice questions, open-ended questions, and oral and written responses.

Formative assessments:

  • Checks for Understanding: Incorporated into each lesson segment throughout daily instruction. Quick pulse-checks that provide immediate feedback during lesson delivery (grades K–5). 
  • Daily formative assessments: Highlighted moments within each lesson for teachers to plan to track mastery of Primary Focus objectives and standards of each lesson to get a clear snapshot of individual and whole-class progress (grades K–5). 
  • Activity pages: Completed as part of lessons and can be used to assess lesson content understanding through various formats (grades K–5).
  • Exit Tickets: Located at the end of lessons, these provide a quick gauge of students’ ability to meet the lesson’s focus standards (grades 6–8).  
  • Writing Prompts: Prompts integrated throughout lessons during writing activities that provide skill snapshots within lessons and tracks patterns of skill development over time (grades 6–8).
  • Independent reading activities (Solos): At the end of every lesson, students complete an independent reading activity (“solo”) with reading questions that are scored to measure comprehension (grades 6–8).

Summative assessments:

  • Skills end-of-unit assessments (grades K–2) 
  • Knowledge end-of-domain assessments (grades K–2) 
  • End-of-unit assessments (grades 3–5) 
  • Unit essays: A culminating end-of-unit set of lessons that guide students through crafting an essay with a rubric to score mastery of writing skills (grades 6–8)
  • Unit Reading Assessments: Auto-scored responses and two constructed response items evaluate comprehension, content understanding, and reading skills using the passages students read during the unit (grades 6–8)

Performance Assessments

Student Performance Assessments are multi-day assessments administered in Grades K-5 at the beginning, middle, and end of year to help teachers gauge student mastery of grade-level Core content. These assessments provide critical data to help teachers set targeted instructional goals and monitor individual and class-wide progress towards core objectives.

Progress monitoring

Amplify’s mCLASS® DIBELS® 8th Edition and mCLASS Lectura provide formal progress monitoring in the discrete skills that are indicative of reading growth and predictive of overall success to provide the most instructionally meaningful information to teachers.

Informal progress monitoring tools can be found within the Intervention Toolkit, including materials for teachers to record, track, and evaluate student progress.

Diagnostic assessment

Interventions within Amplify’s literacy programs are informed by a skill diagnostic assessment that provides detailed data on foundational literacy skill deficits. The Amplify Skill Diagnostic Assessment and Amplify Spanish Skill Diagnostic assessment serve as critical tools in this process, administered specifically to students identified as at risk for reading difficulty through universal screening assessments—particularly those demonstrating mCLASS DIBELS 8th Edition or mCLASS Lectura composite scores in the Well Below or Below Benchmark ranges. These diagnostic assessments provide teachers with the precise skills to begin intervention and remediation.

Category 4: Universal Access

Amplify CKLA California and Amplify ELA California were built on the principles of Universal Design for Learning (UDL) and reviewed by CAST, a nonprofit education research and development organization. The program is developed using the Universal Design for Learning framework to proactively ensure that all learners can access and participate in meaningful, challenging learning opportunities.

Universal Design for Learning

The programs incorporate opportunities for engagement, representation, action, and expression based on the guidelines of Universal Design for Learning.

  • Multiple Means of Engagement: The programs incorporate interesting and motivating ways for students to interact with information and content. In Amplify CKLA California, the Universal Access section in the introduction of each lesson provides specific lesson-level options based on the needs of individual classrooms and students. Scaffolding for students with various levels of need is incorporated into the design of each lesson.
  • Multiple Means of Representation: The programs provide multiple means of presenting content to maximize student understanding. This includes digital component files that allow for a range of presentations of images and text to support learning. Amplify provides access to universal supports such as point-of-use audio for all core texts, embedded definitions for critical vocabulary, and glossaries in multiple languages. Amplify CKLA California includes clarification on language found throughout the program, with sidebars that include support on transition words and syntax, and illustrations to help students understand the concepts they are learning.
  • Multiple Means of Action and Expression: The programs include a range of methods for all students, including English Learners, to navigate and demonstrate learning. This includes physical actions, a range of methods for response, appropriate tools for composition, and varied scaffolding. In Amplify ELA California, lessons provide multiple ways for students to interact with text, allowing their brains to process the language through distinct pathways. Activities harness multiple learning modes, using media tools, digital apps, and a variety of visual and physical experiences to strategically support and enhance student learning.
  • Accessibility: Universal access features include visual aids, enlarged materials, physical objects, and multiple learning modalities through activities like Push & Say and Wiggle Cards. The Universal Access section in the introduction of each lesson provides specific lesson-level options based on the needs of individual classrooms and students.

Embedded differentiation

Amplify CKLA California and Amplify ELA California provide built-in differentiation strategies in every lesson for all students.

Throughout the Teacher Guides, point-of-use Differentiation icons provide targeted instructional strategies and supports. These icons indicate specific guidance for advanced learners, students who need additional support, and English learners, allowing teachers to easily identify and implement appropriate scaffolds and extensions during instruction. In addition, teachers are provided with recommendations for resources to use with each group of students.

  • Pre-teaching supports include mini-lessons on:
    • Core vocabulary words
    • Core Connections
    • Essential Background Information or Terms
    • What Have We Already Learned/What Do We Already Know?
  • Differentiated Support for Core Instruction tables, located in the overview of each K–2 Skills Teacher Guide, provide a list of specific opportunities for reteaching and additional support in each lesson based on skill.
  • Support and Challenge Sidebars in lesson margins offer educators immediate guidance in implementing point-of-use differentiation techniques.
  • Flexible Grouping within lessons provides opportunities for teachers to facilitate small groups, partners, or individualized support based on students’ needs. In the Skills Strand, teachers receive specific guidance for differentiated small-group instruction, with targeted support and activities outlined for both Group 1 (students needing additional support) and Group 2 (on-level students) based on data. 
  • Amplify ELA California provides point-of-use supports embedded within key core lesson activities with six levels of differentiation. The goal of these supports is to fully enable access to grade-level content for all students, including students with disabilities, English learners, and students ready for an additional level of challenge.
  • The Universal Access section of Advance Preparation in each lesson includes varied strategies to ensure all students can access and engage in each lesson.
  • Frequent use of graphic organizers and visual supports in lessons provide opportunities for differentiation based on need. The program also includes a variety of technological supports, such as eReaders with audio.
  • Extension opportunities are suggested throughout lessons, often embedded in writing tasks, which include prompts to use more complex and descriptive vocabulary, figurative language,  multi-clause and complex sentences, and  informational text characteristics.

Assessment-Driven MTSS resources

  • The K–8 Intervention Toolkit is available online and provides easy-to-use resources that assist teachers in filling gaps in students’ reading skills, with activities to support print concepts, phonological awareness, phonics, fluency, and other key skills
  • Fluency Packets (Grades 2–5)
  • Foundational Skills Intervention Program for Grades 3–8 support students who would benefit from direct and explicit intervention instruction in the full continuum of foundational skills in the upper grades
  • Flexible Instructional Time including:
    • Pausing Points built into the curriculum that provide teachers with dedicated time to address specific student needs through targeted reteaching, remediation, practice, and extension activities 
    • Pausing Point activities designed to support English learners’ competence and confidence through differentiated whole-group, small-group, or individual instruction
  • Boost Reading is a K–5 student-led digital intervention program. Boost Reading follows Amplify CKLA California’s scope and sequence to reinforce the same foundational skills taught in core instruction. It integrates easily into daily routines, while the robust data provided by mCLASS® DIBELS® 8th Edition offers a detailed view of how students progress across all instructional tiers.

Category 5: Instructional Planning and Teacher Support

Amplify CKLA California and Amplify ELA California teachers are empowered to deliver effective instruction with various print and digital resources. The program provides comprehensive planning and support materials designed to help teachers prepare for and execute lessons effectively and fulfill the requirements of Category 5.

Implementation supports across K–8

Planning and preparation resources

  • Unit Overviews that provide important background and context for the texts students will read, including highlighted elements within the text and guidance for how students will work with those elements
  • Sub-unit Overviews (Grades 6–8) that provide an overview of Lesson Objectives and reading and writing assignments, as well as a list of any projections, multimedia, or digital apps that can be projected from the teacher’s included digital license
  • Lesson-by-lesson preparation checklists (Grades 6–8) accompanying each Sub-unit Overview
  • Lesson Briefs for each individual lesson providing important background and context
  • Content knowledge materials regarding topics that students will examine

Point-of-use instructional guidance

  • Teacher Editions that feature insets of the same text and activity instructions as the corresponding Student Edition, wrapping teacher instruction around these materials
  • Activity guidance at point of use
  • Lesson standards clearly called out
  • Discussion suggestions embedded in lessons
  • Differentiation tips at point of use
  • Detailed Instructional Guides in each activity that include sequencing and grouping suggestions, tips for facilitating discussion, possible student responses and exemplars
  • Student Supports in all core lessons that provide teachers with targeted supports in daily core instruction, addressing which might serve the student best in the moment—support, strengthen, stretch—with additional call-outs for newcomers

Multimedia and digital support

  • Teacher tip videos provide modeling and guidance for implementing key foundational skills routines within the program
  • Digital platform access where teachers can access printable PDFs of differentiated support materials for English learners and students struggling with reading, including translated Unit Background and Context documents and Text Previews
  • Teacher dashboard and reporting tools (Grade 6–8) provide real-time visibility into student progress and work for immediate instructional response

Caregiver supports

Communication and overview resources

  • Caregiver Hub available in English and Spanish that provides an overview of the curriculum
  • Caregiver Letters for each K–2 Knowledge Domain and unit in Grades 3–5 that provide an overview of the content, the skills students learn, as well as practical methods that continue the learning and knowledge building at home
  • Unit-specific Caregiver Letters (Grades 6–8) that provide detailed information regarding what students will read and learn in each unit, including conversation starters that allow caregivers to ask questions and discuss specific aspects of a unit with their student
  • Welcome letters that explain the assessment and placement process while inviting parent involvement and offering support
  • Editable Home-School Communication letters available in English and Spanish
  • Editable Progress Reports for teachers to update parents and guardians on what their child is learning

Content and learning support materials

  • Unit Background and Context documents that provide an introduction and overview to the unit’s topic and themes, available in English and Spanish
  • Text Previews that provide a brief introduction to formative, independent reading assignments (called Solos in Grades 6–8), available in English and Spanish
  • Unit Overview and Support documents (Grades 6–8) designed for caregivers that provide information about important questions, assignments, and key aspects of the unit texts, available in English and Spanish
  • Conversation starters included in Knowledge Strand Caregiver Letters to discuss domain topics at home

Home practice and extension activities

  • Take-Home pages in the Skills Strand that include copies of decodable passages, enabling students to share their reading progress with families and continue practicing their skills outside of school
  • Take-Home Letters in the Skills Strand that provide specific guidance for parents to support skills practice at home, such as sound-sorting activities, with detailed instructions and materials for home practice activities
  • Take-Home pages in the Knowledge Strand that provide suggested activities families can do together to reinforce and extend learning beyond the classroom
  • Games and activities on take-home pages that extend classroom instruction, including all the materials and instruction necessary to help families assist students in a fun and engaging way
  • Digital access to decodable texts through the Amplify Caregiver Hub, allowing students to practice their reading skills both in class and at home
  • Weekly spelling lists and directions to decoding activities that can be practiced at home

Welcome, K–8 Program 1 reviewers!

We’re honored to introduce you to Amplify California Language Arts. We’re confident you’ll find this comprehensive program to be a powerful tool for bringing the vision of the California ELA Framework to life in classrooms across the state.

Please start with the video on the right to learn how to navigate the program and access key features referenced within our submission. Below you’ll find additional resources to support your review.

Your review samples

We’re excited for you to begin your review of Amplify Core Knowledge Language Arts (CKLA) California and Amplify ELA California. Physical and digital review materials will vary by grade level.

Reviewer Binders (K–8)

Your physical samples should have arrived in grade-specific boxes with three Reviewer Binders.

  • The first binder will contain logistical program review information and the printed Evaluation Criteria Map.
  • The second binder will contain the printed Standards Maps for grades K–4.
  • The third binder will contain the printed Standards Maps for grades 5–8.

Physical samples (K–5)

You can expect to receive 15 boxes of physical materials for your review. As you begin the process of organizing your materials, please refer to the inventory checklist found inside each box as well as within your Reviewer Binder. Please note you will not receive any physical samples for grades 6–8. Your review of the program for grades 6–8 will be entirely digital.

Digital samples (K–8)

In order to access your digital samples, you’ll need to log in to our platform using your unique login credentials found on a Digital Review Credential flyer inside of your Reviewer Binder. Once you have located the flyer:

  • Click the orange button below to access the platform.
  • Click “Log in with Amplify.”
  • Enter the username and password provided on your Digital Review Credential flyer.
Digital Access

Navigation tips

Before you get started, please review these important functionality notes:

Criteria Map and Standards Maps must be opened on Microsoft Word on your desktop to function as intended. If you open the documents without Microsoft Word on your desktop, citations will be cut off at the bottom of most tables within the document.

Many of our citations are deep-links to PDFs, meaning they will take you to the right page or the first page in the sequence for the citation in question. To ensure this functionality works, please disable any PDF-viewing extensions or plug-ins such as Adobe Acrobat Pro Browser Extension.

[Reviewer program navigation video] Grades K–5

[Reviewer program navigation video] Grades 6–8

Click here for additional information on navigating the digital materials for grades 6–8.

Category 1: English Language Arts (ELA) and English Language Development (ELD) Content/Alignment to Standards

Evaluation Criteria Map

Linked below is the Evaluation Criteria Map for grades K–8. Please note that you will need to be logged into the digital platform to access the links in the Evaluation Criteria Map.

ELA Standards Maps

The links below provide the Standards Maps for Amplify California Core Language Arts for each grade level. Please note that you will need to be logged into the digital platform to access the links in the Standards Maps.

Category 2: Program Organization

The Amplify California Language Arts Program 1 submission includes Amplify CKLA California for Grades K–5 and Amplify ELA California for Grades 6–8. This comprehensive curriculum provides a full year of evidence-based instruction for each grade level, transitioning from foundational literacy to advanced text analysis.

Program structure

Amplify’s California Language Arts programs are built on what the research shows: Strong readers need both word recognition and language comprehension. Our comprehensive curriculum suite follows the Simple View of Reading and The Reading Rope–bringing together foundational skills and knowledge building to deliver instruction grounded in evidence-based literacy practices.

Flowchart illustrating skilled reading as the product of language comprehension and word recognition, grounded in the science of reading.
Diagram illustrating the interplay between language comprehension and word recognition in reading, as seen in early literacy stages. It highlights pathways through knowledge, vocabulary, and sentence understanding, reflecting principles from the CKLA reading program.

Each lesson follows a predictable structure with clearly marked components, beginning with warm-up routines, progressing through explicit instruction with guided practice, and concluding with independent application activities. The program provides detailed teacher language, including question stems and discussion prompts, ensuring clear and consistent delivery of instruction.

[Reviewer highlight video] Program organization for Category 2

[Reviewer highlight video] Program structure for grades K–2

[Reviewer highlight video] Program structure for grades 3–5

[Reviewer highlight video] Program structure for grades 6–8

Amplify CKLA California empowers teachers to deliver effective instruction and keeps students engaged with the following resources:

  • Teacher Guides
  • Assessment Guides
  • Authentic texts and trade books
  • Knowledge Image Cards
  • Knowledge Flip Books
  • Remediation and intervention resources
  • Decodable readers
  • Student Readers and novels
  • Student Activity Books
  • Poet’s Journals
  • eReaders
  • Sound Library featuring articulation videos and songs
  • Instructional routine modeling videos
  • Assignable Practice Games
  • On-demand professional development

Amplify ELA California students stay engaged with the following resources:

  • Teacher Guides that include:
    • Detailed lesson plans
    • Standards alignment and exit tickets
    • Real-time differentiation strategies
    • Robust reporting
  • Student Editions that include:
    • High-quality narrative and informational texts
    • Videos, audio supports, and digital experiences that capture their attention
    • Personal Writing Journal to keep all student writing in one place
  • Trade Books

Core literacy philosophy

Support every learner. Meet all learning needs with a Multi-Tiered System of Supports (MTSS) that brings together universal screening, scaffolded core instruction, support for English learners, and data-driven intervention to ensure every student gets what they need to succeed.

Deliver consistent foundational skills instruction. Daily explicit, systematic skills instruction in grades K–2, with targeted yet flexible support for students still building decoding confidence in grades 3–8, ensures mastery of essential reading foundations.

Build lasting knowledge across all grades. Through coherently sequenced, content-rich instruction that revisits key vocabulary and concepts with increasing complexity, students build meaningful connections that deepen their vocabulary and reading comprehension.

Strengthen reading through writing at every level. Regular writing instruction grounded in the Science of Writing supports reading comprehension, improves sentence-level writing, and provides the foundation for high-quality composition. As students progress through the upper grades, they engage in increasingly complex analytical tasks—synthesizing ideas, drawing generalizations, and interpreting multiple textual layers through both focused quick-writes and comprehensive essays. 

Foster oral language development. Structured opportunities for academic conversation and evidence-based dialogue build students’ ability to express complex ideas with precision and allow them to participate confidently in classroom discussions.

Measure growth with comprehensive assessments. Assessments range from in-the-moment checks for understanding to summative assessments that measure progress toward skills mastery and standards proficiency, providing the data needed to drive targeted instruction.

Scope and sequence

Below you can view the scope and sequence for each grade level. 

Routines

Amplify CKLA California and Amplify ELA California include several structured instructional routines that provide predictable patterns for both teachers and students:

Discussion and collaboration routines:

  • Turn and Talk: Partners discuss text-specific content using sentence starters and frames
  • Think-Pair-Share: Students engage in individual thinking, partner discussion, and whole-class sharing
  • Partner reading: Students sit shoulder-to-shoulder, taking turns reading and listening

Foundational Skills routines:

  • Sound-spelling review: Warm-up activities that reinforce phonics patterns
  • Oral blending warm-ups: Teacher-guided practice progressing to independent application
  • Finger tapping: Techniques for blending sounds
  • Chaining activities: Students manipulate letters to transform one word into another
  • Word Work: Daily short activities focused on domain-specific and academic vocabulary

Knowledge-building routines:

  • Vocabulary preview: Introduction of new words before reading
  • Read-aloud procedures: Established routines for introducing and discussing complex texts
  • Text discussions: Structured comprehension conversations with scaffolded questioning

Fluency routines:

  • Teacher modeling: Demonstration of proper intonation, expression, and pacing
  • Choral reading: Whole-class reading practice
  • Partner reading: Paired fluency practice

Close reading routines

The program includes carefully structured close reading activities that guide students through multiple encounters with complex texts. These routines help students develop deeper comprehension through systematic analysis and discussion.

Each routine includes comprehensive instructional guides with clear-cut directions for implementation, straightforward explanations of concepts, and suggestions for discussion.

Category 3: Assessments

Systematic MTSS alignment

In alignment with the additional 2025 Guidance 3.1.a, the assessment systems align with MTSS tiers, including universal screening, diagnostic assessments for students demonstrating a need for additional support, and progress monitoring tools that complement California’s required universal screening schedule per SB 114.

Tier 1:
Universal/ differentiated support		Tier 2: 
Supplemental/ targeted support		Tier 3: 
Intensified/ intensive support
Core instruction assessments




Frequency of administration		Amplify CKLA California, Amplify ELA California assessments


Daily, Weekly, Monthly		Amplify CKLA California, Amplify ELA California assessments


Daily, Weekly, Monthly		Amplify CKLA California, Amplify ELA California assessments


Daily, Weekly, Monthly
Universal screening assessments

Frequency of administration		mCLASS DIBELS and mCLASS Lectura

3 times per year – BOY, MOY, EOY		mCLASS DIBELS and mCLASS Lectura

3 times per year – BOY, MOY, EOY		mCLASS DIBELS and mCLASS Lectura

3 times per year – BOY, MOY, EOY
Formal progress monitoring assessments


Frequency of administration		mCLASS DIBELS and mCLASS Lectura


3 times per year – BOY, MOY, EOY		mCLASS DIBELS and mCLASS Lectura


Monthly		mCLASS DIBELS and mCLASS Lectura


Bi-weekly
Informal progress monitoring assessments



Frequency of administration		Amplify CKLA California, Amplify ELA California core assessments


Daily		Intervention Toolkit progress monitoring assessments


When linked to a lesson in the toolkit		Intervention Toolkit progress monitoring assessments


When linked to a lesson in the toolkit
Diagnostic assessment



Frequency of administration		Amplify skill diagnostic assessment


Optional after universal screening assessment is administered
Amplify skill diagnostic assessment


After universal screening assessment is administered

Universal assessment system

Amplify’s mCLASS® DIBELS® 8th Edition (K–8) and mCLASS Lectura (K–6) are universal and dyslexia screening assessments that should be administered three times per year (BOY, MOY and EOY) to all students. The assessments evaluate student literacy risk, determine progress toward grade-level goals, and indicate the level of instructional  support a student may need. Beginning-of-year screenings require adequate instructional time before administration, particularly in grades K–1, while mid-year and end-of-year assessments evaluate instructional effectiveness and guide tier placement adjustments. These screenings also identify students at risk for dyslexia. Universal screening provides essential data for targeting instruction and measuring instructional system effectiveness.

Core instruction assessments

Amplify CKLA California and Amplify ELA California provide a comprehensive suite of assessments for Grades K–8 that range from low-stakes, informal formative assessments to more formal summative assessments. These assessments incorporate a variety of methods and question types, including multiple-choice questions, open-ended questions, and oral and written responses.

Formative assessments:

  • Checks for Understanding: Incorporated into each lesson segment throughout daily instruction. Quick pulse-checks that provide immediate feedback during lesson delivery (grades K–5). 
  • Daily formative assessments: Highlighted moments within each lesson for teachers to plan to track mastery of Primary Focus objectives and standards of each lesson to get a clear snapshot of individual and whole-class progress (grades K–5). 
  • Activity pages: Completed as part of lessons and can be used to assess lesson content understanding through various formats (grades K–5).
  • Exit Tickets: Located at the end of lessons, these provide a quick gauge of students’ ability to meet the lesson’s focus standards (grades 6–8).  
  • Writing Prompts: Prompts integrated throughout lessons during writing activities that provide skill snapshots within lessons and tracks patterns of skill development over time (grades 6–8).
  • Independent reading activities (Solos): At the end of every lesson, students complete an independent reading activity (“Solo”) with reading questions that are scored to measure comprehension (grades 6–8).

Summative assessments:

  • Skills end-of-unit assessments (grades K–2) 
  • Knowledge end-of-domain assessments (grades K–2) 
  • End-of-unit assessments (grades 3–5) 
  • Unit essays: A culminating end-of-unit set of lessons that guide students through crafting an essay with a rubric to score mastery of writing skills (grades 6–8)
  • Unit Reading Assessments: Auto-scored responses and two constructed response items evaluate comprehension, content understanding, and reading skills using the passages students read during the unit (grades 6–8)

Performance Assessments

Student Performance Assessments are multi-day assessments administered in Grades K–5 at the beginning, middle, and end of year to help teachers gauge student mastery of grade-level Core content. These assessments provide critical data to help teachers set targeted instructional goals and monitor individual and class-wide progress towards core objectives.

Progress monitoring

Amplify’s mCLASS® DIBELS® 8th Edition and mCLASS Lectura provide formal progress monitoring in the discrete skills that are indicative of reading growth and predictive of overall success to provide the most instructionally meaningful information to teachers.


Informal progress monitoring tools can be found within the Intervention Toolkit, including materials for teachers to record, track, and evaluate student progress.

Diagnostic assessment

Interventions within Amplify’s literacy programs are informed by a skill diagnostic assessment that provides detailed data on foundational literacy skill deficits. The Amplify Skill Diagnostic Assessment and Amplify Spanish Skill Diagnostic assessment serve as critical tools in this process, administered specifically to students identified as at risk for reading difficulty through universal screening assessments—particularly those demonstrating mCLASS DIBELS 8th Edition or mCLASS Lectura composite scores in the Well Below or Below Benchmark ranges. These diagnostic assessments provide teachers with the precise skills to begin intervention and remediation.

Category 4: Universal Access

Amplify CKLA California and Amplify ELA California were built on the principles of Universal Design for Learning (UDL) and reviewed by CAST, a nonprofit education research and development organization. The program is developed using the Universal Design for Learning framework to proactively ensure that all learners can access and participate in meaningful, challenging learning opportunities.

Universal Design for Learning

The programs incorporate opportunities for engagement, representation, action, and expression based on the guidelines of Universal Design for Learning.

  • Multiple Means of Engagement: The programs incorporate interesting and motivating ways for students to interact with information and content. In Amplify CKLA California, the Universal Access section in the introduction of each lesson provides specific lesson-level options based on the needs of individual classrooms and students. Scaffolding for students with various levels of need is incorporated into the design of each lesson.
  • Multiple Means of Representation: The programs provide multiple means of presenting content to maximize student understanding. This includes digital component files that allow for a range of presentations of images and text to support learning. Amplify provides access to universal supports such as point-of-use audio for all core texts, embedded definitions for critical vocabulary, and glossaries in multiple languages. Amplify CKLA California includes clarification on language found throughout the program, with sidebars that include support on transition words and syntax, and illustrations to help students understand the concepts they are learning.
  • Multiple Means of Action and Expression: The programs include a range of methods for all students, including English learners, to navigate and demonstrate learning. This includes physical actions, a range of methods for response, appropriate tools for composition, and varied scaffolding. In Amplify ELA California, lessons provide multiple ways for students to interact with text, allowing their brains to process the language through distinct pathways. Activities harness multiple learning modes, using media tools, digital apps, and a variety of visual and physical experiences to strategically support and enhance student learning.
  • Accessibility: Universal access features include visual aids, enlarged materials, physical objects, and multiple learning modalities through activities like Push & Say and Wiggle Cards. The Universal Access section in the introduction of each lesson provides specific lesson-level options based on the needs of individual classrooms and students.

Embedded differentiation

Amplify CKLA California and Amplify ELA California provide built-in differentiation strategies in every lesson for all students.

  • Pre-teaching supports include mini-lessons on:
    • Core vocabulary building
    • Core connections
    • Essential background information building
    • What Have We Already Learned?/What Do We Already Know?
  • Differentiated Support for Core Instruction tables, located in the overview of each K–2 Skills Teacher Guide, provide a list of specific opportunities for reteaching and additional support in each lesson based on skill.
  • Support and Challenge Sidebars in lesson margins offer educators immediate guidance in implementing point-of-use differentiation techniques.
  • Flexible Grouping within lessons provides opportunities for teachers to facilitate small groups, partners, or individualized support based on students’ needs. In the Skills Strand, teachers receive specific guidance for differentiated small-group instruction, with targeted support and activities outlined for both Group 1 (students needing additional support) and Group 2 (on-level students) based on data. 
  • Amplify ELA California provides point-of-use supports embedded within key core lesson activities with six levels of differentiation. The goal of these supports is to fully enable access to grade-level content for all students, including students with disabilities, English learners, and students ready for an additional level of challenge.
  • The Universal Access section of Advance Preparation in each lesson includes varied strategies to ensure all students can access and engage in each lesson.
  • Frequent use of graphic organizers and visual supports in lessons provide opportunities for differentiation based on need. The program also includes a variety of technological supports, such as eReaders with audio.
  • Extension opportunities are suggested throughout lessons, often embedded in writing tasks, which include prompts to use more complex and descriptive vocabulary, figurative language,  multi-clause and complex sentences, and  informational text characteristics.

Assessment-driven MTSS resources

  • The K–8 Intervention Toolkit is available online and provides easy-to-use resources that assist teachers in filling gaps in students’ reading skills, with activities to support print concepts, phonological awareness, phonics, fluency, and other key skills
  • Fluency Packets (Grades 2–5)
  • Foundational Skills Intervention Program for Grades 3–8 support students who would benefit from direct and explicit intervention instruction in the full continuum of foundational skills in the upper grades
  • Flexible Instructional Time including:
    • Pausing Points built into the curriculum that provide teachers with dedicated time to address specific student needs through targeted reteaching, remediation, practice, and extension activities 
    • Pausing Point activities designed to support English learners’ competence and confidence through differentiated whole-group, small-group, or individual instruction
  • Boost Reading is a K–5 student-led digital intervention program. Boost Reading follows Amplify CKLA California’s scope and sequence to reinforce the same foundational skills taught in core instruction. It integrates easily into daily routines, while the robust data provided by mCLASS® DIBELS® 8th Edition offers a detailed view of how students progress across all instructional tiers.

Category 5: Instructional Planning and Teacher Support

Amplify CKLA California and Amplify ELA California teachers are empowered to deliver effective instruction with various print and digital resources. The program provides comprehensive planning and support materials designed to help teachers prepare for and execute lessons effectively and fulfill the requirements of Category 5.

Implementation supports across K–8

Planning and preparation resources

  • Unit Overviews that provide important background and context for the texts students will read, including highlighted elements within the text and guidance for how students will work with those elements
  • Sub-unit Overviews (Grades 6–8) that provide an overview of Lesson Objectives and reading and writing assignments, as well as a list of any projections, multimedia, or digital apps that can be projected from the teacher’s included digital license
  • Lesson-by-lesson preparation checklists (Grades 6–8) accompanying each Sub-unit Overview
  • Lesson Briefs for each individual lesson providing important background and context
  • Content knowledge materials regarding topics that students will examine

Point-of-use instructional guidance

  • Teacher Editions that feature insets of the same text and activity instructions as the corresponding Student Edition, wrapping teacher instruction around these materials
  • Activity guidance at point of use
  • Lesson standards clearly called out
  • Discussion suggestions embedded in lessons
  • Differentiation tips at point of use
  • Detailed Instructional Guides in each activity that include sequencing and grouping suggestions, tips for facilitating discussion, possible student responses and exemplars
  • Student Supports in all core lessons provide teachers with targeted supports in daily core instruction, addressing which might serve the student best in the moment—support, strengthen, stretch—with additional call-outs for newcomers

Multimedia and digital support

  • Teacher tip videos provide modeling and guidance for implementing key foundational skills routines within the program
  • Digital platform access where teachers can access printable PDFs of differentiated support materials for English learners and readers struggling with text, including translated Unit Background and Context Documents and Text Previews
  • Teacher Dashboard and reporting tools (Grade 6–8) that provide real-time visibility into student progress and work for immediate instructional response

Caregiver supports

Communication and overview resources

  • Caregiver Hub available in English and Spanish that provides an overview of the curriculum
  • Caregiver Letters for each K–2 Knowledge Domain and unit in Grades 3–5 that provide an overview of the content, the skills students learn, as well as practical methods that continue the learning and knowledge building at home
  • Unit-specific Caregiver Letters (Grades 6–8) that provide detailed information regarding what students will read and learn in each unit, including conversation starters that allow caregivers to ask questions and discuss specific aspects of a unit with their student
  • Welcome letters that explain the assessment and placement process while inviting parent involvement and offering support
  • Editable Home-School Communication letters available in English and Spanish
  • Editable Progress Reports for teachers to update parents and guardians on what their child is learning

Content and learning support materials

  • Unit Background and Context documents that provide an introduction and overview to the unit’s topic and themes, available in English and Spanish
  • Text Previews that provide a brief introduction to formative, independent reading assignments (called Solos in Grades 6–8), available in English and Spanish
  • Unit Overview and Support documents (Grades 6–8) designed for caregivers that provide information about important questions, assignments, and key aspects of the unit texts, available in English and Spanish
  • Conversation starters included in Knowledge Strand Caregiver Letters to discuss domain topics at home

Home practice and extension activities

  • Take-Home pages in the Skills Strand that include copies of decodable passages, enabling students to share their reading progress with families and continue practicing their skills outside of school
  • Take-Home Letters in the Skills Strand that provide specific guidance for parents to support skills practice at home, such as sound-sorting activities, with detailed instructions and materials for home practice activities
  • Take-Home pages in the Knowledge Strand that provide suggested activities families can do together to reinforce and extend learning beyond the classroom
  • Games and activities on Take-Home Pages that extend classroom instruction, including all the materials and instruction necessary to help families assist students in a fun and engaging way
  • Digital access to decodable texts through the Amplify Caregiver Hub, allowing students to practice their reading skills both in class and at home
  • Weekly spelling lists and directions to decoding activities that can be practiced at home

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Winter Wrap-Up 01: Problem-solving and facilitating classroom discussions

Promotional graphic for Math Teacher Lounge podcast, episode 1, featuring Fawn Nguyen, Christy Thompson, and Kassia Omohundro Wedekind discussing classroom problem-solving and discussions.

As we prep for an exciting new season of Math Teacher Lounge: The Podcast, hosts Bethany Lockhart Johnson and Dan Meyer are looking back at the amazing speakers and conversations from past episodes and sharing some of their favorites!

First up: A season 2 double feature of the power of problem-solving with Fawn Nguyen and Facilitating Classroom Discussions with authors Christy Hermann Thompson and Kassia Omohundro Wedekind.

Fawn is a specialist on Amplify’s advanced math team and a former math teacher and math coach—so she knows her stuff! You’ll hear about her five criteria for good problem-solving problems, and the power and importance of exposing all students to problem-solving.

Then, we’ll move into Bethany and Dan’s conversation with Christy and Kassia to learn how hands-down conversations allow students to become better listeners and the steps you can take to implement hands-down conversations in your classroom.

Explore more from Math Teacher Lounge by visiting our main page.

Download Transcript

Dan Meyer: (00:01)

Hey folks. Welcome back to Math Teacher Lounge. My name is Dan Meyer.

Bethany Lockhart Johnson: (00:03)

And I’m Bethany Lockhart Johnson. Hello! Happy New Year! Hello, Dan Meyer.

Dan Meyer: (00:09)

HNY, Bethany. HNY to you and to all of the listeners out there in Math Teacher Lounge. HNY is the abbreviation that I use sometimes.

Bethany Lockhart Johnson: (00:18)

Oh, is that what that is? Is that—I wasn’t sure what that was. If on my birthday you send me HBD…no.

Dan Meyer: (00:25)

Yeah.

Bethany Lockhart Johnson: (00:25)

No. Unacceptable.

Dan Meyer: (00:27)

I will. No, you want the full thing. To demonstrate my care for your birthday, I gotta spell the whole thing out. I’m just trying to stay relevant. You know, I’m just trying to stay relevant and youthful. So I’m using The Abreevs.

Bethany Lockhart Johnson: (00:38)

The Brevvies.

Dan Meyer: (00:40)

To the extent of even abbreviating the word “abbreviation.” . So, any New Year’s resolutions you wanna share with the listeners, Bethany? While you think, I’ll just share mine real quick here. This is the year of the perfect Wordle streak for yours truly, Dan Meyer. I’m going the full 365. Watch. Watch me do it, folks. I’m naming it here. Live on air. recorded on air. Perfect Wordle year. What you got for the listeners, Bethany?

Bethany Lockhart Johnson: (01:10)

Let’s see. It’s raining very hard here in Southern California, and my newest resolution is to embrace nature. My child wants nothing more than to go and splash in all the puddles.

Dan Meyer: (01:22)

Nice.

Bethany Lockhart Johnson: (01:23)

And be amongst the mud. And what I’m gonna keep telling myself—and so far, so far, I’ve been doing pretty good with this—thrive, child. Splash. Squish. We can dry you off. You will not melt. So I want to keep finding opportunities. Like, for instance, my response is, “It’s pouring rain. Let’s stay under covers and let’s read this book together!” And his response is like, banging on the windows, like, “Please let me go outside.” So I myself have some rain boots. I’m going to go forth and splash with my child. So hopefully you’ll see me doing that a bit more.

Dan Meyer: (02:08)

Love that.

Bethany Lockhart Johnson: (02:09)

Ask me what I’m doing. I’m outside, splashing in nature.

Dan Meyer: (02:12)

I don’t wanna put words in your mouth, but I have felt a bit like parenting is a means for rounding out aspects of my own personality that I have felt are—or habits or hobbies that are lacking. Like, I’ve never been real outdoorsy or into camping, but I don’t want that to limit my own kids’ aspirations or interests. So let’s do the thing that’s not super natural for me, for their own sake. Which is kind of what I’m hearing a little bit from you, which—that sounds exciting.

Bethany Lockhart Johnson: (02:35)

Do you wanna go camping together? Like, our families?

Dan Meyer: (02:38)

Uhhh. Let’s take this one off the air. I also love something that’s more relevant to a teachers audience that you said, that I think is super interesting, is how there’s ways that we can make the jobs harder for ourselves, that are optional. And what I hear from you is like, “I’m just not gonna freak out. We’re getting wet. We’re getting soggy. And I’m just not gonna freak out.” And I just think that that’s interesting to think about, the things that we take on, you know, that’s optional. Freaking out is optional, sometimes. And there’s other areas, I think, for parenting or for teaching, where it’s like, “Oh, do I really need to choose this particular battle?” And to reconsider that.

Bethany Lockhart Johnson: (03:19)

And in that spirit, our whole Wordle episode that we talked about? Do you remember you talked about how beautiful Wordle mistakes are, and how you keep learning from mistakes? I mean, you obviously want the final correct answer, but just, you know, when you get on a losing streak, Dan, I hope you’ll continue to pat yourself on the back.

Dan Meyer: (03:38)

Well, I will not be taking on a losing streak, or even lose one day. This is what’s gonna happen here. I’m just speaking that and putting it out in the universe.

Bethany Lockhart Johnson: (03:49)

Speak it!

Dan Meyer: (03:50)

But if it happens, I will be taking a long break from all human interaction. And lamenting, as I do.

Bethany Lockhart Johnson: (03:59)

Camping. Dan’s off in the woods, weeping.

Dan Meyer: (04:01)

That’s right. That’s right. Yeah. Well, we wanna share with you folks—an exciting programming note is that we are currently working very hard on producing a special fifth season of this podcast. You thought the other seasons were special? Let me tell you, this fifth season gives new meaning to the word “special.” And we can’t wait to tell you more about that. But in the meantime, Bethany, you wanna tell ’em what we’re up to in the meantime?

Bethany Lockhart Johnson: (04:26)

Well, Dan and I went back and we were having a conversation about some of our most favorite conversations, or the conversations that people bring up to us. Like, when we were at the CMC conference, or NCTM, folks, when we talk about the podcast, they’re like, “Oh, I loved this one.” “Oh, I love this one.” And that, to me, I don’t know, that is exciting. And so, while we’re putting together this new season over these next few weeks, we’re gonna feature a few of our favorite conversations from our first four seasons. Dan, four seasons!

Dan Meyer: (04:59)

We’ve been at this for four seasons! And I do want to just emphasize something you said, Bethany: that all of our conversations are our favorite conversations. They’re all our special children. What we just felt like you, the listeners, did not quite learn enough from some of these, and so we really needed you to hear them again to make sure you got everything that you should get out of them. So, let’s tell ’em who’s up first. And who’s up first is a conversation we had about problem-solving with Fawn Nguyen, who’s an advanced math team specialist here at Amplify. Been a former math coach, math teacher. Just really done the work, is what I’d say about Fawn.

Bethany Lockhart Johnson: (05:38)

If you have been listening to this podcast, you’re like, “Whoa, whoa. Wait, I have not missed an episode. I didn’t hear Fawn’s interview.” That is because we used to be video only, not podcasts. So this conversation with Fawn was from, what, our second season?

Dan Meyer: (05:55)

Yeah.

Bethany Lockhart Johnson: (05:56)

And we were on video. And another thing about it is it was, this is a conversation that, when folks talk about problem-solving, a lot of the responses we’ve gotten are like, “Wait, I’ve never thought of problem-solving this way.” In fact, you’ll hear us say that exact thing . So we really appreciated the time with Fawn. And yeah.

Dan Meyer: (06:17)

Enjoy it, folks. Especially enjoy Fawn’s—I think a four-part?—definition of problem-solving, a word that’s often kind of mushily defined. And Fawn really goes into, I think, precision and depth on it. So hope you folks enjoy it.

Dan Meyer: (06:35)

Give a wave, Fawn, to the camera. Would you? Cool. Fawn has been a teacher for a very long time. She is someone who could have left the classroom at any point and taken any number of jobs in the math-teaching universe. But I’ve always admired that Fawn has taught kids for a very long time, and that has given her, in my view, just a lot of clarity on what is important to her about students. I’ve seen her not get upset or obsessed with certain kinds of small niche issues that a lot of us, like, they get a lot of us down in the classroom, sometimes. And she’s maintained a laser focus on among many other things, problem-solving as a virtue in mathematics classrooms. So, please welcome Fawn to our show. Fawn, thanks so much for being here.

Fawn Nguyen: (07:18)

Hey, thank you so much. Thank you. I am so excited and honored that you guys invited me for this, Bethany and Dan.

Bethany Lockhart Johnson: (07:24)

Thank you for being here.

Fawn Nguyen: (07:26)

I love you, Bethany. Dan, I can tolerate, but I love you.

Dan Meyer: (07:30)

I really worked myself up there on that complimentary opening for you, and that’s how you get me back, here? OK. Problem-solving is fully on the consciousness of math teachers. Every math teacher knows that they need to say, like, “Yeah, oh, problem-solving. Yes. Love it. Do it. I dig it.” But even so, I feel like it’s become kind of a buzzword. Like, it’s not always obvious what that means…or am I doing problem-solving, really? So we’re curious: As someone who is a problem-solving expert, who is asked all over the world to talk about problem-solving: How do I know if I’m doing problem-solving in my classroom?

Fawn Nguyen: (08:12)

This is not my definition of it, but—nor am I an expert, by the way, Dan, thank you! but I try really, really hard and work on it!—my definition—or it’s not my definition, but I like it because it’s short and honest—is “problem-solving is what we do when we don’t know what to do.” And so—

Bethany Lockhart Johnson: (08:32)

Ooh!

Fawn Nguyen: (08:32)

—with that mind-frame, I’m hoping teachers think more about what they task. Because I think it gets mislabeled a lot, as to what is problem-solving. If the kids already know what to do, there’s a solution path. Then it’s not problem-solving.

Dan Meyer: (08:48)

Yeah. So what are examples then? An example of, like, I might call something problem-solving, but it it fails that particular definition that you just proposed there. Very short, very honest definition.

Fawn Nguyen: (08:59)

Just, it needs to have constraint and contradiction to what the kids think naturally. It should come as a surprise. There’s an element of surprise in it. There’s tension.

Dan Meyer: (09:11)

Maybe if there’s harder numbers or, you know, decimals or fractions in the same kind of procedure…I can feel myself thinking, “Yeah, this is hard. This is problem-solving. Problem-solving equals hard. But we already know what to do.”

Fawn Nguyen: (09:27)

Or just word problems. That’s the most common thing. As soon as it just has words attached to the math, it becomes problem-solving. But that’s just coding it to me. That’s just coding it with words, wrapping it around. It doesn’t mean anything until we read through and see if there’s true problem-solving in it.

Bethany Lockhart Johnson: (09:45)

Like, what’s the moment that it becomes problem-solving? In the way that you envision it?

Fawn Nguyen: (09:53)

Well, I think there’s the bigger problem-solving of really bringing a task…I wanna call it left field. It just—we rarely ever, if ever, see it in the regular coursework, but it can also be problem-solving if we just take what we expect the children to do at the end of the unit, how about we front-load that? To me, that’s also problem-solving. And I’m trying to encourage teachers to do that last problem first. The task writers put more thought—not that they don’t do the rest of it!—but you know, this is a special one, because they label it “challenge,” or “enrichment,” or “are you ready for more?” I’ve seen those. And so it is this really special problem. And I would love for us to think about “do that first.” Because my biggest fear is that because it comes at the end, that not all the children are involved. And so that to me is the saddest part. Because we might not get to it, right? In mathematics, we always think, “OK, well, let’s do these problems and then we don’t have time for the rest.” But I think that’s your richest task right there, is at the very end. So why don’t we front-load it, start it, and it’s OK—of course it’s OK!—that we don’t all get it. But the exposure to all students is so important. Talk about, you know, equity. Talk about that, everybody gets the same thing. If everyone dug into that first one with everybody’s collaboration, and we get to share that, and then we leave it, because “Yeah, OK, now we learn more of the other stuff, right? That hopefully support. And then we can go back. And now everybody had a chance to go get into it, and then we can come back to it as, as many problems, we need to go back to it.”

Bethany Lockhart Johnson: (11:37)

And that feels so powerful. Because it feels like—as a teacher, I’m thinking it would also inform my work, how I approach the unit, and how I approach the next steps. Right? Like, what kind of work would we be doing if I let it, if I allow it, to change the way that I approach the unit.

Dan Meyer: (11:58)

Yeah. What you’re describing is so powerful, and really asks a lot of the task designers as well, I think. There are problem-solving tasks that really require, like, abstract knowledge of the way formulas and variables fit together. And what I love about what Amplify is doing with their problem-solving, what you’re helping them do, is that they start with a true low floor that can draw in every student. And they might get stuck at different places; that’s fine. But everyone has a way in. That’s exciting.

Fawn Nguyen: (12:24)

It’s a big deal for me to have this opportunity and this trust, to integrate problem-solving into the curriculum, make it intentional. It’s difficult to implement. It is, to be honest. Because for me, what is a good task? This makes one of my four criteria: One is, it is non-routine. It is simply stated. Simply stated—that’s like your low floor. And then has multiple solutions. And the fourth: This makes it. Because that the teacher enjoys solving it. And so you have to enjoy solving it to bring it. Because so that way I can say to my kids, “This is my gift.” It really is, Because, you know, it has so much fun and joy. And I appreciate the struggle. And I wanna illustrate an example. For example, let’s say Dan and I are classmates. And I know that Dan gets A’s on his tests and the lowest score he ever got was an 89%. I, on the other hand, just sitting right next to him, I average D. I have a D average on everything. While Bethany, our amazing and wonderful teacher, brings in a problem. And when she brings it in, she says, “I worked on this problem. I found this problem; I worked on it; and I struggled with it. And it was amazing. I enjoyed it so much, I’m sharing it with you.” And all of a sudden it’s like, “OK!” And I”m sitting there, right? My teacher loves this problem so much; she’s bringing it in to share with us. And now, all of a sudden, it’s not, you know…and I know she only gives us non-routine. When she talks about problem-solving, it’s non-routine. So it’s not directly tied to the textbook that I’ve been struggling with. So it gives me a chance, it gives me a chance to contribute. To think differently. And now, suddenly I look forward to working with Dan, because in this space, in this problem-solving space, Dan is no longer Mr. Know-It-All. And so that’s what I mean by—I am saying this a hundred times, and I will not stop saying it—problem-solving levels the playing field. Our world is filled with unsolved problems. Are you kidding me? Right? We look around us, we have so many things that are not solvable, or people are working on it, and yet in mathematics, what happens? The bell rings; we start; and we solve everything during that time, and we leave. And that’s…yeah. No! No! We need to wrestle with problems.

Dan Meyer: (15:04)

And that was our conversation with Fawn Nguyen, which we first released way back in November, 2021. You folks can follow Fawn on Twitter at Fawn P Nguyen. Um, that’s @ F A W N P N G U Y E N.

Bethany Lockhart Johnson: (15:18)

So our episode today is a double feature. We are featuring another conversation that we loved from Season Two. This is a conversation with Christy Hermann Thompson and Kassia Omohundro Wedekind. They’re authors of the book, “Hands Down, Speak Out: Listening and Talking Across Literacy and Math.” And I don’t know if you remember, but not only did we have a conversation with them, but we did a whole book study on Facebook, a Facebook Live book study, over the course of several months. And it was one of my most favorite things. And then they did a webinar at the end. So our conversation with them on the podcast for me felt like such a beautiful dive into their book. And you know, I’ve said it before, you think you have something down in the classroom, you’re like, “Oh, hand-raising, I’ve got that down.” You think you have it down, but then somebody says, “OK, but have you ever considered thiiiis?” You know, and it just—

Dan Meyer: (16:17)

NOT that??

Bethany Lockhart Johnson: (16:18)

, Not that? Something totally different? And I loved talking with them. They’re a lot of fun. And I loved the book.

Dan Meyer: (16:23)

Wonderful conversation, great book. Very provocative ideas. Yeah. As someone who’s like, “OK, classroom management, I gotta get the hand-raising going…”. In the classroom before we talked, they offered a really potent challenge to some really standard classroom management ideas. Yeah. Loved it.

Bethany Lockhart Johnson: (16:40)

And this conversation also offers some really practical tips for facilitating student conversations. So we think you’ll enjoy it. Here’s our conversation with Christy and Kassia.

Bethany Lockhart Johnson: (16:53)

So today we are talking about “Hands Down, Speak Out: Listening and Talking Across Literacy and Math, K—5.” And we have the authors here, Kassia Omohundro Wedekind and Christy Hermann Thompson. Before we begin, let’s define what a hands-down conversation is. A hands-down conversation is just another way to structure discourse in your classroom. So in a typical classroom, you might see students raising their hand and waiting on a teacher to call on them before they share their ideas or engage in discussion. But in a hands-down conversation, it’s students’ ideas and voices that are taking the lead, and teachers are stepping back and focusing on listening and facilitating. Hello! Welcome to the Lounge.

Kassia Omohundro Wedekind: (17:44)

Thank you. We’re excited to be here. We’re fans of Season One. So we’re ready to go.

Dan Meyer: (17:50)

I was a secondary teacher but I still found so much to love about the book. I think facilitating conversations is just generally challenging, and perhaps even more so in math, where answers feel so tightly dialed-in, in lots of ways. But I loved it. I would love for you to just explain to our audience, what is a hands-down conversation and how does that contrast with what might be standard practice for some people? For some classes?

Christy Hermann Thompson: (18:13)

We just started using the term hands-down conversation because we wanted to differentiate the fact that there are different times to have different types of dialogue in the math classroom, in the literacy classroom. And we use this as one of our tools. Right? It’s not that every day, all day long, we’re very against hand-raising and should never see that again. We find that having this as one of our tools will be where we make really clear to the students that this is a moment where we’re turning it over to you to negotiate the space and make the decisions about when your voice comes in and who speaks next. You know, carry on kind of like that dinner table or that playground or, you know, whatever is your natural habitat for talk. And bringing that into the classroom and then hoping that it also someday transfers back out of the classroom back into the real world.

Bethany Lockhart Johnson: (19:09)

For the teachers who feel like that’s terrifying to have students just start speaking, and speaking without any sort of control or my little equity sticks, my little popsicle sticks, or my popcorn, or whatever other thing they’re using, what would you say is the first step?

Christy Hermann Thompson: (19:25)

So I think recognizing and naming that fear is part of it. And then saying to yourself, “What’s the worst that could happen here?” You know, I think the worst that could happen is that nobody talks and it’s totally silent. Or on the other hand, everybody talks at the same time. And both of those things will happen! And so what? It’s gonna be messy. And if you just acknowledge that it’s gonna look messy, and that’s part of growing; that every child as they learn—and every adult—is messy as they grow.

Kassia Omohundro Wedekind: (19:59)

And we have to see what kinds of things will happen in a hands-down conversation. Like there’s no prerequisite. You just start and then you see what happens. And those are the signs that tell you, “What can help this community grow as talkers and listeners? If everyone’s talking at the same time, and they’re kind of pushing each other over with their words by saying, “I have something to add!” “I have something to add!” or something like that, that’s a common thing that sometimes happens at the beginning. Then you know that the next step is to do some work about how to hold your thoughts back, how to add, wait for a space in the conversation to talk. And those are all things we need people to know out in the world.

Bethany Lockhart Johnson: (20:41)

So can you give an example of a micro-lesson that…well, first, what do you define as a micro-lesson? And then, what’s an example of one that maybe somebody who wants to dip their toe into the world of hands-down conversations that they could try?

Christy Hermann Thompson: (20:56)

The reason we call them micro-lessons is because we wanted to differentiate from the term mini lesson, which is out there and tends to describe about 10 or 15 minutes that might take place at the beginning of a work period of time. And this is much smaller than that. We usually follow a pretty predictable structure of naming. Here’s this thing that’s so helpful when we’re having conversations, and we love to especially be able to name something that a student had done: “Kaylee did this yesterday and it really helped us.” So what we might call that is, “And then here’s how Kaylee and other people might do that. They might do something like this.” And, you know, having a little anchor chart, so there’s a visual reminder of that skill. “So when we’re having a conversation today, you could try…”. And that’s basically a micro-lesson, just in a nutshell.

Kassia Omohundro Wedekind: (21:51)

When I was doing these hands-down conversations and I had more space for myself to listen as a teacher, I’m like, “Well, look at those kids, like, slumped onto the ground, like, pulling the carpet apart, but they’re having this amazing conversation!” And so I learned that listening is a lot broader. So in this lesson that I’m thinking about, we just talk with kids about what are lots of different ways that listening can look like. Sometimes with younger kids, I’ll take pictures of them listening in different ways and we’ll notice things about them together. And then we invite them to talk with their Turn and Talk partner about like, “How do you like to be listened to?” Or “Tell me about how you listen.” And just kind of broaden that. And really, I like to think that like the micro-lessons are for the kids, but also I’m saying those things to say them for myself. Like, “Remember, you don’t have to insist that kids are staring each other down in the eyes all the time. Like, “It’s OK when they’re doing other things. There’s other ways of listening.” So I think I’ve learned as much from the micro-lessons each time I do them as the kids that I’m trying to help grow as listeners and talkers, as well.

Dan Meyer: (23:00)

You folks have a lot of really eloquent ideals you express, around democratic classrooms and engagement. But you also have just some very tangible, practical…even down to, like, how a teacher positions their body in space and the way they use their eyes to connect. I think it would be really helpful for teachers to hear that it’s not just they’re signing on to a manifesto of sorts, but there’s ways they can act their way into the beliefs that you both expressed here.

Christy Hermann Thompson: (23:26)

When I’m starting hands-down conversation work, if I put myself a little bit outside of the circle and look down, and give myself a clipboard, it, it helps me bite my tongue and it helps me give better wait time and see what the kids are doing before I have that tendency to jump in and teach and do lots of teacher-y things.

Bethany Lockhart Johnson: (23:48)

Kassia and Christy, thank you so much for joining us. We are so excited to have this conversation and to share your work. This is exciting. And I feel like this conversation is just the beginning of a deeper dive into this book.

Kassia Omohundro Wedekind: (24:01)

Thanks for having us.

Christy Hermann Thompson: (24:02)

Thank you.

Dan Meyer: (24:03)

Thank you both.

Bethany Lockhart Johnson: (24:06)

Thanks so much for listening to our conversations with Fawn Nguyen and Christy Hermann Thompson and Kassia Omohundro Wedekind, both of which were released in 2021, part of our second season. And, you know, we hoped you enjoyed listening to it for a first, second, maybe third, fourth time.

Dan Meyer: (24:24)

Let’s be real. There’s some real fans out there.

Bethany Lockhart Johnson: (24:26)

We loved it then. We love it now!

Dan Meyer: (24:28)

Yep, yep, yep. Please keep in touch with the show by following us on Twitter at MTL Show, and join our Facebook group, the Math Teacher Lounge community. We’d love to hear from you there. And please stay tuned for more info on what we’re cooking up here in the Math Teacher Lounge. Thank you folks for listening. Take care, Bethany.

Bethany Lockhart Johnson: (24:47)

Bye now.

Stay connected!

Join our community and get new episodes every other Tuesday!

We’ll also share new and exciting free resources for your classroom every month.

What Fawn Nguyen says about math teaching

“It’s a big deal for me to have the opportunity and this trust to integrate problem-solving into the curriculum.”

– Fawn Nguyen

Specialist, Math Advance Team, Amplify Desmos Math

Meet the guests

Fawn Nguyen

Fawn began her work with Amplify in 2022 as a Math Advance Team Specialist. She was a math coach for a K-8 school district for three years, and a middle school teacher for 30 years before that. Fawn has also received a number of accolades as an educator.

Christy Thompson

Christy Thompson is a Literacy Coach in Fairfax County Public Schools in Virginia. She has spent her teaching and coaching career particularly focused on listening to and learning from the talk of our youngest students.

Kassia Omohundro Wedekind

Kassia Omohundro Wedekind spent many wonderful years as a classroom teacher and math coach in Fairfax County Public Schools in Virginia and now splits her time between being an independent math coach and an editor at Stenhouse Publishers. Her favorite days are spent in classrooms learning from the many ways children talk, listen and negotiate meaning together.

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About Math Teacher Lounge: The podcast

Math Teacher Lounge is a biweekly podcast created specifically for K–12 math educators. In each episode co-hosts Bethany Lockhart Johnson (@lockhartedu) and Dan Meyer (@ddmeyer) chat with guests, taking a deep dive into the math and educational topics you care about.

Join the Math Teacher Lounge Facebook group to continue the conversation, view exclusive content, interact with fellow educators, participate in giveaways, and more!

You might also like:

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Three on-demand professional learning courses for math teachers.  Earn your cert…

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Mathigon: the mathematical playgrou…

Math games and manipulatives for online and remote learning.

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Desmos Classroom Grades 3–12

Join Desmos Classroom to gain access to free classroom lessons, lesson-building…

The case for grade-level ELA instruction in middle school

Teaching middle school comes with unique challenges—especially in ELA, where a single classroom may include students from all walks of life and all reading levels. Recent data shows that more than 30% of middle school students struggle to read at grade level. So a teacher’s instinct might—understandably—be to match students with texts at their individual reading levels.

But research shows that’s not the best approach for meeting student needs. In fact, a critical way to help middle schoolers read at grade level is … to teach them at grade level.

All students benefit when they are challenged with grade-level content, along with the necessary support and scaffolding to promote their growth. This approach ensures that no student—whether below, above, or on grade level—is left behind or held back from their full potential.

The problem with the remediation trap

Providing struggling students with simpler texts seems like a logical way to build confidence. But this approach often reinforces learning gaps instead of closing them. When students aren’t exposed to grade-level material, they miss out on critical opportunities to:

  • Build knowledge and vocabulary necessary for long-term academic success.
  • Engage in meaningful discussions that deepen comprehension.
  • Develop confidence in their ability to tackle complex texts and new concepts.

But when students interact with rigorous content and new information alongside their peers, they gain the skills, exposure, and engagement they need to improve—no matter where they start.

Scaffolding in education: Why does it matter?

If students need help reaching grade-level standards, focus on providing the right scaffolding rather than lowering expectations.

  • Pre-teaching key vocabulary to support comprehension.
  • Breaking down complex texts into smaller, digestible parts.
  • Using guided questions and discussion prompts to deepen understanding.
  • Encouraging peer collaboration so that students can learn from each other.
  • Incorporating visual aids like diagrams, charts, and graphic organizers to clarify concepts and support comprehension.

By using these strategies, teachers can keep students engaged in grade-level work while addressing skill gaps in a way that fosters real growth.

How grade-level instruction works for every student

  1. Grade-level instruction builds confidence and motivation. Middle school students are deeply social learners who thrive when they feel included. When struggling students are placed in remedial groups with lower expectations, they can feel discouraged. But when they read and discuss the same challenging texts as their peers, they’re more motivated to participate and push themselves.
  2. Grade-level instruction develops critical thinking skills. Grade-level texts expose students to richer vocabulary, more complex sentence structures, and deeper themes. This helps all students—whether they’re working above or below grade level—develop essential thinking and analytical skills that prepare them for high school, college, and beyond.
  3. Grade-level instruction prepares students for real-world literacy. Success in the real world depends on the ability to read and comprehend challenging material. If students aren’t exposed to complex texts in middle school, they’ll struggle in high school, the workplace, and life. Providing grade-level instruction ensures that they develop the reading stamina and skills they need for the future.

Bridging skill gaps without lowering expectations

Some students may need additional support in decoding, fluency, or foundational skills. However, this doesn’t mean they should be separated from grade-level content. Instead, they should receive targeted interventions alongside their core instruction.

Here’s how to bridge skill gaps while keeping all students on track:

  • Use structured reading supports—such as read-alouds or guided reading along with explicit fluency practice—so struggling students can follow along with grade-level texts.
  • Incorporate explicit vocabulary instruction to help students understand and use new words.
  • Provide sentence starters and discussion frameworks to support writing and comprehension.
  • Encourage independent reading at different levels to build fluency while keeping classroom instruction rigorous.

With these strategies, students receive the help they need without missing out on the rich, challenging materials that promote deeper learning.

Teach up, not down: The best approach for middle school ELA

While scaffolding allows struggling readers to access the same grade-level content as their peers, advanced learners can benefit from opportunities to go deeper with discussions, analytical writing, and extension activities—all within the same instructional framework.

Key takeaways for middle school ELA success:

  • Every student should engage with grade-level content, regardless of their starting point.
  • Scaffolding in education helps all learners access complex texts and grow as readers.
  • Effective literacy instruction prepares students for the demands of high school, college, and beyond.

More to explore

If you’re looking for research-backed strategies to support all students with grade-level instruction, check out our free ebook, Every Student at Grade Level: The Case for Grade-Level ELA Instruction in Middle School. It’s packed with actionable insights for teaching middle school ELA effectively and implementing powerful scaffolding techniques.

K–5 personalized reading curriculum to accelerate literacy growth in your classroom

Boost Reading Texas helps K–5 educators meet the needs of every reader with personalized literacy instruction based in the Science of Teaching Reading. Our efficacy data, measured by DIBELS® 8th Edition, shows that Boost Reading helped 26% more students reach benchmark than those not using the program. This Amplify reading curriculum fits into any learning model and provides actionable growth insights along the way.

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Evidence-based personalized instruction

Boost Reading Texas is a student-led supplemental reading curriculum that provides additional time to support other students. It reinforces instruction across all tiers through true differentiation of skill development. It’s your digital assistant in literacy instruction—extending core instruction, addressing remediation needs, and constantly adapting activities to help every reader flourish.

“Your team has taken a weight off my shoulders and I am so grateful and can’t thank you enough! My biggest concern during this time was how can I keep pushing my readers at their level—and giving them what they need—and Boost Reading solved that.”

Jeanine

2nd-grade teacher, Chicago, IL

“My students love the program, and they don’t even realize they are learning some tough concepts. Their reading scores are improving even since the beginning of the year.”

Amber

Junior High ELA teacher, California

“This program is extremely engaging and interactive for each student. They begged to get on Boost Reading and they cried when it was time to log off! This program is a great addition to our curriculum.”

Brittany

2nd grade teacher, Utah

Our approach

Proven efficacy

Did you know that you can supercharge reading growth with Boost Reading Texas? Texas students using Boost Reading Texas are showing phenomenal growth…and we have the data to prove it!

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Instructional cohesion across all tiers

Amplify’s comprehensive early literacy suite—comprising Amplify ELAR Texas core instructionmCLASS Texas assessment and intervention, and Boost Reading Texas personalized practice—provides seamless alignment and a strong Science of Teaching Reading foundation for a Multi-Tiered System of Supports within your classroom. For Amplify ELAR Texas students who start the year below benchmark reading levels, Boost Reading Texas increases the likelihood of meeting benchmark by 34% by end of year, compared to non-Boost Reading users.

Targeted, systematic reading practice for all

The highly adaptive technology creates individual skill maps for each student—whether they’re reading below, at, or above grade level—providing simultaneous remediation and advancement in different skill domains. The program is an effective component of your classroom’s remediation and intervention solutions, with explicit instruction for all students, including those with dyslexia or in special education classes.

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Closing the gap for K–5 multilingual/English learners

Boost Reading Texas’ Spanish literacy partner, Boost Lectura Texas, supports multilingual/English learners (ML/ELs) learning to read in their native language. When used together, the two programs drive literacy growth in English and Spanish and provide teachers with side-by-side reporting on skills progression in both languages.

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Boost Reading efficacy study

Accelerating literacy growth

Download now

What’s included

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Next-generation technology

Boost Reading Texas is constantly adapting to tailor instruction and scaffold foundational skills for students, building proficiency one engaging activity at a time. Students will never get stuck in static practice activities.

Comprehensive skill coverage

The scope and sequence is based on the Science of Teaching Reading and includes explicit instruction in phonics, phonological awareness, comprehension, vocabulary, and all skills critical to fluent and confident reading.

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Screenshot of a student performance dashboard featuring benchmark data, reading proficiency, assessment status, and a graph of decoding skills progress over time—ideal for tracking growth with a K–5 personalized reading curriculum.

Benchmark and growth assessments

Built-in benchmark assessments measure student proficiency at beginning-, middle-, and end-of-year, and Curioso Skill Scans measure monthly growth in students using the program without interrupting engagement.

Easy-to-use growth and proficiency reports

Embedded assessments give teachers actionable insights into students’ reading journeys. Visibility into performance gives teachers peace of mind that students are making meaningful progress in their literacy development.

Boost Reading Teacher Dashboard image shows reporting on student performance from many angles.
A dashboard displays usage data for Reading K–5 Reports, showing a line graph of active users per month under the "Admin Reports Demo District" header.

Administrator and caregiver reports

Administrators and caregivers are welcomed into the student reading journey with data on program usage, reading progress, and skill mastery.

Research-based activities to reinforce skills

Boost Reading Texas alerts educators to trouble spots students encounter in their skill development and offers additional K–5 literacy resources and lessons for teachers to address and fortify reading skills.

Digital interface of a supplemental reading curriculum displaying a student's "trouble spots" in learning, highlighting areas needing focus on "key ideas & details" with activities suggested.
Tech & Learning Awards of Excellence 2023 Back to School badge for Primary Education Winner.

Boost Reading is a proud winner of the Tech & Learning Awards of Excellence: Best for Back to School 2023.

Learn more

Explore more programs based on the Science of Teaching Reading.

Learn more about our related Texas programs at texas.amplify.com.

Four steps administrators can take to shift to the Science of Reading

Four steps administrators can take to shift to the Science of Reading

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Meet the Science of Reading superstars at Windber Elementary

Hardworking teachers, schools, school leaders, and school districts deserve applause every single day. We try to honor educators and their outstanding contributions in as many ways as we can at Amplify—which is why our annual Science of Reading Star Awards is one of our biggest events of the year! We’re currently accepting nominations through Jan. 31Apply now!

This annual educator awards program is a great opportunity to shine a spotlight on the teachers, administrators, and entire schools working to improve student literacy outcomes in communities across the country—just like 2024 Science of Reading Rookie winner Windber Elementary in Windber, PA.

We hope their positive impact on student learning inspires you in your work—and inspires you to nominate a teacher or school for an award next year!

The challenge: Driving success in early literacy skills

Windber Area School District is a small, rural district in central Pennsylvania. Its preK–5 elementary school is Title One and has just over 620 students, 54% of whom are economically disadvantaged.

The district has been dedicated to helping its diverse student population succeed for years, but getting young learners to excel in literacy has always been a challenge.

That’s why, when Principal Charles Beckley stepped in to lead the way, he adopted a fresh approach to early literacy learning experiences. Principal Beckley has worked in education for a decade, first in North Carolina then at Windber Elementary as classroom teacher, dean of students, and now principal. Under his guidance, Windber’s educators worked together to transform the school’s reading program—and offer inspiration for literacy educators everywhere.

Best practices: Embracing a Science of Reading curriculum

Principal Beckley’s leadership did what truly powerful leadership does: inspire and equip others to lead, too.

First, he and his colleagues had to clarify the why of science-based literacy education. “We had to understand the literacy research and the rationale behind why we needed to make the shift,” he recalls. They collaborated with outside experts to get the information they needed, then they focused on teamwork.

“The original stakeholders who led the push for the Science of Reading, they talked to their colleagues, they collaborated. They were understanding of their teams’ needs and wants. It was a team effort and a team approach,” he says.

They knew they were on the right track when the school board offered their full support, aligning everyone behind their vision for research-based literacy education.

Individual teacher awards: Also deserved!

The most powerful drivers of this change, says Beckley, were the teachers: “Our teachers and coaches had the biggest lift because they had to learn the [CKLA] curriculum.” He affectionately calls them “the neurosurgeons of our school,” and emphasizes their ability to pinpoint areas of need and build the grade-level foundational skills students need most, as well as their readiness to embrace change and dedication to professional growth.

Beckley further emphasized his school’s collective effort, which other districts can look to as a model: “Our community has been on board with this,” he says, “and our students have been great.”

The adoption of Amplify Core Knowledge Language Arts (CKLA) was also crucial, providing the teachers with a framework and instructional materials that skillfully combined both skills and content knowledge.

The results have been undeniable. “If you look at our kindergarten,” Beckley says, “at midyear, [we] were 72% on or above benchmark through DIBELS®.”

Windber’s progress is proof of the power of an evidence-based curriculum that nurtures capable and informed readers—and of a community willing to deliver innovative literacy approaches. Their story is one of commitment to research, dedication to student success, development of shared leadership, and access to the right tools and support.

“We know that we’ve done the best for our kids,” Beckley says. “And that’s the most important thing.”

Inspired? Nominate a teacher, school, or district for an award.

We’re looking for our shining 2025 Science of Reading leaders now! Find the specs, our nomination deadline, and more on our Star Awards page. Nominate a teacher for an award.

Powerful, personalized reading instruction that engages students and saves teachers time

Boost Reading is our personalized reading program for grades K–5. Its captivating storylines engage students in powerful reading instruction and practice. Whether students are learning to read fluently or sharpening their comprehension skills, Boost Reading accelerates their growth while freeing educators up to work with small groups or individual students.

We’ve aligned Boost Reading to the Arkansas English Language Arts standards: Boost Reading Skill Games and Texts: Alignment to Arkansas English Language Arts Standards

Collage featuring a cartoon chicken, a little girl reading at her desk, a logo reading "Science of Reading", and two children with toys in a playroom.

Science of Reading-based support for every student

Students come to school with a range of abilities and achieve mastery at different rates. Providing each learner with the specific support they need to progress can be challenging. Enter Boost Reading’s personalized reading literacy program.

“Your team has taken a weight off my shoulders and I am so grateful and can’t thank you enough! My biggest concern during this time was how can I keep pushing my readers at their level—and giving them what they need—and Boost Reading solved that.”

Jeanine

2nd-grade teacher, Chicago, IL

“This program is extremely engaging and interactive for each student. They begged to get on Boost Reading and they cried when it was time to log off! This program is a great addition to our curriculum.”

Brittany

2nd grade teacher, Utah

“My students love the program, and they don’t even realize they are learning some tough concepts. Their reading scores are improving even since the beginning of the year.”

Amber

Junior High ELA teacher, California

Our approach

Leveraging compelling storytelling and the latest research, Boost Reading helps students achieve true mastery of the concepts they need to become strong, life long readers. See the research behind the program.

More than a digital worksheet

Built on the Science of Reading, Boost Reading offers a fresh, modern program that builds on student strengths while adapting to their needs.

Boost Reading - reading curriculum how it works image
A cartoon character stands by a river with a text bubble showing four word options: sand, stand, stamp, champ. The character has selected "stamp." A red creature sits on a box labeled "stamp.

A program students love

Boost Reading offers an out-of-this world learning experience for students. The program’s age-appropriate narratives create a learning experience that leaps off the screen.

The right experience for every student

The program meets all students where they are with powerful individualized instruction and practice, enabling student growth at all reading levels.

Teacher assisting young students with an online reading program using laptops and headphones in a classroom.
An infographic showing that 31% of students were on track in reading before the mCLASS with Boost Reading program, which increased to 48% after, highlighting an improvement in reading skills.

Proven results

Boost Reading works. Efficacy studies show significant growth for students using Boost Reading. In as little as 30 minutes a week, Boost Reading accelerates growth for all students and helps multilingual learners close the gap with their peers. Learn more here.

guide icon

Free white paper

Comprehension processes: The missing link in reading comprehension

Download now

Program highlights

Illustration showing a phonics lesson progression in a K–5 literacy resource: starting with vc, cvc words and blends, moving to early decoding with listed letters. Each step connected by arrows in

Full adaptivity

Students of Boost Reading use digital texts that adapt to their needs via an adaptive algorithm that unlocks each book at the exact right point in a reader’s development.

Personalized instruction

Boost Reading adapts to each reader’s unique needs across 13 skill areas, sending students on their own personalized reading journey. The programs offer both remediation and enrichment through a comprehensive range of instruction—from foundational skills to comprehension to close reading.

Two young girls, smiling and looking at a tablet together in a colorful classroom, engaged in an online reading program.
Una pantalla de computadora portátil que muestra una cuadrícula de íconos de juegos educativos, incluidos títulos como "Word Slide", "Field Observer", "Grumpy Goblins" y "Curioso Crossing".

Engagement engineering

Using the science behind engagement and motivation, Boost Reading is built to deliver compelling narrative experiences that speak to students’ stories of growth and development. This personal connection allows students to directly map their progress in the storyline to their reading effort and growth, helping them understand the value of effort and practice.

Based on the Science of Reading

Boost Reading is built on the latest research in the Science of Reading. It provides the explicit, systematic foundational skills essential for every student—and it goes beyond. It’s the only program that focuses on the things our brain does while we’re reading that allow us to make sense of text—also known as comprehension processes. Learn more about comprehension processes on Science of Reading: The Podcast.

Diagram illustrating the Science of Reading, depicting components of skilled reading in a flowchart. This connects language, vocabulary, sentences, reasoning, and mental model with increasingly automated word, sound, and letter processing
A screenshot of an educational software interface showing a "students" page with tables of student names, progress metrics, and skill assessments for an online reading program on a laptop screen.

Instruction based on student data

Boost Reading features an automatic placement tool that requires no prior assessment. The program is able to pinpoint the most effective starting point for each student and provide them an engaging reading program personalized for their exact individual needs. The program also integrates directly with Amplify’s mCLASS® with DIBELS® 8th Edition assessment as well as other third party assessments.

Reports at every level

Boost Reading provides actionable insights into students’ reading development across 13 literacy skill domains. The program creates reports for classroom teachers, literacy specialists, principals and district leaders, and even parents and caregivers at home.

Screenshot of an online reading program dashboard, showing student reading metrics and instructional recommendations.

Explore more Science of Reading-based programs.

Our programs are designed to support and complement one another. Learn more about our related programs.

See all programs

How differentiation drives success

A collage features a blue-toned figure holding a mask, silhouettes of people, butterflies, and abstract shapes against a colorful background—evoking scenes from an American classroom helping struggling readers learn by teaching phonemes.

I’d like to share a favorite success story from my ELA class that brings home the true power of differentiation.

There was one boy—let’s call him Dipper. (It’s not his real name; I just really like the show “Gravity Falls.”) Dipper was the sweetest, kindest, most wholesome eighth grader I have ever met. He was absolutely precious.

Dipper also suffered from fairly severe academic struggles. He was well below his middle school reading level, struggled to express ideas in writing, and took longer than other students to break down basic concepts. When Dipper first came to me, he couldn’t start or complete a written sentence. He was easily frustrated and often overwhelmed to the point of tears.

Spoiler: By the end of the school year, Dipper was writing multiple paragraphs and starting to connect them with transition sentences.

Here’s how he got that much closer to grade level.

Using sentence starters and scaffolds to build success

My school district had recently adopted Amplify ELA (6–8). At the outset, I placed Dipper at the differentiation level with the most support. When we talked about how a character reacted to a moment in the story, Dipper had corresponding smiley, frowny, and disgusted faces to identify feelings. He had his own lesson plan with example quotes, shortened readings, alternative questions to spark thinking, and sentence starters to help him focus on comprehension instead of getting stuck at the start.

All of these supports helped him comprehend, share his responses, and contribute to discussions.

So far, so good.

But putting those thoughts to paper—or text box—was a completely different hurdle.

Facing academic struggles with patience and persistence

I can’t talk about Dipper without talking about his one-to-one aide. Let’s call her Ms. Mabel. (Again, “Gravity Falls.” I’m telling you, check it out.)

Ms. Mabel had sat beside Dipper during every ELA class since sixth grade. She helped him stay focused and generate ideas, and she even transcribed his answers when needed. Ms. Mabel’s devotion to Dipper’s success was profound and inspirational.

And it made all the difference when it came to Writing Prompts. At first, the prompts were met with tears and tantrums, panic and disdain, all the joyful wholesomeness ripped from Dipper.

Ms. Mabel would console him and redirect his passions to the work. She would point out the sentence starters, help him copy and paste them to the text box, and have him fill in the blanks. Again and again.

And then, little by little: Less panic. Fewer tears. Sentence starters, fill in the blank. Progress.
Sentence starters, fill in the blank. Success.

Day by day, Dipper, stacking wins like pancakes at an all-you-can-eat breakfast buffet, found confidence in himself, his reading, and his writing. He went from barely being able to complete a sentence to writing multiple paragraphs with evidence to support his ideas.

We had seen Dipper grow from a tiny sixth grader into a less tiny eighth grader and had watched his initial tenacity meet with stagnation, frustration, and defeat—until this year. This year with Amplify was different.

Why it takes more than just an awesome teacher

Obviously, you can’t pin success on one factor. Dipper had many supports in place: two blocks in the resource room, a dedicated aide, supportive peers and family, and—above all—a fierce drive and work ethic.

But if you asked Ms. Mabel, she would tell you that Amplify helped, too. She found that the way the questions were broken down allowed her to teach Dipper what he misunderstood better than she had been able to in previous years. We discovered very quickly how much autonomy was built in. It wasn’t rigid. It gave us structure and trust. It made differentiation easier, clearer, and more meaningful.

Sure, maybe Dipper was also maturing. Maybe I’m just an awesome teacher. Or maybe, just maybe, we need every little bit of help we can get to do the hard work in life. Maybe we need someone to push us in the right direction. Maybe we need those guardrails to keep us on course. Some of us can start our own engines, but we all need to be able to race.

Sometimes, we need someone who can help us start our sentences so we can learn how to be the ones to finish them.

More to explore

  • Let’s keep the conversation going! Join the discussion in our Amplify learning communities.
  • Looking for inspiration? Watch Teacher Connections, a video series featuring practical advice and tools straight from fellow educators—our very own Amplify Ambassadors.
  • Dive into our podcast hub to hear from top thought leaders and educators and uncover cross-disciplinary insights to support your instruction.

Inspiring the next generation of Oklahoma scientists, engineers, and curious citizens

Amplify Science is an engaging new core curriculum designed for three-dimensional, phenomena-based learning.

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

Our Instructional Model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation, and importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Resources to support your review

Remote and hybrid learning supports

Oklahoma remote and hybrid overview video

Amplify has launched a new remote learning solution called Amplify Science@Home. Intended to make extended remote learning and hybrid learning easier, Amplify Science@Home includes two useful options for continuing instruction: @Home Videos and @Home Units. 

Amplify Science @Home Videos are recordings of real Amplify Science teachers teaching the lessons. For those teachers who are unable to meet synchronously with their students, the recorded lessons are a great way to keep their students on track and engaged with Amplify Science while at home. These videos will be produced for all K–5 units, and for the first four units of each 6–8 grade level. Their release will be rolling, beginning in August.   

Amplify Science@Home Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @Home Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. @Home Units will be developed for all Amplify Science K–8 units. Each @Home unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @Home Units if synchronous learning or in-class time with students is available.
  • Overviews to send home to families.

Student materials are available in two formats:

  • @Home Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home.
  • Downloadable @Home Packets (PDF) for students without access to technology at home.

Download the Remote and hybrid learning guide.

What’s included

Flexible resources that work seamlessly together

Science articles
The middle school science articles serve as sources for evidence collection and were authored by science and literacy experts at the Lawrence Hall of Science.

Student Investigation Notebooks
Available for every unit, the Student Investigation Notebooks provide space for students to:

  • Record data
  • Reflect on ideas from texts and investigations
  • Construct explanations and arguments

Available with full-color article compilations for middle school units.

Digital student experience
Students access the digital simulations and modeling tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • Conduct hands-on investigations
  • Engage in active reading and writing activities
  • Participate in discussions
  • Record observations
  • Craft end-of-unit scientific arguments

Teacher’s Guides
Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • Classroom Slides
  • Detailed lesson plans
  • Unit and chapter overview documentation
  • Differentiation strategies
  • Standards alignments
  • In-context professional development

Hands-on materials kits
Hands-on learning is at the heart of Amplify Science. Each unit kit contains:

  • Consumable and non-consumable hands-on materials
  • Print classroom display materials
  • Premium print materials for student use (sorting cards, maps, etc.)

Scope and sequence

GRADE
UNIT
Kindergarten
  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water
Grade 1 
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
Grade 2 
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
Grade 3 
  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate
Grade 4 
  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
Grade 5 
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration
Grade
Units

Grade 6
  • Launch: Microbiome
  • Metabolism
  • Metabolism Engineering Internship
  • Thermal Energy
  • Plate Motion
  • Plate Motion Engineering Internship
  • Rock Transformations
  • Weather Patterns
  • Ocean, Atmosphere, and Climate

Grade 7
  • Launch: Harnessing Human Energy
  • Phase Change
  • Phase Change Engineering Internship
  • Magnetic Fields
  • Earth’s Changing Climate
  • Earth’s Changing Climate Engineering Internship
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems

Grade 8
  • Launch: Geology on Mars
  • Earth, Moon, and Sun
  • Light Waves
  • Force and Motion
  • Force and Motion Engineering Internship
  • Traits and Reproduction
  • Natural Selection
  • Natural Selection Engineering Internship
  • Evolutionary History

Oklahoma Academic Standards for Science coverage

Amplify Science was designed from the ground up to meet the Next Generation Science Standards (NGSS), and the Oklahoma Academic Standards for Science (OASS) are closely aligned to the NGSS at K-8. The guidance below is meant to provide support for integrating additional activities that support full coverage of the OASS. You can view the full K–8 OASS correlation here.

Organized by grade level, each section below will outline:

  • additional activities that support 100% alignment to the Oklahoma Academic Standards for Science; 
  • the standard being addressed with the activities; 
  • the recommended placement of the activities within a specific Amplify Science unit; and 
  • PDFs of any accompanying materials that are necessary to implement the activities. 

Standard: 1.ESS3.1: Communicate solutions that will reduce the impact of humans on the land, water, air, and/or other living things in the local environment.

Recommended placementAnimal and Plant Defenses unit, Chapter 1

MaterialsThe Student Book Investigating Monarchs from the unit Needs of Plants and Animals

Investigating Monarchs emphasizes the needs of monarch caterpillars and butterflies and shows what happens when these animals are not able to meet their needs. The book first introduces the life cycle of monarchs, explaining that monarch caterpillars must eat milkweed to survive and change into butterflies. Their summer habitat must have milkweed. The butterflies then migrate a long distance, from the United States to a forest in the mountains of Mexico, where they take shelter in the trees. Their winter habitat must have trees. Scientists discovered that the monarch population in Mexico was greatly reduced because people were cutting down the trees. The forest was then protected, but the monarch population did not recover as expected. Scientists in the United States found evidence that this was because fields with milkweed are being replaced by farms and buildings. This book could be read with the class either before or after Chapter 1 of the Animal and Plant Defenses unit, which focuses on what plants and animals need to do to survive. Students could be asked to reflect on what the monarchs need to survive (including food and shelter), and how human activities impacted the monarchs’ ability to meet those needs. After reading the book, students could brainstorm ideas for how to reduce the impact of humans on the local environment.

Standard: MS-PS4-2: Develop and use a model to describe that waves are reflected, absorbed, or transmitted through various materials.

Recommended placementMetabolism unit, Lesson 3.3, addition to Activity 5 

Materials“What Eyes Can See” science article

As students investigate metabolism and the body systems, the article “What Eyes Can See” should be assigned to deepen their understanding of information processing and sense receptors and connect that understanding to the emerging idea of the interaction of waves with various materials. The article explores how the only thing we can really see is light. Light travels from a light source to the eye, passing through some materials and bouncing off others. Tiny organs inside the eye called rods and cones absorb energy from light, making vision possible. These interactions between light and materials determine our visible world. 

Instructions:

Download the PDF “What Eyes Can See” above and remind students of the Active Reading Guidelines. Before students read the article, invite them to share prior experiences. For example, “Have you ever had an experience where something looked different in one kind of light than in another kind of light? Or where something seemed to appear or disappear when the light changed?”

Standard: MS-PS3-1: Construct and interpret graphical displays of data to describe the relationships of kinetic energy to the mass of an object and to the speed of an object.

Recommended placementHarnessing Human Energy unit, Lesson 1.4, after Activity 4 

MaterialsForce and Motion SimulationActivity instructions and copymasters

In this activity, students use the Force and Motion Simulation to investigate the relationship between kinetic energy, mass, and velocity. 

Instructions

Download the PDF linked above for the Lesson Guide and copymasters needed for the activity. Note that this investigation is typically implemented during the Force and Motion unit. This means the Lesson Guide will contain some incongruous labeling (e.g., unit name), as well as instructions that are out of context and unnecessary for the purposes of addressing this standard at grade 7. We suggest skipping to step 4 of the Instructional Guide to avoid some of this. Your students will get additional exposure to this activity, and indeed the standard as a whole, when they get to the Force and Motion unit in grade 8.

Standards:

  • MS-PS2-3: Ask questions about data to determine the factors that affect the strength of electric and magnetic forces.
  • MS-PS2-5: Conduct an investigation and evaluate the experimental design to provide evidence that fields exist between objects exerting forces on each other even though the objects are not in contact.

Recommended placementForce and Motion unit, after Lesson 1.5 

MaterialsFlextension PDF

This hands-on activity builds on and reinforces students’ understanding of forces that act at a distance, with a focus on electrostatic force. Students explore electrostatic forces, prompted by a set of challenges that they try to accomplish. Next, students generate scientific questions based on their observations. Electrostatic force is less predictable and consistent than magnetic force, and investigating it can be both challenging and intriguing. The purpose of this lesson is for students to gain firsthand experience with electrostatic force and to gain experience generating scientific questions based on observations. You might choose to include this Flextension if you would like your students to have more exposure to electrostatic force, and if you would like to challenge your students to explore and ask questions about a challenging type of force. 

Instructions:

Download the PDF linked above for a detailed Lesson Guide and the copymasters associated with the activity. Note that this activity is typically implemented as an add-on Flextension during the Magnetic Fields unit. This means that you will see some information that is out of context (e.g., placement information, unit title), but the activity itself also works for the purposes of the Force and Motion unit. If you have any questions, please reach out to our support team via the chat icon in your account or help@amplify.com

Explore the Digital Teacher’s Guide

When you’re ready to review, click the orange button below and use your provided login credentials to access the Amplify Science Digital Teacher’s Guide.

Review now

To help familiarize yourself with navigating the digital Teacher’s Guide, watch our navigational guide videos:

Grades K–5:

Grades 6–8:

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We have developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans
  • Information on where to locate standards and other planning materials
  • Recommendations and tips for day-to-day teaching with Amplify programs
  • Support with administering and interpreting assessment data and more

To reach our pedagogical team, use our live chat within your program, call (800) 823-1969, or email edsupport@amplify.com

Timely technical and program support

Our technical and program support is included and available from 7 a.m. to 7 p.m. ET, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

For your most urgent questions:

  • Use our live chat within your program
  • Call our toll-free number: (800) 823-1969

For less urgent questions:

Email support

Contact us

Contact your South Carolina team representatives:
Jeff Rutter
Field Manager
jrutter@amplify.com
(727) 512-8440

Cathy McMillan
Senior Account Executive
cmcmillan@amplify.com
(904) 465-9904

Inspiring the next generation of South Carolina scientists, engineers, and curious citizens

Amplify Science is an engaging new core curriculum designed for three-dimensional, phenomena-based learning.

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

Collage showing students engaged in classroom science activities and two scientific illustrations: a cheetah in foliage and a diagram of clouds and raindrops above a hill.

Our Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation, and importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Explore the Digital Teacher’s Guide

When you’re ready to review, click the orange button below and use your provided login credentials to access the Amplify Science Digital Teacher’s Guide. If you need login credentials, contact Jeff Rutter, jrutter@amplify.com.

Review now

Resources to support your review

Scope and sequence

GRADE
UNIT
Kindergarten
  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water
Grade 1 
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
Grade 2 
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
Grade 3 
  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate
Grade 4 
  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
Grade 5 
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration
Grade
Units

Grade 6
  • Launch: Microbiome
  • Metabolism
  • Metabolism Engineering Internship
  • Thermal Energy
  • Plate Motion
  • Plate Motion Engineering Internship
  • Rock Transformations
  • Weather Patterns
  • Ocean, Atmosphere, and Climate

Grade 7
  • Launch: Harnessing Human Energy
  • Phase Change
  • Phase Change Engineering Internship
  • Magnetic Fields
  • Earth’s Changing Climate
  • Earth’s Changing Climate Engineering Internship
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems

Grade 8
  • Launch: Geology on Mars
  • Earth, Moon, and Sun
  • Light Waves
  • Force and Motion
  • Force and Motion Engineering Internship
  • Traits and Reproduction
  • Natural Selection
  • Natural Selection Engineering Internship
  • Evolutionary History

South Carolina College- and Career-Ready Science Standards 2021

Amplify Science was designed from the ground up to meet the Next Generation Science Standards (NGSS), and the South Carolina College- and Career-Ready Science Standards 2021 are closely aligned to the NGSS at K-8. The guidance below is meant to provide support for integrating additional companion activities that support full coverage of the South Carolina College- and Career-Ready Science Standards 2021.

Organized by grade level, each section below will outline:

  • Additional activities that support 100% alignment to the  South Carolina College- and Career-Ready Science Standards 2021; 
  • The standard being addressed with the activities; 
  • The recommended placement of the activities within a specific Amplify Science unit; and 
  • PDFs of any accompanying materials that are necessary to implement the activities.

Standard: MS-PS1-4: Develop a model that predicts and describes changes in particle motion, temperature, and state of a pure substance when thermal energy is added or removed.
Recommended placementThermal Energy unit, Lesson 4.4, addition to Activity 3
Materials“Liquid Oxygen”
By reading the article “Liquid Oxygen,” which describes how the relationship between attraction and kinetic energy determines when a substance changes phase, students extend their understanding of the possible effects of adding or removing thermal energy to include changes in state (phase). Oxygen is one of the most common elements in the world, but most people are only familiar with oxygen in the gas phase. Because oxygen molecules are only weakly attracted to one another, condensing oxygen is difficult. This article introduces students to molecular attraction and discusses its role in phase change, including how it can be used to turn oxygen from a gas to a liquid.
Instructions:
Download PDFs of the “Liquid Oxygen” and distribute it to students. Before they begin reading, remind students of the Active Reading Guidelines. 

Standard: MS-PS4-2: Develop and use a model to describe that waves are reflected, absorbed, or transmitted through various materials.
Recommended placementWeather Patterns unit, Lesson 4.4, addition to Activity 3
Materials“Harvesting Sunlight”, “Why No One in Space Can Hear You Scream” and “Making Waves at Swim Practice”
After investigating weather patterns, which includes a focus of the effects of energy from sunlight, students extend their learning about light by reading three articles about light and other waves.
“Harvesting Sunlight:” Students read this article to learn about the types of light from the sun that plants use for photosynthesis. The article describes how the sun emits all types of light, but plants can only use certain types of visible light for photosynthesis, mostly red and blue light. Plants also absorb other types of light, and these types of light affect plants in different ways. Students use this information to gather evidence that there are different types of light that can affect a material in different ways.
“Why No One in Space Can Hear You Scream:” Students read this article to learn about how waves are transmitted. Explosions that would be deafening on Earth are silent in space. This is because sound is produced by sound waves and, unlike light waves, sound waves need matter to travel through. Reading about this phenomenon helps students understand the similarities and differences between mechanical and electromagnetic waves.
“Making Waves at Swim Practice:” A practice for the school swim team provides an everyday context for discussing light waves and sound waves in this engaging article. First, the article explores sound waves traveling through different materials–the air, the water of the pool, and even a metal poolside bench. Students discover that sound waves travel at different speeds in different materials. The later part of the article discusses light waves, which also travel at different speeds in different materials. As light waves move from one material to another, they change speed and bend. This bending of light waves is called refraction, and it explains why objects that are partly in the water and partly out of the water (such as the legs of a person sitting on the side of a pool) appear ripply and bent.
Instructions:
Plan one class period for each article. Download PDFs of the  “Harvesting Sunlight,” “Why No One in Space Can Hear You Scream,” and “Making Waves at Swim Practice” articles. For each article, before students begin reading, preview the article and discuss what students already know and what they wonder about the topic, then remind students of the Active Reading Guidelines. 

Standard: MS-PS2-3: Ask questions about data to determine the factors that affect the strength of electric and magnetic forces. MS-PS2-5: Conduct an investigation and evaluate the experimental design to provide evidence that fields exist between objects exerting forces on each other even though the objects are not in contact.
Recommended placementHarnessing Human Energy unit, Lesson 3.4, after Activity 1
Materials“Earth’s Geomagnetism” and “Painting with Static Electricity”
After concluding their investigations of energy transfers and conversions, students read two articles that introduce the topic of forces that act at a distance.
“Earth’s Geomagnetism:” What makes a compass needle point north, no matter what? This article introduces students to Earth’s geomagnetic field and the field lines scientists use to show its direction.
“Painting with Static Electricity:” This article gives students the opportunity to learn about electrostatic fields and forces in the context of spray painting without making a mess. Electrostatic painting systems use electrostatics to draw spray paint toward the object being painted, and nowhere else. Painters charge the object they are painting with a negative charge and the paint with a positive charge. The opposite charges are attracted to one another, causing the paint to move toward the object. This surprising use of electrostatics saves time and paint and keeps things tidy!
Instructions
Plan one class period for each article. Download PDFs of the “Earth’s Geomagnetism” and “Painting with Electricity” articles. For each article, before students begin reading, preview the article and discuss what students already know and what they wonder about the topic, then remind students of the Active Reading Guidelines. 

What’s included

Science articles
The middle school science articles serve as sources for evidence collection and were authored by science and literacy experts at the Lawrence Hall of Science.

Illustration of the indirect effects of overfishing on northern benguela jelly populations displayed on a laptop screen.

Student Investigation Notebooks
Available for every unit, the Student Investigation Notebooks provide space for students to:

  • Record data
  • Reflect on ideas from texts and investigations
  • Construct explanations and arguments

Available with full-color article compilations for middle school units.

Collection of educational books from 'amplify science' on topics including ocean atmosphere, matter and energy ecosystems, and insect interactions, displayed in various angles.

Digital student experience
Students access the digital simulations and modeling tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • Conduct hands-on investigations
  • Engage in active reading and writing activities
  • Participate in discussions
  • Record observations
  • Craft end-of-unit scientific arguments
A digital illustration showcasing a laptop and a tablet displaying complex data analysis software interfaces with graphs and heatmaps.

Teacher’s Guides
Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • Classroom Slides
  • Detailed lesson plans
  • Unit and chapter overview documentation
  • Differentiation strategies
  • Standards alignments
  • In-context professional development
A laptop displaying a website about Mars exploration with a brochure next to it. Both screens show Mars-related images.

Hands-on materials kits
Hands-on learning is at the heart of Amplify Science. Each unit kit contains:

  • Consumable and non-consumable hands-on materials
  • Print classroom display materials
  • Premium print materials for student use (sorting cards, maps, etc.)
A perforated rectangular board, three small containers with different powders, a black battery holder with red wires, and three colored alligator clips are arranged on a white background.

Remote and hybrid learning supports

A person sitting at a desk using a laptop, with a bookshelf containing books, a fish tank, and a soccer ball nearby.

Amplify has launched a new remote learning solution called Amplify Science@Home. Intended to make extended remote learning and hybrid learning easier, Amplify Science@Home includes two useful options for continuing instruction: @Home Videos and @Home Units. 

Amplify Science @Home Videos are recordings of real Amplify Science teachers teaching the lessons. For those teachers who are unable to meet synchronously with their students, the recorded lessons are a great way to keep their students on track and engaged with Amplify Science while at home. These videos will be produced for all K–5 units, and for the first four units of each 6–8 grade level. Their release will be rolling, beginning in August.   

Amplify Science@Home Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @Home Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. @Home Units will be developed for all Amplify Science K–8 units. Each @Home unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @Home Units if synchronous learning or in-class time with students is available.
  • Overviews to send home to families.

Student materials are available in two formats:

  • @Home Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home.
  • Downloadable @Home Packets (PDF) for students without access to technology at home.

Download the Remote and hybrid learning guide.

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We have developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans
  • Information on where to locate standards and other planning materials
  • Recommendations and tips for day-to-day teaching with Amplify programs
  • Support with administering and interpreting assessment data and more

To reach our pedagogical team, use our live chat within your program, call (800) 823-1969, or email edsupport@amplify.com

Timely technical and program support

Our technical and program support is included and available from 7 a.m. to 7 p.m. ET, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

For your most urgent questions:

  • Use our live chat within your program
  • Call our toll-free number: (800) 823-1969

For less urgent questions:

Email support

Contact us

Contact your South Carolina team representatives:
Jeff Rutter
Field Manager
jrutter@amplify.com
(727) 512-8440

Cathy McMillan
Senior Account Executive
cmcmillan@amplify.com
(904) 465-9904

Welcome, Lake Washington reviewers!

Authored by UC Berkeley’s Lawrence Hall of Science, Amplify Science was designed from the ground up for the Next Generation Science Standards to teach students to think, read, write, and argue like real scientists and engineers. The program combines literacy-rich activities with hands-on learning and digital tools to engage students in exploring a compelling real-world phenomenon in every unit.

On this site, you will find easy-to-follow instructions and resources to support your review.

Courses for review

Amplify Science is a blended learning program where students take on the roles of scientists and engineers to solve real-world problems.

Below you will find log in instructions for the digital curriculum.

Teacher account – grades K–5

Click below to preview the curriculum:

Preview the curriculum

Click here to view a materials list.

When you are finished reviewing, sign out of the digital curriculum. Need help?

Student digital resources – grades K–5

Students in elementary school work primarily offline. Students in grades 2 through 5 have access to digital simulations and modeling tools through the Student Apps page. Click below to view the Amplify Science Digital Student Library.

Preview the curriculum

When you are finished reviewing, sign out of the digital curriculum. Need help?

Course structure

Grade K

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Weather

Grade 1

  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy and Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

K-5 student books by unit

Contact your Edmonds representative directly

Patrick Momsen
District Manager
Phone: (541) 207-2148

Email now

Welcome, Seattle reviewers!

Authored by UC Berkeley’s Lawrence Hall of Science, Amplify Science was designed from the ground up for the Next Generation Science Standards to teach students to think, read, write, and argue like real scientists and engineers. The program combines literacy-rich activities with hands-on learning and digital tools to engage students in exploring a compelling real-world phenomenon in every unit.

On this site, you will find easy-to-follow instructions and resources to support your review.

Courses for review

Amplify Science is a K–8 blended learning program where students take on the roles of scientists and engineers to solve real-world problems.

Materials for September 17, 2018 Publisher’s Presentation:
Questions for Publisher’s Presentation
Attachment: Support for English Language Learners

Recommended review process:
1. Bookmark this page for future reference. Consider this your home base, with all the tools you’ll need to conduct your review.
2. Access the Digital Curriculum by clicking on the orange buttons below.
* After 45 minutes of inactivity, you will be logged out of the curriculum. Return to this page to access the digital curriculum.

Below you will find log in instructions divided into two sections:

  • Grades K-5
  • Grades 6-8

Review the Amplify Benchmark Assessments for grades 3–8.

Teacher account – grades K–5

Click below to preview the curriculum:

Preview the curriculum

Click here to view a materials list.

When you are finished reviewing, sign out of the digital curriculum. Need help?

Student digital resources – grades K–5

Students in elementary school work primarily offline. Students in grades 2 through 5 have access to digital simulations and modeling tools through the Student Apps page. Click below to view the Amplify Science Digital Student Library.

Student digital resources

Review the student books online by clicking here.

When you are finished reviewing, sign out of the digital curriculum. Need help?

Teacher account – grades 6–8

Click below to preview the curriculum:

Preview the curriculum

If you have logged in to Amplify Science in the past, you will need to log in with the new credentials above.

Click here to view a materials list.

When you are finished reviewing, sign out of the digital curriculum. Need help?

Student account

Click below to view the Amplify Science Digital Student Library for middle school students:

Student digital resources

Review the student digital library by clicking here.

When you are finished reviewing, sign out of the digital curriculum. Need help?

Course structure

Grade K

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Weather

Grade 1

  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy and Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

K-5 student books by unit

Grade 6

  • Launch:
    Microbiome
  • Metabolism
  • Engineering Internship:
    Metabolism
  • Traits and Reproduction
  • Thermal Energy
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship:
    Earth’s Changing Climate

Grade 7

  • Launch:
    Geology on Mars
  • Plate Motion
  • Engineering Internship:
    Plate Motion
  • Rock Transformations
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems

Grade 8

  • Launch:
    Harnessing Human Energy
  • Force and Motion
  • Engineering Internship:
    Force and Motion
  • Magnetic Fields
  • Light Waves
  • Earth, Moon, and Sun
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary History

Contact your Seattle representative directly

Patrick Momsen
District Manager
Phone: (541) 207-2148

Email now

Welcome, Edmonds reviewers!

Authored by UC Berkeley’s Lawrence Hall of Science, Amplify Science was designed from the ground up for the Next Generation Science Standards to teach students to think, read, write, and argue like real scientists and engineers. The program combines literacy-rich activities with hands-on learning and digital tools to engage students in exploring a compelling real-world phenomenon in every unit.

On this site, you will find easy-to-follow instructions and resources to support your review.

Courses for review

Amplify Science is a blended learning program where students take on the roles of scientists and engineers to solve real-world problems. Below you will find log in instructions for the digital curriculum. As an Edmonds reviewer, you will also have access to Amplify Science middle school units.

Additional Publisher Questions (PDF)

Digital Teacher’s Guide

Click below to preview the curriculum:

Preview the curriculum

If you have logged in to Amplify Science in the past, you will need to log in with the new credentials above.

When you are finished reviewing, sign out of the digital curriculum. Need help?

Student digital resources

Students in elementary school work primarily offline. Students in grades 2 through 8 have access to digital simulations and modeling tools through the Student Apps page. Click below to view the Amplify Science Digital Student Library

Preview the curriculum

When you are finished reviewing, sign out of the digital curriculum. Need help?

Course structure

Grade K

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Weather

Grade 1

  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy and Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

Grade 6

  • Launch:
    Microbiome
  • Metabolism
  • Engineering Internship:
    Metabolism
  • Traits and Reproduction
  • Thermal Energy
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship:
    Earth’s Changing Climate

Grade 7

  • Launch:
    Geology on Mars
  • Plate Motion
  • Engineering Internship:
    Plate Motion
  • Rock Transformations
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems

Grade 8

  • Launch:
    Harnessing Human Energy
  • Force and Motion
  • Engineering Internship:
    Force and Motion
  • Magnetic Fields
  • Light Waves
  • Earth, Moon, and Sun
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary History

Contact your Edmonds representative directly

Patrick Momsen
District Manager
Phone: (541) 207-2148

Email now

Welcome, Achieve reviewers!

Authored by UC Berkeley’s Lawrence Hall of Science, Amplify Science was designed from the ground up for the Next Generation Science Standards to teach students to think, read, write, and argue like real scientists and engineers. The program combines literacy-rich activities with hands-on learning and digital tools to engage students in exploring a compelling real-world phenomenon in every unit.

On this site, you will find easy-to-follow instructions and resources to support your review.

  • Un niño que usa gafas de seguridad examina un objeto cerca de su cara mientras sostiene un pequeño trozo de material blanco.
  • Dos niñas en un salón de clases realizan un experimento científico con agua y una pajita, una sostiene una taza y la otra observa. Las hojas de trabajo y los materiales están sobre la mesa.
  • Un oso polar se encuentra sobre un pequeño témpano de hielo en el océano con un sol naranja en el cielo y lejanas montañas heladas al fondo.
  • Mariposa en vuelo sobre plantas en macetas sobre una mesa, con una oruga en un tallo frondoso cerca, una regadera roja a la izquierda y un paisaje brillante al fondo.

Units for review

Amplify Science is a blended learning program where students take on the roles of scientists and engineers to solve real-world problems.

As a reviewer, you’ll have access to three Amplify Science units:

  • Grade 1: Plant and Animal Defenses
  • Grade 3: Weather and Climate
  • Middle School: Light Waves

Below you will find log in instructions for the digital curriculum.

Teacher account

Click the orange button and choose “Log in with Amplify” using the login information below:

Username: t1.achievereview@tryamplify.net
Password: AmplifyNumber1

Preview the curriculum

Click here to view the full program guide.

If you have logged into Amplify Science in the past, you will need to log in with the new credentials above.

When you are finished reviewing, sign out of the digital curriculum. Need help?

Grade K

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Weather

Grade 1

  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy and Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

Books

K-5 Student Books by unit

Earth and Space Science

  • Launch: Geology on Mars
  • Plate Motion
  • Engineering Internship: Plate Motion
  • Rock Transformations
  • Earth, Moon, and Sun
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship: Earth’s Changing Climate

Life Science

  • Launch: Microbiome
  • Metabolism
  • Engineering Internship: Metabolism
  • Traits and Reproduction
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary History

Physical Science

  • Launch: Harnessing Human Energy
  • Force and Motion
  • Engineering Internship: Force and Motion
  • Magnetic Fields
  • Thermal Energy
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions
  • Light Waves

Welcome to Amplify CKLA!

Amplify Core Knowledge Language Arts (CKLA) is a cutting-edge and effective core ELA program for students in grades K–5. It was developed in partnership with the Core Knowledge Foundation, features proven evidence-based instructional practices, and was specifically designed to help teachers implement Science of Reading principles.

Note: We’re continually adding information to this site, including specific details regarding our alignment with your non-negotiables. Keep checking back with us between now and April 20, 2023.

Getting Started

On this site, you’ll find a variety of resources designed to support your review and evaluation of the program. Before you dive in, watch the Orientation Overview and Program Overview videos below to learn about CKLA’s alignment to CCSD’s ELA adoption requirements, as well as where to find key program resources.

[Video] Orientation Overview

[Video] Program Overview

In the video below, learn about CKLA’s structure and materials, as well the research behind the curriculum.

Evidence-Based

[Video] Pedagogical Overview with Simple View of Reading

In the video below, Amplify’s Chief Academic Officer Susan Lambert shares the big picture of CKLA, and explains why it was created and the impact it’s making across the country. Below are a few portions of the video that you may find particularly helpful as you conduct your review.

  • 0-1:00 Why CKLA?
  • 1:00-4:40 How CKLA was built on the Simple View of Reading
  • 4:40-8:00 How to review the CKLA Components
  • 8:00-end Teacher Testimonial

[Features] Supporting the Simple View of Reading

Built out of the latest research in the Science of Reading, Amplify CKLA delivers explicit instruction in both foundational literacy skills (systematic phonics, decoding, and fluency) and background knowledge in grades K–2 with an integrated approach to explicit instruction in grades 3–5.

Review this Science of Reading toolkit to learn more about the Science of Reading best practices integrated throughout CKLA.

See our Science of Reading solutions in action! Click here to see a real example of how one Ohio district is implementing and educating their K–8 community on the Science of Reading as a response to Ohio’s Plan to Raise Literacy Achievement Initiative.

Great reading instruction starts with helping kids develop great decoding skills. By building a solid foundation of phonological awareness and phonics, reading the words on the page becomes automatic so that comprehension and critical thinking can happen. Our instruction is supported by:

  • Step-by-step lessons with multisensory approaches, clear lesson objectives, and embedded formative assessments.
  • Decodable books and student readers with ebook and audiobook versions that feature engaging plots and relatable characters.
  • An engaging sound library with fun songs and videos that develop phonological awareness.
  • An interactive Vocab App featuring engaging activities with immediate feedback and automated, customized instruction based on student performance.

Students build grade-appropriate subject-area knowledge and vocabulary in history, science, literature, and the arts while learning to read, write, and think creatively and for themselves. Our instruction is supported by:

  • Knowledge builders that provide a quick overview of each domain with its key ideas.
  • Interactive Read-Alouds designed to build knowledge and vocabulary.
  • Content-rich anchor texts that support students as they tackle increasingly complex text and sharpen their analytical skills.
  • Social and emotional learning paired with lessons in civic responsibility.

Easy-to-Use Materials

Amplify CKLA offers a number of digital and multimedia resources to support instruction and enhance the teacher and student experience.

  • Amplify CKLA Digital Experience Site: All teacher and student materials are posted on this site for planning and information purposes, including Teacher Guides, Readers, Activity Books, Ancillary Materials, videos, additional resources, and links to other useful sites, such as the Professional Learning site.
  • The Professional Learning Site: This site includes training materials, best practices, and other resources to develop program expertise. Access professional development anywhere, anytime.
  • Intervention Toolkit: The Intervention Toolkit provides easy-to use resources to assist teachers in filling gaps in students’ foundational skills. Teachers will find hundreds of activities to support phonics, fluency, comprehension, handwriting, and other key skills.
  • The Science of Reading: The Podcast: Hosted by Susan Lambert, The Podcast delivers the latest insights from researchers and practitioners in early reading. Each episode takes a conversational approach and explores a timely topic related to the Science of Reading.

In addition to the videos below, our CKLA Components Guide can be a helpful tool as you explore the materials provided within your sample tubs.

[Video] Physical Materials Walkthrough

As you explore your physical samples, the material walkthrough video below can be a helpful resource. In particular, we suggest watching the following portions of the video.

  • 0-4:38 CKLA components for K–2
  • 4:38-7:00 CKLA components for 3–5
  • 7-7:30 CKLA Program Guide
  • 10:12-13:20 CKLA’s Teacher Resource Site

Note: The below video covers both our K-5 program (Amplify CKLA) as well as our 6-8 program (Amplify ELA).

[Video] Digital Materials Walkthrough

In the video below, learn about CKLA’s digital tools for teachers and students across both classroom and asynchronous environments.

As you prepare to explore our digital platform, be sure to watch and refer to the video below.

Diverse Texts

In Amplify CKLA, texts serve a variety of purposes, from building background knowledge, vocabulary, and comprehension to building decoding and fluency skills.

In grades K–2, instruction is segmented between two strands: Knowledge and Skills.

  • Reading within the Knowledge Strand is centered around authentic read-alouds and trade books that are intentionally sequenced to build content knowledge and vocabulary in specific domain topics around literature, history, science, and the arts. Because research shows that students’ listening comprehension outpaces their reading comprehension until their early teens, Amplify CKLA strategically uses read-aloud text in this strand, allowing students to focus their cognitive energy on gaining meaning from the words and better understanding from the images.
  • Reading within the Skills Strand centers around carefully crafted Student Readers that teach students how to read. Structured as chapter books, these readers are 100% decodable and were developed to align with Amplify CKLA’s scope and sequence for phonics, directly connecting instruction to student practice in connected texts. Students use the Readers to practice decoding, fluency, and comprehension during shared reading lessons, targeted close reading sessions, in small groups, and independently.

In grades 3–5, integrated units bring the Skills and Knowledge strands together as students become increasingly automatic and strategic in their word recognition and language comprehension skills. Student reading and comprehension activities involve a variety of reading materials:

  • Authentic Read-Alouds and trade books ensure students encounter a variety of perspectives as they use these complex text to increase their knowledge while practicing vocabulary and listening comprehension skills.
  • Student Readers connect to each theme and are designed to increase in complexity over time, providing a continual challenge as students’ reading and listening comprehension skills develop and strengthen throughout the year.
  • Novel Guides provide teachers a flexible option for extending authentic reading and text-based activities in the classroom using award-winning and acclaimed novels.
  • ReadWorks articles give students access to additional high-quality texts aligned to both Amplify CKLA knowledge topics and the topics outlined in the Common Core State Standards.

Decodable Readers at Grades K–2

Our Decodable Readers are designed to progress in skills, mirroring the scope and sequence of instruction, which allows students to immediately apply what they are learning to 100% decodable text. More specifically, our decodables:

  • Are uniquely designed to provide intensive practice with the CKLA code while students read compelling and engaging stories and informational texts for the first time.
  • Gradually introduce students to “tricky” spelling concepts, such as different sounds that use the same letter code.
  • Increase in text complexity (i.e., content, length, and vocabulary) as students progress through the grades.
  • Include fiction and nonfiction text.
  • Are available as ebooks and audiobooks.

Below, you can see how students grow from year-to-year across grades K–2.

Student Readers at Grades 3–5

By grades 3–5, students have mastered the basics of decoding and are hungry to use what they’ve learned to reach out to the world. Although Read-Alouds remain an important part of lessons, students are also encouraged to practice independent reading starting in grade 3 with the support of carefully crafted Student Readers. These readers are chock-full of various text types, cultural stories, and a blend of fiction and nonfiction texts that are tied to and support the overarching theme of the unit.

Read-alouds

Authentic literature exposes students to a variety of text types and perspectives to deepen their knowledge of fascinating topics in social studies, science, literature, and the arts. Authentic texts support text-to-self, text-to-world, and text-to-text connections for readers.

Trade books

Our optional Trade Book Collection (and suggested list of additional trade books) align with our grade-level topics, and extend the knowledge students are learning through an authentic text.

Novel Guides

Novel Guides bring students beyond the CKLA curriculum. We provide fifteen full days of instruction on contemporary trade books, as well as writing prompts that help students navigate the authentic literature they love.

ReadWorks

Amplify CKLA and ReadWorks® have partnered to deliver high-quality texts curated to support the Amplify CKLA Knowledge Sequence and to extend student learning. Texts include high-interest nonfiction articles in topics in social studies, science, literature, and the arts. These texts are accompanied by vocabulary supports and standards-aligned formative assessment opportunities. Teachers can monitor their students’ progress using the ReadWorks reporting features.

Reading resources

The following resources may be helpful as you explore our approach to reading and the role that diverse texts play in the program.

Writing

CKLA is rich with opportunities for students to develop, practice, and hone their writing skills. While the shape of writing instruction looks slightly different at each grade level, a commonality across all grades K–5 is that writing isn’t taught in isolation. Rather, it’s embedded within the context of each unit, and is connected to what students read.

At Grades K–2, writing takes place in both the Skills and Knowledge strands.

  • Explicit instruction in writing skills (such as sentence structure) and handwriting takes place in the Skills Strand, and is tied to the decodable readers used within each unit.
  • Extended writing and writing process activities take place in the Knowledge Strand.

At Grades 3–5, writing is embedded through the integrated units.

  • Across each unit, students work on smaller, more discrete writing skills alongside their Student Reader. These skills eventually culminate at the end of each unit in the form of a writing project.
  • In 4th and 5th grades, we expand writing even further with the addition of Poetry units.

Writing and text-dependent questions

The overwhelming majority of questions, tasks, and assignments in CKLA materials are text-dependent. Every CKLA unit and domain is based around key texts that are either read aloud, with a peer, or independently. These readings are followed by class discussions where students are expected to refer to these texts when answering literal, inferential, and evaluative questions, both orally during class discussions and through written responses.

  • Literal questions assess students’ recall of key details from the text. These are text-dependent questions that require students to paraphrase and/or refer back to the portion of the text where the specific answer is provided.
  • Inferential questions ask students to infer information from the text and to think critically. These text-dependent questions require students to summarize and/or reference the portions of the text that lead to and support the inference they are making.
  • Evaluative questions ask students to build on what they have learned from the text using analytical and application skills, often to form an opinion or make a judgment. These questions require students to paraphrase and/or cite the textual evidence that substantiates their argument or opinion.

In addition, students are often asked to generate additional questions based on the texts. Students further demonstrate understanding in writing by applying what they have learned and providing evidence from the text to back up their answers and opinions. For example, Grade 3 students learning about sea exploration write a paragraph from the perspective of a sailor on John Cabot’s ship, stating their opinion of whether the hardships they experienced are worth the adventure or glory and citing examples from the text to support their response. Grade 5 students studying the Adventures of Don Quixote write a four-paragraph persuasive essay arguing whether they believe Don Quixote’s good intentions justify his often calamitous actions, using reasons and evidence from the text to support their claims.

Writing with authentic literature

Novel Guides are designed around authentic texts students love. They not only help students foster a love for reading, they also present authentic opportunities for students to express themselves through writing. Novel Guides provide daily text-based writing and discussion through five activity types:

  • Ask contains questions for discussion, reflection, or brief written responses. These questions cover information all students should understand as they read the text.
  • Explore prompts offer brief research opportunities centered around items mentioned in the text.
  • Imagine activities promote creativity and further reflection.
  • Observe items ask students to take notes or make other kinds of observations about what they have read.
  • Understand questions push students to explore connections to the text.

Writing and enrichment

Writing tasks throughout the program provide almost limitless opportunities for extension. Feedback from the teacher, peers, and self-reflection provide students opportunities to strengthen their writing. For example, advanced students can be encouraged to:

  • Use more complex and unusual descriptive vocabulary.
  • Incorporate figurative language into their writing.
  • Write multi-clause sentences with more complex joining words.
  • Create longer or richer opinion, explanatory, and narrative pieces.
  • Evaluate the use of informational textual characteristics and use in their own writing (e.g., headers, bullets).

Writing resources

The following resources may be helpful as you explore our approach to writing and how writing develops across the program.

Access the program

Explore as a teacher

Before logging in, watch this brief video on navigating the CKLA Teacher Resource Site.

Ready to explore as a teacher? Follow these instructions:

  • Click the CKLA Teacher Resource Site button below.
  • Select Log in with Amplify.
  • Enter the username: t1.ccsd-k5-ckla@demo.tryamplify.net
  • Enter the password: Amplify1-ccsd-k5-ckla
  • Click the CKLA Teacher Resource icon
  • Select a grade level
CKLA Teacher Resource Site

Explore as a student

Before logging in, watch this brief video on navigating the CKLA Student Hub.

Ready to explore as a student? Follow these instructions:

  • Click the CKLA Teacher Resource Site button below.
  • Select Log in with Amplify.
  • Enter the username: s1.ccsd-k5-ckla@demo.tryamplify.net
  • Enter the password: Amplify1-ccsd-k5-ckla
  • Click the CKLA Teacher Resource icon
  • Select a grade level
CKLA Student Hub

Check out these additional resources

Nevada submission resources:

CKLA review resources:

Welcome to Amplify Science!

This site contains resources designed to support Clark County’s use of Amplify Science for grades K–8. Check back for exciting updates!

A woman holding a glass, overlaid with illustrations of a telescope, rocket, polar bear, and rain.

Program Introduction

Learn more about Amplify Science

Click the buttons below to explore the Amplify Science Program Guide. You can access the full digital Teacher’s Guide from the Program Guide to explore the program.

Grades K–8

Clark County Training Sessions – Reference Materials

Participant Notebooks:

Planning Resources:

2021-2022 Session Materials

New Teacher Training Part 1

Unit 2: Standard Curriculum Relaunch / Guided Planning

2020-2021 Session Materials

New Teacher Orientation Part I

Returning and New Teacher Part II

Orientation Sessions

Remote Learning Session

Unit 2 Unpacking Session Materials

Unit 2 Part II

Unit 3

2021-2022 Session Materials

Unit 2: Standard Curriculum Relaunch / Guided Planning

New Teacher Training Part 1

2020-2021 Session Materials

New Teacher Orientation Part I

Returning and New Teacher Part II

Orientation Sessions

Remote Learning Session

Unit 2 Unpacking Session Materials

Unit 2 Part II

Unit 3

2021-2022 Session Materials

Unit 2: Standard Curriculum Relaunch / Guided Planning

New Teacher Training Part 1

2020-2021 Session Materials

New Teacher Orientation Part I

Returning and New Teacher Part II

Orientation Sessions

Remote Learning Session

Unit 2 Unpacking Session Materials

Unit 2 Part II

Unit 3

2021-2022 Session Materials

Unit 2: Standard Curriculum Relaunch / Guided Planning

New Teacher Training Part 1

2020-2021 Session Materials

New Teacher Orientation Part I

Returning and New Teacher Part II

Orientation Sessions

Remote Learning Session

Unit 2 Unpacking Session Materials

Unit 3 Unpacking the Unit Phenomenon

Unit 4 Unpacking Amplify Science for Hybrid Learning

2021-2022 Session Materials

Unit 2: Standard Curriculum Relaunch / Guided Planning

New Teacher Training Part 1

2020-2021 Session Materials

New Teacher Orientation Part I

Returning and New Teacher Part II

Orientation Sessions

Remote Learning Session

Unit 2 Unpacking Session Materials

Unit 3 Unpacking the Unit Phenomenon

Unit 4 Unpacking Amplify Science for Hybrid Learning

2021-2022 Session Materials

Unit 2: Standard Curriculum Relaunch / Guided Planning

New Teacher Training Part 1

2020-2021 Session Materials

New Teacher Orientation Part I

Returning and New Teacher Part II

Orientation Sessions

Remote Learning Session

Unit 2 Unpacking Session Materials

Unit 3 Unpacking the Unit Phenomenon

Unit 4 Unpacking Amplify Science for Hybrid Learning

2021-2022 Session Materials

Unit 2 Metabolism Engineering Internship: Unit Internalization / Guided Planning

2020-2021 Session Materials

Unit 2 Unpacking

Unit 2 Metabolism

2021-2022 Session Materials

Gr 7 Scope and Sequence 2021-22

2020-2021 Session Materials

Navigating Program Essentials

Launch Unit: Guided Internalization with @Home Resources

Unit 2 Session Materials

2021-2022 Session Materials

Gr 8 Scope and Sequence 2021-22

2020-2021 Session Materials

Grade Level Orientation and Refresher

[Synchronous Session Agenda] LAUSD MS, Summer 21

Navigating Program Essentials

[Asynchronous Session Agenda] LAUSD MS, Summer 21

Remote Learning Session (6-8)

Grade 6

Gr 6 Scope and Sequence 2021-22

Grade 7

Gr 7 Scope and Sequence 2021-22

Grade 8

Gr 8 Scope and Sequence 2021-22

New! Lesson Prep Videos

Unit 1

Grade 3 Lesson Prep Videos can be found in the Resources section in the Amplify Science- Elementary group in Schoology. Access code: W4PK-W466-63F5B

Grade 4 Lesson Prep Videos can be found in the Resources section in the Amplify Science- Elementary group in Schoology. Access code: W4PK-W466-63F5B

Grade 5 Lesson Prep Videos can be found in the Resources section in the Amplify Science- Elementary group in Schoology. Access code: W4PK-W466-63F5B

Remote Learning Resources

We’ve created some guidance on resources you can send home with students and ways for you to adapt our K-5 or 6-8 curriculum for remote learning.

Learn more at Remote Learning Resources for Amplify Science

Onboarding: What to expect

Welcome to Amplify Science! To help you know what’s coming next, we created the following visual that outlines the steps of the onboarding process. You can use it as a reference.

Icons illustrating steps for teachers: attend workshop, log into guide, gather materials, ensure student access to tools, prepare lesson.

Onboarding videos

To start using Amplify Science quickly in your classroom, check out the following onboarding videos. They cover what you need to know to get started fast, from unpacking materials to logging in and navigating the digital Teacher’s Guide.

Unpacking your first hands-on materials kit

The following videos give you a quick look into our Amplify Science classroom kits. For each grade level, we have a video for the first unit in the scope and sequence, and we show you how to unpack the kits for all the units.

A woman in a classroom setting demonstrates a large book with illustrations while sitting at a desk. She gestures towards the book, which is held open. An orange play button overlay is centered on the image.

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We have developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans
  • Information on where to locate standards and other planning materials
  • Recommendations and tips for day-to-day teaching with Amplify programs
  • Support with administering and interpreting assessment data and more

To reach our pedagogical team, use our live chat within your program, call (800) 823-1969, or email edsupport@amplify.com

Timely technical and program support

Our technical and program support is included and available from 7 a.m. to 7 p.m. ET, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

For your most urgent questions:

  • Use our live chat within your program
  • Call our toll-free number: (800) 823-1969

For less urgent questions:

Email support

Oregon Math State Review for 9–12

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Oregon Math State Review for 6–8

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San Diego Caregivers — Welcome to Amplify Desmos Math!

Welcome to the Amplify Desmos Math Caregiver Hub for San Diego USD. We’re excited to partner with San Diego USD teachers, principals, and district leaders to provide your student with exceptional opportunities to learn math. We designed this hub to help you in supporting your student along their math journey this year.

Introducing Amplify Desmos Math

Amplify Desmos Math is a new core math curriculum built for grades 6, 7, 8. Designed to help students learn math in a way, Amplify Desmos Math uses a student-centered approach to instruction, which has been proven to significantly increase math learning.

In every lesson, Amplify Desmos Math poses engaging and relevant problems to solve, giving students daily opportunities to think critically, work collaboratively, and actively participate in their own learning.

Amplify Desmos Math was built upon the highly rated Illustrative Mathematics curricula: IM K-12 Math™️, which earned an all-green score on EdReports.

About student-centered math instruction

Student-centered instruction may look different from the way students have learned math for decades, and maybe even the way you learned math. Instead of memorizing formulas and tricks, student-centered learning focuses on giving student opportunities to figure out how math works. Plus, research shows that students and teachers alike prefer this method, and teachers report that student-centered instruction has helped their students learn more math.

This way of learning helps students:

  • Understand how math concepts work.
  • Remember what they learn in class and apply their knowledge to new situations.
  • Perform better on standardized tests and have more growth in their grades than their peers who learn through other methods.
  • Learn to communicate in writing and verbally, understand and challenge the opinions of others, and build confidence in solving new problems.
  • Develop key skills for success in college and the workplace, like using technology, completing projects independently and with others, and persevering through difficult problems.

What materials do students use?

Amplify Desmos Math supports blended learning with supportive print materials and a unique digital experience. In addition to a consumable Student Edition, students are invited to use our interactive online platform to solve open-ended tasks and challenging problems.

Here are some key highlights of the digital platform:

  • Digital activities that allow students to explore and make sense of math
  • Digital calculator and virtual manipulatives that support students of all levels
  • Immediate feedback that guides students in understanding challenging concepts
  • Ability to access instructional materials in English or Spanish

With access to their own special online dashboard, teachers can monitor students’ work in real time, making sure they get the exact support that they need at every part of the lesson.

What does a lesson look like?

Students in an Amplify Desmos Math classroom can be seen (and heard!) — asking questions, debating answers, justifying their thinking, grappling with problems, and working together and independently.

In class, your student will spend their time working on challenging problems while the teacher acts as a guide, highlighting different strategies for solving problems and helping students to understand the reasoning behind the math they do in class. Your student will be pushed to think more deeply about the math in their class as the teacher and other students question them on why their ideas make sense. Research has proven that this method helps students become better problem solvers, critical thinkers, and have a stronger conceptual understanding of what they are learning.

Here’s what a typical Amplify Desmos Math lesson includes:

  • Warm-up: A short, attention-getting problem to get students interested in the lesson
  • Activities: 1-3 mini-activities that challenge students’ problem-solving skills
  • Synthesis: Discussion to review and bring together the important concepts from the lesson
  • Exit Ticket and Reflection: Questions for students to show what they know from the lesson
  • Practice: Additional problems your student’s teacher may assign for classwork or homework

How can families support math learning at home?

Find the math in everyday life

Relate math to daily activities at home, whether it be baking, grocery shopping, or planning for a road trip. Your student can help you figure out the price of an item after a coupon, cut a recipe in half, or figure out how much gas you’ll need to make it to your destination. Encourage your student to point out ways that your family uses math in your daily tasks.

Review practice problems together

Your student’s teacher may assign practice problems at the end of each lesson for classwork or homework. Ask your student to walk you through how they solved each problem, or talk about any parts that were challenging for them.

Remember getting stuck is okay

Emphasize that getting stuck is part of the process and a necessary part of learning. Many students (and adults!) fear making mistakes, however, research shows that making mistakes helps your brain grow more. When your student gets stuck on a problem, encourage them to try different strategies, even if they are not sure if they are right.

Use our Unit Summaries for Families

We’ve created a Family Resource for every unit of the program that provides a summary of key concepts plus examples for how to work through problems.

Within each of the grade-level links below, you’ll find a Family Resource document for each unit, in both English and Spanish.

Unit 1: Area and Surface Area

Unit 2: Introducing Ratios

Unit 3: Rates and Percentages

Unit 4: Dividing Fractions

Unit 5: Arithmetic in Base Ten

Unit 6: Expressions and Equations

Unit 7: Rational Numbers

Unit 8: Data Sets and Distributions

Unit 1: Scale Drawings

Unit 2: Introducing Proportional Relationships

Unit 3: Measuring Circles

Unit 4: Percentages

Unit 5: Rational Number Arithmetic

Unit 6: Expressions, Equations, and Inequalities

Unit 7: Angles, Triangles, and Prisms

Unit 8: Probability and Sampling

Unit 1: Rigid Transformations and Congruence

Unit 2: Dilations and Similarity

Unit 3: Linear Relationships

Unit 4: Linear Equations and Systems of Linear Equations

Unit 5: Functions and Volume

Unit 6: Exponents and Scientific Notation

Unit 7: Irrationals and the Pythagorean Theorem

Unit 8: Associations in Data

Note: The below links are for our Volume 2 units, which most students are working in currently. Additional units will be coming soon!

Unit 1: Coming Soon!

Unit 2: Coming Soon!

Unit 3: Fractions and Decimals

Unit 4: Expressions and Equations

Unit 5: Proportional Relationships

Unit 6: Percentages

Unit 7: Positive and Negative Numbers

Unit 8: Describe Data

Note: The below links are for our Volume 2 units, which most students are working in currently. Additional units will be coming soon!

Unit 1: Coming Soon!

Unit 2: Coming Soon!

Unit 3: Coming Soon!

Unit 4: Linear Relationships and Systems of Linear Equations

Unit 5: Functions

Unit 6: Associations in Data

Unit 7: Volume and Surface Area

Unit 8: Exponent and Scientific Notation

Unit 9: Pythagorean Theorem and Irrational Numbers 

Listen to our podcast

Our Math Teacher Lounge is a biweekly podcast created specifically for K–12 math teachers. In each episode, co-hosts Bethany Lockhart Johnson (@lockhartedu) and Dan Meyer (@ddmeyer) chat with expert guests, taking a deep dive into the math and educational topics.

From time-to-time, the topic of an episode is perfect for families. For example, the episode below features Dr. Marjorie Schaeffer. She discusses what causes math anxiety, math hacks, and how the right math technology can make an incredible impact in children and family members who struggle with math anxiety.

Listen today and don’t forget to grab your MTL study guide to track your learning and make the most of this episode!

Download Transcript

How do families access the program at home?

Your student will have access to all learning, practice, and assessment materials through the Amplify platform. Students can access the digital curriculum in school and at home by following these simple instructions.

  • Click the Amplify Desmos Math button.
  • Select Log in with Amplify.
  • Enter this username and password provided by your student’s teacher.
  • Select the desired grade level.
Login to Amplify Desmos Math

Evaluate Online

To review Amplify Science online, click the orange button below.

Evaluate Program

Once you’re logged in, watch our navigational guide videos to review the digital Teacher’s Guides:

Grades K–5:

Grades 6–8:

Phenomenon-Based Learning

Phenomenon-based teaching and learning deeply engages students. By positioning students as scientists and giving them questions, not answers, Amplify Science delivers results in and beyond science class.

This represents a shift from asking students to learn about science to supporting students in figuring out the science.

Flowchart of a learning unit divided into four chapters, showing stages of student engagement from introduction to application, with assessments indicated at various points.

Instructional Model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

Three columns of text describing educational programs: "students write", "students talk", and "students read" with icons symbolizing activities like experiments, discussions, and analysis.

New Program Enhancements

Amplify Science is unique because we continually add new content, tools, and resources, which will help us meet Milwaukee Public Schools’ needs as they evolve. In a world where things are changing by the minute, Amplify commits to providing MPS with the most up-to-date content throughout the life of the adoption.

We want to save you time, extend your reach, and support your efforts to deliver the types of rigorous and riveting learning experiences you know your students deserve.

Some of our latest enhancements include:

  • Amplify Science@Home, a new solution to improve synchronous and asynchronous remote learning
  • Classroom Slides offered in both PowerPoint and Google Slides formats, to save teachers time
  • Spanish Digital Simulations and Spanish Classroom Slides, to complete our full Spanish digital suite
  • Administrator Reports, which can be easily exported for integration with learning management systems

To learn more about our newest features, click here.

Science and Literacy

At Amplify, we believe science and literacy should truly integrated, and not just connected.

Even the youngest readers are supported in their journeys to obtain, evaluate, and communication information about the natural world through Read-Alouds, Shared Reading, and Partner Reading.

To learn more about Amplify Science and its commitment to literacy-rich science instruction, click here.

Spanish Resources

Amplify Science is committed to providing support to meet the needs of all learners, and includes multiple access points for Spanish-speaking students. Our Amplify Science materials were created with the same rigor of scientific accuracy, rich content and language, and literacy development, and materials were developed in conjunction with Spanish-language experts and classroom teachers.

Some of our Spanish resources include:

  • Classroom Lesson Slides
  • Spanish Digital Simulations
  • Teacher Digital Licenses
  • Student Digital Licenses
  • All Student-Facing Print Materials

To see a complete list of Spanish print and digital resources, click here.

Access and Equity

Amplify Science provides all students with access to intellectually stimulating, rigorous, and culturally relevant science and engineering education. We value and build on the rich assets that each student brings to class. You can read more about our commitment to equity, diversity, and inclusion here.

To learn how we commit to culturally and linguistically responsive teaching, choose a link below.

Scope and Sequence

GRADE UNITS
Kindergarten
  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water
Grade 1
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
Grade 2
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
Grade 3
  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate
Grade 4
  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
Grade 5
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration
GRADE UNITS

Grade 6: Earth Science
  • Launch: Geology on Mars
  • Plate Motion
  • Plate Motion: Engineering Internship
  • Rock Transformations
  • Earth, Moon, and Sun
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Earth’s Changing Climate: Engineering Internship
Grade 7: Life Science
  • Launch: Microbiome
  • Metabolism
  • Metabolism: Engineering Internship
  • Traits and Reproduction
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Natural Selection
  • Natural Selection: Engineering Internship
  • Evolutionary History

Grade 8: Physical Science 
  • Launch: Harnessing Human Energy
  • Force and Motion
  • Force and Motion: Engineering Internship
  • Magnetic Fields
  • Thermal Energy
  • Phase Change
  • Phase Change: Engineering Internship
  • Chemical Reactions
  • Light Waves

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify. This partnership extends to 2032, allowing us to continuously improve our program and provide our customers with the most up-to-date enhancements, free of charge. Get a glimpse at our latest back-to-school updates here.

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

Three blue panels describing educational activities: "hands-on science" with lab experiments, "discuss" with collaborative learning, and "read" with literacy in science articles.

Phenomena-based approach

In each Amplify Science unit, students take on the roles of scientists or engineers in order to investigate a real-world problem. Students work to define the problem and collect and make sense of evidence. Once the context is clear, students collect evidence from multiple sources and through a variety of modalities. At the end of the unit, students are presented with a brand new problem, giving them an opportunity to apply what they’ve learned over the course of the unit to a new context. This represents a shift from asking students to learn about science to supporting students in figuring out the science.

Flowchart of a learning unit divided into four chapters, showing stages of student engagement from introduction to application, with assessments indicated at various points.

Resources to support your review

Remote and hybrid learning support

A child sits at a desk using a laptop. Next to the desk is a bookshelf with books, a fishbowl, and a soccer ball.

See an example of our remote and hybrid learning support below:

This fall, Amplify launched a new remote learning solution called Amplify Science@Home. Intended to make extended remote and hybrid learning easier, Amplify Science @Home includes two useful options for continuing instruction: @Home Videos and @Home Units.
Amplify Science @Home Videos are recordings of real Amplify Science teachers teaching the lessons. For those teachers who are unable to meet synchronously with their students, the recorded lessons are a great way to keep their students on track and engaged with Amplify Science while at home. These videos will be produced for all K–5 units, and for the first four units of each 6–8 grade level. Their release will be rolling, beginning in August.

Amplify Science @Home Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @Home Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. @Home Units will be developed for all Amplify Science K–8 units. Each @Home unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @Home Units if synchronous learning or in-class time with students is available
  • Overviews to send home to families

Student materials will be available in two formats:

  • @Home Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home
  • Downloadable @Home Packets (PDF) for students without access to technology at home

Download the remote and hybrid learning guide

Benchmark Assessments

Amplify’s Benchmark Assessments are designed to help teachers measure student progress toward the three dimensions—Disciplinary Core Ideas (DCIs), Science and Engineering Practices (SEPs), and Crosscutting Concepts(CCCs)—and performance expectations (PEs) of the NGSS. The assessments provide important insight into how students are progressing toward mastery of different standards ahead of high-stakes, end-of-year assessments.

The Benchmark Assessments are built to be delivered after specific units in the recommended Amplify Science scope and sequence.* They are given three or four times per year, depending on the grade level. The benchmarks are intended to show progress at various points in time across a school year, and are therefore not summative in nature. Digital items and item clusters are also tagged to specific NGSS standards, allowing customization to align with other course sequences. The assessments are available via the following platforms:

Print
PDF files: For administering Benchmark Assessments on paper

Digital platforms

  • Illuminate
  • SchoolCity
  • Otus
  • QTI (“Question and Test Interoperability”) files
    Not sure whether QTI files are compatible with your assessment platform? Contact your school IT or assessment platform representative for more information.
    Please note that Amplify is able to provide access to the QTI files themselves, but is not able to support the integration process. Your assessment platform provider should be able to assist with QTI file integration.

Flexible implementation

One of the key features of Amplify Science is the flexibility that it offers. We give students authentic opportunities to experience the full breadth of what it means to be a scientist or engineer. Just as scientists gather evidence from many types of sources, so do students in our program. Like scientists, students gather evidence not just from physical models, but also from digital models, texts, videos, photographs, maps, data sets, and even their peers!
Simply put, real scientists don’t just get messy—they read, write, analyze, hypothesize, model, test, and communicate with purpose, too.

Science articles

The middle school science articles serve as sources for evidence collection and were authored by science and literacy experts at the Lawrence Hall of Science.

Illustration of the indirect effects of overfishing on northern benguela jelly populations displayed on a laptop screen.

Student Books
Beginning and young readers have unique developmental needs, and science instruction should support these students in reading more independently as they progress through sections of content, the school year, and each grade. One way Amplify Science meets these needs is by strategically deploying different modes of reading throughout each unit: Read-Aloud, Shared Reading, and Partner Reading.

A collage of various educational book covers related to science and math, featuring illustrated themes like sports, nature, and energy.

Student Investigation Notebooks

Available for every unit, the Student Investigation Notebooks provide space for students to:

  • record data.
  • reflect on ideas from texts and investigations.
  • construct explanations and arguments.

Available with full-color article compilations for middle school units.

Collection of educational books from 'amplify science' on topics including ocean atmosphere, matter and energy ecosystems, and insect interactions, displayed in various angles.

Digital student experience

Students access the digital simulations and Modeling Tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • conduct hands-on investigations.
  • engage in Active Reading and writing activities.
  • participate in discussions.
  • record observations.
  • craft end-of-unit scientific arguments.

Dive into a quick example of our powerful simulations

A digital illustration showcasing a laptop and a tablet displaying complex data analysis software interfaces with graphs and heatmaps.

Hands-on materials kits

Hands-on learning is at the heart of Amplify Science and is integrated
into every unit. Students actively take on the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them.

Check out these 2-minute videos to see an Amplify Science hands-on investigation in action.

Each unit kit contains:

  • consumable and non-consumable hands-on materials.
  • print classroom display materials.
  • premium print materials for student use (sorting cards, maps, etc.).
A perforated rectangular board, three small containers with different powders, a black battery holder with red wires, and three colored alligator clips are arranged on a white background.

Teacher’s Guides

Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • detailed lesson plans.
  • unit and chapter overview documentation.
  • differentiation strategies.
  • standards alignments.
  • in-context professional development.
A laptop displaying the Geology on Mars webpage sits beside a book titled "Geology on Mars," both featuring the same cover image of Mars and a spacecraft, perfect for enhancing three-dimensional learning in any science classroom.

Scope and Sequence

GRADE UNITS
Kindergarten
  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water
Grade 1
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
Grade 2
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
Grade 3
  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate
Grade 4
  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
Grade 5
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration
GRADE UNITS
Grade 6: Earth Science
  • Launch: Geology on Mars
  • Plate Motion
  • Plate Motion: Engineering Internship
  • Rock Transformations
  • Earth, Moon, and Sun
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Earth’s Changing Climate: Engineering Internship
Grade 7: Life Science
  • Launch: Microbiome
  • Metabolism
  • Metabolism: Engineering Internship
  • Traits and Reproduction
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Natural Selection
  • Natural Selection: Engineering Internship
  • Evolutionary History
Grade 8: Physical Science 
  • Launch: Harnessing Human Energy
  • Force and Motion
  • Force and Motion: Engineering Internship
  • Magnetic Fields
  • Thermal Energy
  • Phase Change
  • Phase Change: Engineering Internship
  • Chemical Reactions
  • Light Waves

Minnesota Academic Standards in Science coverage

Amplify Science was designed from the ground up to meet the NGSS, a set of standards that closely align with the K–8 Minnesota Academic Standards in Science (MASS). Therefore, most grade levels’ respective set of Amplify Science units address the necessary MASS (see K–5 reverse alignment and/or correlations for K–5 and 6–8). However, for grades 2–4, teachers should also use the resources provided in the sections below to achieve full coverage of the appropriate standards before their students move on to the next grade level. Organized by grade level, each section outlines:

  • companion lesson materials that were written to support 100% alignment to the Minnesota Academic Standards in Science when used with the core Amplify Science units for the grade level
  • the standard being addressed with each companion lesson; and
  • the recommended placement of each companion lesson within a specific Amplify Science unit 

Companion lesson: “Shelter”

Standard: 1P.4.2.2.1 Communicate solutions that use materials to provide shelter, food, or warmth needs for communities including Minnesota American Indian tribes and communities.* (P: 8, CC: 2, CI: PS1, ETS2)

Recommended placement: Following Lesson 5.1 of Spinning Earth

Materials: Shelter Classroom Slides and Student Sheet

Companion lesson: “Describing Climates”

Standard: 2E.4.2.1.2 Obtain and use information from multiple sources, including electronic sources, to describe climates in different regions of the world.** (P: 8, CC: 1, CI: ESS2)

Recommended placement: Following Lesson 4.5 of Changing Landforms

Materials: Describing Climates Classroom Slides and Student Sheet

Note: Students will further investigate the content in this standard, and revisit the book used in this companion lesson, in 3rd grade (Weather and Climate unit)

Companion lesson 1: Light and Vision

Standard: 3P.3.1.1.1 Develop a model to describe that light reflecting from objects and entering the eye allows objects to be seen. (P: 2, CC: 2, CI: PS4)

Recommended placement: Following Lesson 4.5 of Environments and Survival

Materials: Light and Vision Part 1 Classroom Slides and Student Sheet; Light and Vision Part 2 Classroom Slides and Student Sheet 

Note: Students will further investigate the content in this standard, and revisit the book used in this companion lesson, in 4th grade (Vision and Light unit)

Companion lesson 2: Studying Stars

Standard: 3E.4.2.2.1 Gather information and communicate how Minnesota American Indian Tribes and communities and other cultures use patterns in stars to make predictions and plans. (P 8, CC: 1, CI: ESS1) 

Recommended placement: Following Lesson 4.4 of Weather and Climate

Materials: Studying Stars Classroom Slides and Student Sheet

Note: Students will further investigate the content in this standard, and revisit the book used in this companion lesson, in 5th grade (Patterns of Earth and Sky unit)

Companion lesson 1: Salt Water and Freshwater

Standard: 4E.2.2.1.1 Interpret charts, maps and/or graphs of the amounts of salt water and fresh water in various reservoirs to provide evidence about the distribution of water on Earth.** (P: 5, CC: 4, CI: ESS2) 

Recommended placement: Following Lesson 2.6 of Earth’s’ Features

Materials: Salt Water and Freshwater Classroom Slides and Student Sheet

Note: Students will further investigate the content in this standard, and revisit the book used in this companion lesson, in 5th grade (The Earth System unit)

Companion lesson 2: How Raindrops Form

Standard: 4E.1.1.1.2 Ask questions about how water moves through the Earth system and identify the type of question. (P: 1, CC: 5, CI: ESS2) 

Recommended placement: Following Lesson 4.5 of Earth’s’ Features

Materials: How Raindrops Form Classroom Slides and Student Sheet

Note: Students will further investigate the content in this standard, and revisit the book used in this companion lesson, in 5th grade (The Earth System unit)

Explore the digital Teacher’s Guide

To familiarize yourself with navigation of the digital Teacher’s Guide, watch our navigational guide videos:

Grades K–5:

Grades 6–8:

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We’ve developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans.
  • Information on where to locate standards and other planning materials.
  • Recommendations and tips for day-to-day teaching with Amplify programs.
  • Support with administering and interpreting assessment data and more.

Timely technical and program support

Our technical and program support is included and available Monday through Friday, from 7 a.m. to 7 p.m. ET, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

Ready to dive in?

Contact your Minnesota representative:
Kristi Stengel
Account Executive
kstengel@amplify.com
(612) 306-3941

Tammy Sigwarth
Account Executive
tsigwarth@amplify.com
(563) 663-0056

New Mexico Educators: Welcome to Amplify Science K–5!

Amplify Science is an engaging core curriculum designed for three-dimensional, phenomena-based learning that is rated ‘all green’ on EdReports.  

With Amplify Science, New Mexico students won’t just passively learn about science concepts. Instead, they will take on the role of scientists and engineers to actively investigate and figure out real-world phenomena. They will do this through a blend of cohesive and compelling storylines, hands-on investigations, collaborative discussions, literacy-rich activities, and interactive digital tools.

Amplify Science Success Story

The Lawrence Hall of Science

Developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify, our program features:

  • phenomena-based approach where students construct a complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Carefully crafted units, chapters, lessons, and activities designed to deliver true three-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.
Aerial view of the lawrence hall of science at the university of california, berkeley, showcasing the building and surrounding trees with a foggy city backdrop.

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

Do

First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

Talk

Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

Read

Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

Write

Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

Visualize

By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Program structure

Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon.

It’s this proven program structure and lesson design that enables Amplify Science to address 100% of the NGSS and support students in mastering the New Mexico STEM Ready! Science Standards.

Flowchart depicting a critical thinking process with four circular nodes connected by arrows, each node representing a step: posing a real-world problem, exploring evidence, elaborating concepts, and evaluating claims.

Unit types

While every unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, each unit also emphasizes a particular science and engineering practice.

In grades K–2:

  • One unit emphasizes the practice of investigation.
  • One unit emphasizes the practice of modeling.
  • One unit emphasizes the practice of engineering design.

In grades 3–5, students experience the three unit types above, plus:

  • One additional unit that emphasizes the practice of argumentation.

Investigation units focus on the process of strategically developing investigations and gathering data to answer questions. Students are first asked to consider questions about what happens in the natural world and why, and are then involved in designing and conducting investigations that produce data to help answer those questions.

Modeling units provide extra support to students engaging in the practice of modeling. Students use physical models, investigate with computer models, and create their own diagrams to help them visualize what might be happening on the nanoscale.

Engineering design units provide opportunities for students to solve complex problems by applying science principles to the design of functional solutions, and iteratively testing those solutions to determine how well they meet preset criteria.

Argumentation units provide students with regular opportunities to explore and discuss available evidence, time and support to consider how evidence may be leveraged in support of claims, and independence that increases as they mount written arguments in support of their claims.

Unit sequence

Our lessons follow a structure that is grounded in regular routines while still being flexible enough to allow for a variety of learning experiences.

In fact, our multi-modal instruction offers more opportunities for students to construct meaning, and practice and apply concepts, than any other program. What’s more, our modular design means our units can be flexibly arranged to support your instructional goals.

Science Curriculum Topics by Grade: Grade K (plants/animals, pushes/pulls, sunlight/weather), Grade 1 (plant/animal defenses, light/sound, rotating earth), Grade 2 (relationships, materials, landforms), Grade 3 (forces/balance, traits, survival, weather/weather), Grade 4 (energy, light/vision, earth features, waves/energy/information), Grade 5 (patterns, modeling, ecosystem).

Program components

Available digitally and in print, our unit-specific reference guides are chock full of helpful resources, including scientific background knowledge, planning information and resources, color-coded 3-D Statements, detailed lesson plans, tips for delivering instruction, and differentiation strategies.

Image of a teacher's guide titled "Plant and Animal Needs: Milkweed and Monarchs" next to a laptop showing the same cover and accompanying online materials.

Hands-on learning is an essential part of Amplify Science, and is integrated into every unit. Students actively participate in science, playing the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them. Every unit includes hands-on investigations that are critical to achieving the unit’s learning goals.

Two children sit at a table blowing into plastic straws held together, likely making musical sounds, with containers and rubber bands on the table.

More hands-on with Flextensions:
Hands-on Flextensions are additional, optional investigations that are included at logical points in the learning progression and give students an opportunity to dig deeper if time permits. These activities offer teachers flexibility to choose to dedicate more time to hands-on learning. Materials referenced in Hands-on Flextension activities will either be included in the unit kit or are easily sourced. Supporting resources such as student worksheets will be included as downloadable PDF files.

Our kits include enough non-consumable materials to support a class of 36 students and enough consumable items to support 72 students. In other words, each kit can last two years! Plus, our unit-specific kits mean teachers just grab the tub they need for the unit and then put it all back with ease.

On a white background are various supplies, such as cardboard sheets, pegboards, hooks, rubber bands, tennis balls, popsicle sticks, tape, and other small objects.

Each unit of Amplify Science K–5 includes six unique Student Books written by the Lawrence Hall of Science specifically for the program. These content-rich nonfiction and informational texts provide opportunities for students to search for evidence relevant to their firsthand investigations, see science practices and dispositions modeled, extend their science knowledge, provide real world connections as they master reading-to-learn and close reading skills, and construct evidence-based arguments.

Important note:
Students in grades K–5 are never asked to read alone. Rather, books are read to, with, and by students with ample scaffolding and support provided by the teacher. Big Books are read aloud or together with the class to introduce ideas. Student Books allow for small-group reading and reading in pairs.

Two children's books, one in Spanish and one in English, with illustrated covers showing a street scene and families walking in a town.

Available for every unit, our Student Investigation Notebooks contain instructions for activities and space for students to record data and observations, reflect on ideas from texts and investigations, and construct explanations and arguments.

In grades K–5, one copy of the Student Investigation Notebook is included in each unit’s materials kit for use as a blackline master. Each notebook is also available as a downloadable PDF on the Unit Guide page of the digital Teacher’s Guide.

Two science books titled “Pushes and Pulls: Designing a Pinball Machine” and “Pushes and Pulls: Designing a Pinball Machine” displayed side by side.

We know equity is a priority for you and it’s also important to us! Click below to view a comprehensive list of Spanish resources available to support English learners and dual-language classrooms in New Mexico.  All components are available digitally.  Resources also available in print are noted with an asterisk.

Spanish Components and Supports in Amplify Science

Amplify Science offers digital experience licenses that make elementary instruction more flexible for students and teachers, as well as providing additional means to engage in remote, hybrid, or in-person learning!

Student-facing digital lessons
With the digital experience, students can engage with digital lesson content in one cohesive experience. It’s the same content from Amplify science in a new, integrated format where students can interact with slides, Sims, modeling tools, videos, books, and more.

A computer screen displays an illustration of four plants under sunlight, each emitting colored streams and coins, with soil and roots visible below.

Digital student notebook pages
Students can draw, write, record audio, and insert images into their Investigation Notebook pages. Their work is automatically saved and delivered to you in real time. When students edit their work, those edits are immediately reflected on your teacher work review page. You can access student responses by clicking “View Work,” where you can see students’ Investigation Notebook pages from the lesson, updating live.

Assign in Amplify
The digital experience allows flexibility with optional features like scheduling assignments in advance and setting due dates. Teacher can use Scheduling to determine the date and time that the assignment appears in Student Home. They also have the flexibility to schedule when assignments appear and use dates to remove assignments from Student Home.

Assign in LMS
You can also assign lessons via our integrations with Google Classroom and Microsoft Teams, or by copying a lesson link and sharing it with students through the platform of your choice. The assignment link you send will provide students with direct access to the full lesson—slides, videos, digital tools, and worksheet activities—no student platform navigation required!

Teacher platform and presentation
Teacher-facing lesson content—including sample teacher talk, student responses, pedagogical support, and possible student responses—shows on a teacher’s private Teacher Guide tab. Students only see the lesson slides that are being presented.

A laptop labeled "Teacher device" displays a lesson slide, which is mirrored onto a larger screen labeled "Class presentation.

Explore your print samples

With your Amplify Science print samples, you’ll find unit-specific Teacher’s References Guides, Student Investigation Notebooks, and sets of Student Books for each grade level.

A note about the Teacher’s Reference Guides:

It’s important that you see the full breadth and depth of our instruction. For that reason, we provide a copy of each of our unit-specific Teacher Reference Guides.

Rest assured that teachers do not use these robust reference guides for day-to-day teaching. For that, we have a hands-free TG!

Three laptop screens displaying educational content on earth's energy system, including diagrams and text annotations.
  • Teacher Reference Guide: Unlike a typical Teacher Guide that requires a series of supplemental books to support it, our encyclopedic reference guide is chock-full of everything a teacher needs to fully implement our program and the NGSS.
  • Ready-to-Teach Lesson Slides: For daily instruction, teachers need their hands free. That’s why we created ready-to-teach lesson slides for every single lesson. What’s more, they are editable and include suggested teacher talk and point-of-use differentiation and other instructional tips. Click to learn more.

A note about the Materials Kits:

Hands-on learning is at the heart of Amplify Science, and is integrated into every unit. In order to make hands-on learning more manageable for busy teachers, Amplify Science materials are organized into unit-specific kits.

Stacked storage bins with labels, arranged neatly; caption notes they are a sample and may not reflect actual quantities or sizes.

What’s different about Amplify’s unit-specific material kits?  They…

  • Include more materials — We give teachers enough non-consumable materials to support a class of 36 students and enough consumables to support 72 student uses. In other words, each kit will last two years.
  • Are more manageable — Unlike other programs that require large groups of students to share limited sets of materials, our kits include enough to support small groups of 4–5 students.
  • Include supportive videos — Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

Grade-specific lists of all materials included in each kit:

Access your digital samples

Explore as a teacher

When you’re ready to explore the teaching experience on your own, follow these instructions to access the Amplify Science digital teacher platform.

  • Click the Access Amplify Science Platform button below and bookmark the page.
  • Select Log in with Amplify.
  • Enter the username: t.nmk-5@demo.tryamplify.net
  • Enter the password: AmplifyNumber1
  • Click on Science on the left hand side.
  • Click on the Grade Menu in the top center of the screen and select any grade.
  • Select any unit.
Access Amplify Science Platform

To help familiarize yourself with navigating the digital platform, watch the navigational video below.

Explore as a student

When you’re ready to explore the student learning experience on your own, follow these instructions to access the Amplify Science digital student platform.

  • Click the Access Amplify Science Platform button below and bookmark the page.
  • Select Log in with Amplify.
  • Enter the username: s.nmk-5@demo.tryamplify.net
  • Enter the password: AmplifyNumber1
  • Click the backpack icon on the top right.
  • Click Science K-5
  • Select any unit.
Access Amplify Science Platform

Resources to support your review

Core literacy programs: Strengthen sessions

Professional development sets teachers and leaders up for success, whether they are new to or experienced with a program. Each Strengthen session promotes a deeper understanding of the program through targeted instructional practices.

Explore literacy Strengthen sessions by program below.

Amplify professional development has been vetted by Rivet Education’s team through a rigorous three-step process and is listed in the Professional Learning Partner Guide.

Contact us
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About Strengthen sessions

Support Amplify implementation with sessions that target specific instructional practices for teachers and leaders who are in year one and beyond. When you’re ready to schedule your Strengthen session, contact us. An Amplify expert will support you in selecting the session that best fits your needs in order to push student results forward.

Each package includes one Strengthen session. Additional sessions can be added as enhancements.

Amplify ELAR and Amplify SLAR K–5

Built on the Science of Reading, Amplify Texas English Language Arts and Reading (ELAR) sequences deep content knowledge with research-based foundational skills. Amplify ELAR is a PreK–5 literacy curriculum that inspires curiosity and drives results, empowering all students with rich background knowledge.

Amplify SLAR is the perfect Spanish language arts partner to Amplify ELAR for grades K–5. Following biliteracy principles and supporting multiple teaching models, the aligned programs combine rich content knowledge with systematic foundational skills instruction grounded in the Science of Reading.

The table below lists Amplify ELAR and Amplify SLAR Strengthen sessions by package for Begin and beyond. Click the session title or scroll down to learn more about each session.

Begin packages

Strengthen sessions

  On-site package
(15 hr.)		 Hybrid on-site package (15 hr.) Hybrid 10 package
(10 hr.)		 Hybrid virtual package
(15 hr.)		 Virtual  package
(7 hr.)
One session per package On-site,   3 hr. sessions On-site,   3 hr. sessions Virtual,     1 hr. session Virtual,    3 hr. sessions Virtual,     1 hr. session
Enhancing planning for teachers
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Enhancing practice for teachers
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Enhancing observations for leaders
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Supporting all learners for teachers
     A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Pacing for teachers
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Student engagement for teachers
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Begin: Enhancing planning for teachers

On-site or virtual, 3 hours

Deepen your understanding of your next unit by engaging in a step-by-step unit- and lesson-planning protocol. Leave prepared to implement your next unit with a completed unit plan and internalized lessons for your particular biliteracy model.

Session options: Amplify ELAR, Amplify SLAR, or Amplify ELAR/SLAR biliteracy

Audience: K–2 or 3–5 teachers, instructional staff (maximum 30 participants)

Language: The Amplify ELAR session is facilitated in English. The Amplify SLAR session is facilitated in Spanish. The Amplify ELAR/SLAR biliteracy session is facilitated in English and Spanish.

Begin: Enhancing practice for teachers

On-site or virtual, 3 hours

Practice implementing key lesson routines to strengthen your instruction. Leave with guidelines for routines you can implement in your biliteracy classroom tomorrow.

Session options: Amplify ELAR, Amplify SLAR, or Amplify ELAR/SLAR biliteracy

Audience: K–2 or 3–5 teachers, instructional staff (maximum 30 participants)

Language: The Amplify ELAR session is facilitated in English. The Amplify SLAR session is facilitated in Spanish. The Amplify ELAR/SLAR biliteracy session is facilitated in English and Spanish.

Begin: Enhancing observations for leaders

On-site or virtual, 3 hours

Sharpen your program knowledge to support educators with effective program implementation. Observe a lesson in action and practice providing high-leverage feedback. Walk away prepared to provide educators with actionable feedback during your next classroom observation.

Session options: Amplify ELAR, Amplify SLAR, or Amplify ELAR/SLAR biliteracy

Prerequisite: Participants must complete the Program overview for leaders before attending this session.

Audience: Leaders (maximum 30 participants)

Language: This session is facilitated in English.

Begin: Strengthen Focus: Supporting all learners for teachers

Virtual, 1 hour

Dig into embedded supports offered in the Amplify curriculum and prepare to support all learners in your next lesson.

Session options: Amplify ELAR, Amplify SLAR, or Amplify ELAR/SLAR biliteracy

Audience: K–5 teachers, instructional staff (maximum 30 participants)

Language: The Amplify ELAR session is facilitated in English. The Amplify SLAR session is facilitated in Spanish. The Amplify ELAR/SLAR biliteracy session is facilitated in English and Spanish.

Begin: Strengthen Focus: Pacing for teachers

Virtual, 1 hour

Learn five specific strategies to support pacing in your next lesson.

Session options: Amplify ELAR, Amplify SLAR, or Amplify ELAR/SLAR biliteracy

Audience: K–5 teachers, instructional staff (maximum 30 participants)

Language: The Amplify ELAR session is facilitated in English. The Amplify SLAR session is facilitated in Spanish. The Amplify ELAR/SLAR biliteracy session is facilitated in English and Spanish.

Begin: Strengthen Focus: Student engagement for teachers

Virtual, 1 hour

Explore engagement strategies that cultivate a student-centered classroom. Leave with a plan to incorporate these strategies in an upcoming lesson.

Session options: Amplify ELAR, Amplify SLAR, or Amplify ELAR/SLAR biliteracy

Audience: K–5 teachers, instructional staff (maximum 30 participants)

Language: The Amplify ELAR session is facilitated in English. The Amplify SLAR session is facilitated in Spanish. The Amplify ELAR/SLAR biliteracy session is facilitated in English and Spanish.

Practice packages

Strengthen sessions

  On-site package
(15 hr.)		 Hybrid 15 package
(15 hr.)		 Hybrid 13 package
(13 hr.)		 Virtual package
(9 hr.)
One session per package On-site,      3 hr. session Virtual,      3 hr. session Virtual, 1 hr. session Virtual, 3 hr. session
Enhancing planning for teachers
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Enhancing practice for teachers A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Enhancing observations for leaders A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Writing for teachers
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Supporting all learners for teachers
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Pacing for teachers
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Student engagement for teachers     A large, light peach-colored checkmark on a transparent background.  
Amplify ELAR 2nd Edition Grade 3 Skills supplement for teachers     A large, light peach-colored checkmark on a transparent background.  

Practice: Enhancing planning for teachers

On-site or virtual, 3 hours

Deepen your understanding of your next unit by engaging in a step-by-step unit- and lesson-planning protocol. Leave prepared to implement your next unit with a completed unit plan and internalized lessons for your particular biliteracy model.

Session options: Amplify ELAR, Amplify SLAR, or Amplify ELAR/SLAR biliteracy

Audience: K–2 or 3–5 teachers, instructional staff (maximum 30 participants)

Language: The Amplify ELAR session is facilitated in English. The Amplify SLAR session is facilitated in Spanish. The Amplify ELAR/SLAR biliteracy session is facilitated in English and Spanish.

Practice: Enhancing practice for teachers

On-site or virtual, 3 hours

Practice implementing key lesson routines to strengthen your instruction. Leave with guidelines for routines you can implement in your biliteracy classroom tomorrow.

Session options: Amplify ELAR, Amplify SLAR, or Amplify ELAR/SLAR biliteracy

Audience: K–2 or 3–5 teachers, instructional staff (maximum 30 participants)

Language: The Amplify ELAR session is facilitated in English. The Amplify SLAR session is facilitated in Spanish. The Amplify ELAR/SLAR biliteracy session is facilitated in English and Spanish.

Practice: Enhancing observations for leaders

On-site or virtual, 3 hours

Sharpen your program knowledge to support educators with effective program implementation. Observe a lesson in action and practice providing high-leverage feedback. Walk away prepared to provide educators with actionable feedback during your next classroom observation.

Session options: Amplify ELAR K–5

Prerequisite: Participants must complete the Program overview for leaders before attending this session.

Audience: Leaders (maximum 30 participants)

Language: This session is facilitated in English.

Practice: Writing for teachers

On-site or virtual, 3 hours

Deepen your understanding of how to support students as they build writing skills. Leave this session prepared to teach an upcoming writing lesson based on your student work analysis. Bring samples of your students’ writing responses from your Amplify programs to this session.

Session options: Amplify ELAR, Amplify SLAR, or Amplify ELAR/SLAR biliteracy

Audience: K–2 or 3–5 teachers, instructional staff (maximum 30 participants)

Language: The Amplify ELAR session is facilitated in English. The Amplify SLAR session is facilitated in Spanish. The Amplify ELAR/SLAR biliteracy session is facilitated in English and Spanish.

Practice: Strengthen Focus: Supporting all learners for teachers

Virtual, 1 hour

Dig into the many embedded supports offered in the curriculum and prepare for specific ways to bolster all learners in your next lesson.

Session options: Amplify ELAR, Amplify SLAR, or Amplify ELAR/SLAR biliteracy

Audience: K–5 teachers, instructional staff (maximum 30 participants)

Language: The Amplify ELAR K–5 session is facilitated in English. The Amplify SLAR K–5 session is facilitated in Spanish. The Amplify ELAR K–5/SLAR K–5 biliteracy session is facilitated in English and Spanish.

Practice: Strengthen Focus: Pacing for teachers

Virtual, 1 hour

Learn five specific strategies to support pacing in your next lesson.

Session options: Amplify ELAR, Amplify SLAR, or Amplify ELAR/SLAR biliteracy

Audience: K–5 teachers, instructional staff (maximum 30 participants)

Language: The Amplify ELAR session is facilitated in English. The Amplify SLAR session is facilitated in Spanish. The Amplify ELAR/SLAR biliteracy session is facilitated in English and Spanish.

Practice: Strengthen Focus: Student engagement for teachers

Virtual, 1 hour

Explore engagement strategies that cultivate a student-centered classroom. Leave with a plan to incorporate these strategies in an upcoming lesson.

Session options: Amplify ELAR, Amplify SLAR, or Amplify ELAR/SLAR biliteracy

Audience: K–5 teachers, instructional staff (maximum 30 participants)

Language: The Amplify ELAR session is facilitated in English. The Amplify SLAR session is facilitated in Spanish. The Amplify ELAR/SLAR biliteracy session is facilitated in English and Spanish.

New

Begin: Strengthen Focus: Amplify ELAR 2nd Edition Grade 3 Skills supplement for teachers

Virtual, 1 hour

Participants will get an overview of how to implement Amplify ELAR 2nd Edition Grade 3 Skills in their classrooms! Learn the foundational elements of Amplify ELAR 2nd Edition Grade 3 Skills, including becoming familiar with materials and key lesson components.

Session options: Amplify ELAR 2nd Edition

Audience: Grade 3 teachers, instructional staff (maximum 30 participants)

Amplify ELAR 6–8

Amplify ELAR 6–8 is a blended English language arts curriculum designed specifically to support students in grades 6–8 and prepare them for high school and beyond. With Amplify ELAR 6–8, students learn to tackle any complex text and make observations, grapple with interesting ideas, and find relevance for themselves. The table below lists Amplify ELAR 6–8 Strengthen sessions for Begin and beyond by package.

Click the session title or scroll down to learn more about each session.

Begin packages

  On-site package
(15 hr.)		 Hybrid 15,
on-site package
(15 hr.)		 Hybrid 10 package
(10 hr.)		 Hybrid 15, virtual package
(15 hr.)		 Virtual package
(7 hr.)
One session per package On-site,
3 hr. session		 On-site,
3 hr. session		 Virtual,
1 hr. session		 Virtual,
3 hr. session		 Virtual,
1 hr. session
Enhancing planning for teachers A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.  
Enhancing practice for teachers
 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.  
Enhancing observations for leaders A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.  
Teaching with print and digital
     A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Lesson-planning
     A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Pacing
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Begin: Enhancing planning for teachers

On-site or virtual, 3 hours

Deepen your program knowledge by unpacking learning outcomes, key assessment moments, and student engagement opportunities from an Amplify ELAR 6–8 unit. Use backward planning to create a detailed plan for a unit of your choice and leave ready to begin the unit with your students.

Audience: Teachers, instructional staff (maximum 30 participants)

Begin: Enhancing practice for teachers

On-site or virtual, 3 hours

Experience a close reading lesson to increase your understanding of how close reading is taught in Amplify ELAR 6–8. Uncover which teacher moves will support students in tackling complex texts. Leave with a strong understanding of how to facilitate a close reading lesson that encourages student collaboration, drives analysis, and deepens understanding.

Audience: Teachers, instructional staff (maximum 30 participants)

Begin: Enhancing observations for leaders

On-site or virtual, 3 hours

Elevate your program knowledge to support colleagues with effective Amplify ELAR 6–8 implementation. Leave prepared to identify key instructional elements in an Amplify ELAR 6–8 lesson, analyze data, and conduct effective classroom observations.

Audience: Leaders (maximum 30 participants)

Begin: Strengthen Focus: Teaching with print and digital

Virtual, 1 hour

Learn how to administer Amplify ELAR 6–8 lessons in your classroom using both digital and print curricula.

Audience: Teachers, instructional staff (maximum 30 participants)

Begin: Strengthen Focus: Lesson-planning

Virtual, 1 hour

Deepen your understanding of the lessons in your next Amplify ELAR 6–8 unit by engaging in a step-by-step lesson-planning protocol.

Audience: Teachers, instructional staff (maximum 30 participants)

Begin: Strengthen Focus: Pacing

Virtual, 1 hour

Learn how to identify and use essential activities, timing guidance, and knowledge of your students’ strengths and needs to determine pacing for individual activities and lessons within Amplify ELAR 6–8.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice packages

  On-site package
(15 hr.)		 Hybrid 15,
on-site package
(15 hr.)		 Hybrid 13 package
(13 hr.)		 Virtual package
(9 hr.)
One session per package On-site,
3 hr. sessions		 Virtual,
3 hr. sessions		 Virtual,
1 hr. session		 Virtual,
3 hr. sessions
Enhancing planning for teachers A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Enhancing practice for teachers
 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Enhancing observations for leaders A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Writing: Improving through feedback
 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Supporting all learners
 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Data-informed instruction
 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Teaching with print and digital
     A large, light peach-colored checkmark on a transparent background.  
Lesson-planning
     A large, light peach-colored checkmark on a transparent background.  
Pacing
     A large, light peach-colored checkmark on a transparent background.  
Increasing student engagement
     A large, light peach-colored checkmark on a transparent background.  
Grading and assessment
     A large, light peach-colored checkmark on a transparent background.  

Practice: Enhancing planning for teachers

On-site or virtual, 3 hours

Deepen your program knowledge by unpacking learning outcomes, key assessment moments, and student engagement opportunities from an Amplify ELAR 6–8 unit. Use backward planning to create a detailed plan for a unit of your choice and leave ready to begin the unit with your students.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Enhancing practice for teachers

On-site or virtual, 3 hours

Experience a close reading lesson to increase your understanding of how close reading is taught in Amplify ELAR 6–8. Uncover which teacher moves will support students in tackling complex texts. Leave with a strong understanding of how to facilitate a close reading lesson that encourages collaboration, drives analysis, and deepens understanding.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Enhancing observations for leaders

On-site or virtual, 3 hours

Elevate your program knowledge to support colleagues with effective Amplify ELAR 6–8 implementation. Leave prepared to identify key instructional elements in an Amplify ELAR 6–8 lesson, analyze data, and conduct effective classroom observations.

Audience: Leaders (maximum 30 participants)

Practice: Writing: Improving through feedback

On-site or virtual, 3 hours

Deepen your understanding of how to support students as they build writing skills in Amplify ELAR 6–8. Leave this session prepared to provide targeted feedback that supports student growth in writing. Bring samples of your students’ writing responses from Amplify ELAR 6–8 to this session.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Supporting all learners

On-site or virtual, 3 hours

Learn how to effectively use embedded differentiated supports in Amplify ELAR 6–8 and the Classwork app to support all students—including English language learners, students with learning disabilities, struggling readers and writers, and advanced students. Walk away with a plan for supporting specific students within your classroom.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Data-informed instruction

On-site or virtual, 3 hours

Analyze your own student data and learn to turn Amplify ELAR 6–8 data into differentiated and targeted instruction. Walk away ready to use the data provided in the Reporting and Classwork apps to align embedded support to your specific student needs. This session requires educators to analyze student data, so please bring 4–6 weeks of student data from Amplify ELAR 6–8’s Reporting app to this session.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Strengthen Focus: Teaching with print and digital

Virtual, 1 hour

Learn how to administer Amplify ELAR 6–8 lessons in your classroom using both digital and print curricula.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Strengthen Focus: Lesson-planning

Virtual, 1 hour

Deepen your understanding of the lessons in your next Amplify ELAR 6–8 unit by engaging in a step-by-step lesson-planning protocol.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Strengthen Focus: Pacing

Virtual, 1 hour

Learn how to identify and use essential activities, timing guidance, and knowledge of your students’ strengths and needs to determine pacing for individual activities and lessons within Amplify ELAR 6–8.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Strengthen Focus: Increasing student engagement

Virtual, 1 hour

Identify features within Amplify ELAR 6–8 that increase student engagement, and determine ways to incorporate additional engagement strategies into lessons.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Strengthen Focus: Grading and assessment

Virtual, 1 hour

Learn how to use key formative and summative assessments within Amplify ELAR 6–8 to develop a plan for grading based on the specific requirements of your school or district.

Audience: Teachers, instructional staff (maximum 30 participants)

Get in touch with a PD expert

We’re here to provide answers and guidance as you explore your PD journey. Fill out the form to connect with us and discover how Amplify PD can enhance your educational journey.

Core STEM programs: Strengthen sessions

Professional development sets teachers and leaders up for success, whether they are new to or experienced with a program. Each Strengthen session promotes a deeper understanding of the program through targeted instructional practices.

Explore STEM Strengthen sessions by program below.

Professional Learning Partner Guide Certified Provider

Amplify professional development has been vetted by Rivet Education’s team through a rigorous three-step process and is listed in the Professional Learning Partner Guide.

Contact us
Teacher attentively watching two children build with blocks at a colorful classroom table.

About Strengthen sessions

Support Amplify implementation with sessions that target specific instructional practices for teachers and leaders in year one and beyond. When you’re ready to schedule your Strengthen session, contact us. An Amplify expert will support you in selecting the session that best fits your needs and that will help you push student results forward.

Each package includes one Strengthen session. Additional sessions can be added as enhancements.

Amplify Math

Amplify Math is a core math curriculum that serves 100% of students in accessing grade-level math every day. The program delivers engaging grade-level math lessons; flexible, social problem-solving experiences both online and off ; and insights, data, and reporting that drive performance.

Explore the Amplify Math Strengthen sessions (for grade bands 6–Algebra 1) for Begin packages and beyond. Click the session title or scroll down to learn more about each session.

Begin packages

  On-site package
(15 hr.)		 Hybrid
on-site package
(15 hr.)		 Hybrid 10 package
(10 hr.)		 Hybrid
virtual package
(15 hr.)		 Virtual package
(7 hr.)
One session per package On-site
3 hr. sessions		 On-site
3 hr. sessions		 Virtual
1 hr. sessions		 Virtual
3 hr. sessions		 Virtual
1 hr. sessions
Enhancing planning A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.  
Enhancing practice
 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.  
Enhancing observations for leaders A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.  
Unit-level planning
     A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Lesson-level planning
     A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Increasing engagement with instructional routines     A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.

Begin: Enhancing planning for teachers

On-site or virtual, 3 hours

Prepare to teach Amplify Math lessons effectively, by engaging in collaborative backward planning with experts. Work alongside our facilitators to understand how to target key concepts and make successful instructional decisions across a unit, and leave with a completed unit plan for your class.

Audience: Teachers, instructional staff (maximum 30 participants)

Begin: Enhancing practice for teachers

On-site or virtual, 3 hours

See the Launch, Monitor, Connect problem-based learning model in action, and practice integrating these practices into your facilitation of lesson activities. Leave with guidelines for using the Launch, Monitor, Connect model that you can implement during your next lesson.

Audience: Teachers, instructional staff (maximum 30 participants)

Begin: Enhancing observations for leaders

On-site or virtual, 3 hours

Learn to use our non-evaluative classroom look-for tool for Amplify Math to promote the use of instructional resources, focus on instructional delivery, and monitor instruction. Leave with an action plan for collecting and analyzing observation data to support teachers in their implementation of Amplify Math.

Audience: Leaders (maximum 30 participants)

Begin: Strengthen Focus: Unit-level planning

Virtual, 1 hour

Dive into unit planning as you learn the story of how your upcoming unit is tied to other units and grade levels, and discover the big ideas you will explore alongside your students in Amplify Math.

Audience: Teachers, instructional staff (maximum 30 participants)

Begin: Strengthen Focus: Lesson-level planning

Virtual, 1 hour

Dive into lesson-level planning as you learn how to create a road map that guides student learning, makes connections across lessons, and measures student understanding of the learning goals in Amplify Math.

Audience: Teachers, instructional staff (maximum 30 participants)

Begin: Strengthen Focus: Increasing engagement with instructional routines

Virtual, 1 hour

Explore how to use Instructional Routines such as Notice and Wonder to support and engage students as they make sense of new contexts and mathematical problems in Amplify Math.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice packages

  On-site package
(15 hr.)		 Hybrid 15,
on-site package
(15 hr.)		 Hybrid 13 package
(13 hr.)		 Virtual package
(9 hr.)
One session per package On-site
3 hr. sessions		 On-site
3 hr. sessions		 Virtual
1 hr. sessions		 Virtual
1 hr. sessions
Enhancing planning for teachers A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Enhancing practice for teachers
 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Enhancing observations for leaders A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Using differentiation supports for teachers A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.    A large, light peach-colored checkmark on a transparent background. 
Using data to drive instruction for teachers A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Addressing prerequisite skills for teachers A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Orchestrating math discussions for teachers A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Building language with math routines for teachers     A large, light peach-colored checkmark on a transparent background.  
Unit-level planning for teachers     A large, light peach-colored checkmark on a transparent background.  
Lesson-level planning for teachers     A large, light peach-colored checkmark on a transparent background.  
Increasing engagement with Instructional Routines for teachers     A large, light peach-colored checkmark on a transparent background.  

Practice: Enhancing planning for teachers

On-site or virtual, 3 hours

Prepare to effectively teach Amplify Math lessons by engaging in collaborative backward planning with experts. Work alongside our facilitators to understand how to target key concepts and make effective instructional decisions across a unit, and leave with a completed unit plan for your class.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Enhancing practice for teachers

On-site or virtual, 3 hours

See the Launch, Monitor, Connect problem-based learning model in action, and practice integrating these practices into your facilitation of lesson activities. Leave with guidelines for using the Launch, Monitor, Connect model that you can implement during your next lesson.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Enhancing observations for leaders

On-site or virtual, 3 hours

Learn to use our non-evaluative classroom look-for tool for Amplify Math to promote the use of instructional resources, focus on instructional delivery, and monitor instruction. Leave with an action plan for collecting and analyzing observation data to support teachers in their implementation of Amplify Math.

Audience: Leaders (maximum 30 participants)

Practice: Using differentiation supports for teachers

On-site or virtual, 3 hours

Learn how to leverage embedded differentiated supports in Amplify Math to ensure that all students can be successful. Walk away with a plan for supporting students in your classroom including English Language Learners (ELLs), students with disabilities, students who may need extra support, and advanced students.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Using data to drive instruction for teachers

On-site or virtual, 3 hours

Grow your proficiency in data analysis.Turn student data gathered within Amplify Math into differentiated instruction targeting specific skills. Walk away ready to use the data provided in the curriculum to align embedded support to your students’ unique needs.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Addressing prerequisite skills for teachers

On-site or virtual, 3 hours

Explore Amplify Math’s just-in-time approach to addressing prerequisite skills. Leave with a deeper understanding of how to use embedded curriculum resources to identify and support prerequisite skills essential for your next unit.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Orchestrating math discussions for teachers

On-site or virtual, 3 hours

Learn strategies for leading discussions that promote more math talk among all students in your classroom. Walk away with strategies and Amplify Math curriculum tools you can bring back to your classroom to enhance discussion in your next lesson.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Strengthen Focus: Building language with math routines for teachers

Virtual, 1 hour

Explore how Math Language Routines support students as they make sense of new contexts and mathematical problems in Amplify Math. Leave with strategies for using these routines to support students in learning mathematical practices, content, and language in your upcoming lessons.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Strengthen Focus: Unit-level planning for teachers

Virtual, 1 hour

Dive into unit planning as you learn the story of how your upcoming unit is tied to other
units and grade levels, and discover the big ideas you’ll explore alongside your students in Amplify Math.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Strengthen Focus: Lesson-level planning for teachers

Virtual, 1 hour

Dive into lesson-level planning as you learn how to create a roadmap for a lesson that guides student learning, makes connections across lessons, and measures student understanding of the learning goals in Amplify Math.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice: Strengthen Focus: Increasing engagement with Instructional Routines for teachers

Virtual, 1 hour

Explore how to leverage Instructional Routines such as Notice and Wonder to support students as they make sense of new contexts and mathematical problems in Amplify Math.

Audience: Teachers, instructional staff (maximum 30 participants)

Amplify Desmos Math

Amplify Desmos Math is a new core K–12 program from Amplify and Desmos Classroom —available in English and Spanish—that applies a problem-based approach to develop deep conceptual understanding, procedural fluency, and application. Using technology inspired by students’ natural curiosity, Amplify Desmos Math connects the classroom and fosters real collaboration, discourse, and perseverance in problem-solving. Captivating activities, powerful teaching tools, and lots of support enable students to develop math proficiency that lasts a lifetime.

Explore the Amplify Desmos Math Strengthen sessions (for grades PreK–Algebra 2) for Begin packages and beyond. Click the session title or scroll down to learn more about each session.

Begin packages

Strengthen sessions

  On-site package
(15 hr.)		 Hybrid 15,
on-site package
(15 hr.)		 Hybrid 10 package
(10 hr.)		 Hybrid 15, virtual package
(15 hr.)		 Virtual package
(7 hr.)
One session per package On-site,
3 hr.		 On-site,
3 hr.		 Virtual,
1 hr.		 Virtual,
3 hr.		 Virtual,
1 hr.
Enhancing planning for K–5 teachers A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.  
Enhancing planning for 6–A1 teachers
 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.  
Enhancing practice for K–5 teachers A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.  
Enhancing practice for 6–A1 teachers
 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.  
Desmos Math to Amplify Desmos Math 6–A1 transition training for teachers     A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.

New session

Begin: Enhancing planning for K–5 teachers

On-site or virtual, 3 hours

Dive into planning for Amplify Desmos Math, both big picture and day-to-day. Practice using lesson and unit planning protocols that will help you build a deep understanding of the math content you’ll be teaching and the planning resources available to you in the curriculum. Walk away with practical strategies for planning, even when you may not have much time.

Audience: Teachers, instructional staff (maximum 30 participants)

New session

Begin: Enhancing planning for 6–A1 teachers

On-site or virtual, 3 hours

Dive into both big-picture and day-to-day planning for Amplify Desmos Math. Practice using lesson and unit planning protocols that will help you build a deep understanding of the math content you’ll be teaching and the planning resources available to you in the curriculum. Walk away with practical strategies for planning, even when you may not have much time.

Audience: Teachers, instructional staff (maximum 30 participants)

New session

Begin: Enhancing practice for K–5 teachers

On-site or virtual, 3 hours

Dig into Amplify Desmos Math’s Launch, Monitor, Connect framework to level-up the student discourse in your math class. Explore in-the-moment differentiation support to help you orchestrate discussion and make the most out of key opportunities for conversation and collaboration.

Audience: Teachers, instructional staff (maximum 30 participants)

New session

Begin: Enhancing practice for 6–A1 teachers

On-site or virtual, 3 hours

Dig into Amplify Desmos Math’s Launch, Monitor, Connect framework to level up the student discourse in your math classroom. Learn strategies for leveraging the tools in the Teacher Dashboard to orchestrate discussion, and practice planning moves to make the most out of key discussion moments.

Audience: Teachers, instructional staff (maximum 30 participants)

New session

Begin: Strengthen Focus: Desmos Math to Amplify Desmos Math 6–A1 transition training for teachers

Virtual, 1 hour

Participants will get an overview of the similarities and differences between Desmos Math and Amplify Desmos Math, including becoming familiar with changes in materials, the digital platform, and key lesson, assessment, and reporting components.

Audience: Teachers, instructional staff (maximum 30 participants)

Practice packages

Strengthen sessions

  On-site package
(15 hr.)		 Hybrid 15,
on-site package
(15 hr.)		 Hybrid 13 package
(13 hr.)		 Virtual package
(9 hr.)
One session per package On-site,
3 hr.		 Virtual,
3 hr.		 Virtual,
1 hr.		 Virtual,
3 hr.
Enhancing planning for
K–5 teachers		 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Enhancing planning for
6–A1 teachers
 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Enhancing practice for
K–5 teachers		 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Enhancing practice for
6–A1 teachers
 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Strengthen Focus: Teaching a digital lesson for K–5 teachers     A large, light peach-colored checkmark on a transparent background.  
Strengthen Focus: Snapshots in the Teacher Dashboard for 6–A1 teachers     A large, light peach-colored checkmark on a transparent background.  

New session

Practice: Enhancing planning for K–5 teachers

On-site or virtual, 3 hours

Dive into both big-picture and day-to-day planning for Amplify Desmos Math. Practice using lesson and unit planning protocols that will help you build a deep understanding of the math content you’ll be teaching and the planning resources available to you in the curriculum. Walk away with practical strategies for planning, even when you may not have much time.

Audience: Teachers, instructional staff (maximum 30 participants)

New session

Practice: Enhancing planning for 6–A1 teachers

On-site or virtual, 3 hours

Dive into both big-picture and day-to-day planning for Amplify Desmos Math. Practice using lesson and unit planning protocols that will help you build a deep understanding of the math content you’ll be teaching and the planning resources available to you in the curriculum. Walk away with practical strategies for planning, even when you may not have much time.

Audience: Teachers, instructional staff (maximum 30 participants)

New session

Practice: Enhancing practice for K–5 teachers

On-site or virtual, 3 hours

Dig into Amplify Desmos Math’s Launch, Monitor, Connect framework to level-up the student discourse in your math class. Explore in-the-moment differentiation support to help you orchestrate discussion and make the most out of key opportunities for conversation and collaboration.

Audience: Teachers, instructional staff (maximum 30 participants)

New session

Practice: Enhancing practice for 6–A1 teachers

On-site or virtual, 3 hours

Dig into Amplify Desmos Math’s Launch, Monitor, Connect framework to level up the student discourse in your math classroom. Learn strategies for leveraging the tools in the Teacher Dashboard to orchestrate discussion, and practice planning moves to make the most out of key discussion moments.

Audience: Teachers, instructional staff (maximum 30 participants)

New session

Practice: Strengthen Focus: Teaching a digital lesson for K–5 teachers

Virtual, 1 hour

Get ready to facilitate digital lessons with your students. Explore what’s possible with the Teacher Dashboard and plan to make the most of these exciting instructional moments.

Audience: Teachers, instructional staff (maximum 30 participants)

New session

Practice: Strengthen Focus: Snapshots in the Teacher Dashboard for 6–A1 teachers

Virtual, 1 hour

Explore how to use the Snapshots tool in the Teacher Dashboard to create a collaborative classroom that invites and celebrates student thinking. Leave with planning tips and tricks that will get you ready to use Snapshots during your busy math classes.

Audience: Teachers, instructional staff (maximum 30 participants)

Amplify Science

Amplify Science is a K–8 science curriculum that blends hands-on investigations, literacy-rich activities, and interactive digital tools to empower students to think, read, write, and argue like real scientists and engineers. 

Explore the Amplify Science sessions (for grade bands K–5 and 6–8) for year one packages and beyond. Select the session title or scroll to learn more about each session.

Begin packages

Strengthen sessions

  On-site package
(15 hr.)		 Hybrid 15,
on-site package
(15 hr.)		 Hybrid 10 package
(10 hr.)		 Hybrid 15, virtual package
(15 hr.)		 Virtual package
(7 hr.)
One session per package On-site,
3 hr.		 Virtual,
3 hr.		 Virtual,
1 hr.		 Virtual,
3 hr.		 Virtual,
1 hr.
Enhancing planning
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Enhancing practice
(K–5 or 6–8)
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Enhancing observations for leaders
(K–8)		 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.  
Planning an Amplify Science lesson
(K–8) 
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Supporting diverse learners: Exploring the resources
(K–8)
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Supporting diverse learners with embedded supports: Teacher modeling and student discourse
(K–8) 
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Begin: Enhancing planning for teachers
(grades K–5 or 6–8)

On-site or virtual, 3 hours

Learn how to use a planning protocol to internalize an upcoming Amplify Science unit. Leave with a plan to support students engaging in three-dimensional learning while also meeting the diverse needs of students in your classroom.

Audience: Teachers, instructional staff grades K–5 or 6–8 (maximum 30 participants)

Begin: Enhancing practice for teachers
(grades K–5 or 6–8)

On-site or virtual, 3 hours

Learn how Amplify Science supports phenomenon-based learning. Experience a sequence of model instruction from the curriculum, and walk away with a plan for how you can enhance the curriculum through your teaching practice to build a powerful culture of “figuring out” in your science classroom.

Audience: Teachers, instructional staff grades K–5 or 6–8 (maximum 30 participants)

Begin: Enhancing observations for leaders (grades K–8)

On-site or virtual, 3 hours

Learn to use the non-evaluative classroom walkthrough tool for Amplify Science to promote the use of instructional resources, focus on instructional delivery, and monitor instruction. Leave with an action plan for collecting and analyzing observation data to support teachers in their implementation of Amplify Science.

Audience: Leaders grades K–8 (maximum 30 participants)

Begin: Strengthen Focus: Planning an Amplify Science lesson

Virtual, 1 hour

Develop structure and routines for planning Amplify Science lessons and leave prepared for an upcoming lesson.

Audience: Teachers, instructional staff grades K–8 (maximum 30 participants)

Begin: Strengthen Focus: Supporting diverse learners: Exploring the resources (grades K–8)

Virtual, 1 hour

Learn how to use lesson-specific differentiation briefs, embedded assessments, and activity-specific teacher support notes to maximize instruction for diverse learners with Amplify Science.

Audience: Teachers, instructional staff grades K–8 (maximum 30 participants)

Begin: Strengthen Focus: Supporting diverse learners with embedded supports: Teacher modeling and student discourse (grades K–8)

Virtual, 1 hour

Explore ways to leverage and build upon two key instructional elements in Amplify Science, and plan how you’ll use these supports to engage diverse learners in your next lesson.

Audience: Teachers, instructional staff grades K–8 (maximum 30 participants)

Practice packages

Strengthen sessions

  On-site package
(15 hr.)		 Hybrid 15,
on-site package
(15 hr.)		 Hybrid 13 package
(13 hr.)		 Virtual package
(9 hr.)
One session per package On-site,
3 hr.		 Virtual,
3 hr.		 Virtual,
1 hr.		 Virtual,
3 hr.
Enhancing planning
(K–5 or 6–8)		 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Enhancing practice
(K–5 or 6–8)
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Enhancing observations for leaders
(K–8)		 A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Supporting all learners with complex texts
(K–5 or 6–8)
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Supporting English learners (K–5 or 6–8)
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Writing in science (K–5 or 6–8) A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.   A large, light peach-colored checkmark on a transparent background.
Assessment system (K–5 or 6–8)
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Engineering Internships (6–8)
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Science Seminar (6–8)
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Planning an Amplify Science lesson (K–8)
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Supporting diverse learners: Exploring the resources (K–8)
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Supporting diverse learners: Teacher modeling and student discourse (K–8)
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Analyzing student work (K–8)
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Supporting diverse learners: Multimodal learning and multiple at-bats (K–8)
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Grading with Amplify Science (K–8)
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Enhancing the digital experience (K–5)
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Planning with the Coherence Flowchart (K–8)
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Practice: Enhancing planning for teachers
(grades K–5 or 6–8)

On-site or virtual, 3 hours

Learn how to use a planning protocol to internalize an upcoming Amplify Science unit. Walk away with a plan to support students engaging in three-dimensional learning while also meeting the diverse needs of students in your classroom.

Audience: Teachers, instructional staff grades K–5 or 6–8 (maximum 30 participants)

Practice: Enhancing practice for teachers
(grades K–5 or 6–8)

On-site or virtual, 3 hours

Learn how Amplify Science supports phenomenon-based learning. Experience a sequence of model instruction from the curriculum, and walk away with a plan for how you can enhance the curriculum through your teaching practice to build a powerful culture of “figuring out” in your science classroom.

Audience: Teachers, instructional staff grades K–5 or 6–8 (maximum 30 participants)

Practice: Enhancing observations for leaders
(grades K–5 or 6–8)

On-site or virtual, 3 hours

Learn to use the non-evaluative classroom walkthrough tool for Amplify Science to promote the use of instructional resources, focus on instructional delivery, and monitor instruction. Leave with an action plan for collecting and analyzing observation data to support teachers in their implementation of Amplify Science.

Audience: Leaders grades K–5 or 6–8 (maximum 30 participants)

Practice: Supporting all learners with complex texts (grades K–5 or 6–8)

On-site or virtual, 3 hours

Collaborate to solve common reading challenges alongside other educatorsLearn strategies to support students in grades K–5 or 6–8 in accessing complex texts in Amplify Science units by engaging in a model reading sequence. Leave with a plan for incorporating effective strategies into your upcoming Amplify Science reading lesson.

Audience: Teachers, instructional staff grades K–5 or 6–8 (maximum 30 participants)

Practice: Supporting English learners (grades K–5 or 6–8)

On-site or virtual, 3 hours

Explore strategies and engage in model activities to support multilingual/English learners in grades K–5 or 6–8 in developing their abilities to do, talk, read, write, visualize, and construct arguments in Amplify Science. Leave with strategies to support a deeper understanding of the critical role that language and literacy play in developing scientific understanding.

Audience: Teachers, instructional staff grades K–5 or 6–8 (maximum 30 participants)

Practice: Writing in science (grades K–5 or 6–8)

On-site or virtual, 3 hours

Develop an understanding of how the Amplify Science writing approach supports students in grades K–5 or 6–8 in engaging in science practices, making sense of science ideas, and growing as writers. Leave with a plan for supporting student writing in your next unit.

Audience: Teachers, instructional staff grades K–5 or 6–8 (maximum 30 participants)

Practice: Assessment system (grades K–5 or 6–8)

On-site or virtual, 3 hours

Available: Fall 2024

Analyze a sample formative assessment, deepen your understanding of Amplify Science unit learning progressions, and participate in discussions to understand the relationships between different types of assessments and your unit’s learning goals. Walk away with strategies for collecting, analyzing, and responding to student assessment data.

Audience: Teachers, instructional staff grades of K–5 or 6–8 (maximum 30 participants)

Practice: Engineering Internships (grades 6–8)

On-site or virtual, 3 hours

Plan for the first Amplify Science Engineering Internship course of your grade level (6–8) by exploring the Futura workspace and digital tools students will use during the Internship experience. Leave with an understanding of how students will apply science concept knowledge to construct design solutions. This session will feature one of the following Engineering Internships based on your need: Metabolism, Plate Motion, or Force and Motion unit.

Audience: Teachers, instructional staff grades 6–8 (maximum 30 participants)

Practice: Science Seminar (grades 6–8)

On-site or virtual, 3 hours

Experience a Science Seminar sequence of a sample Amplify Science grade 6–8 unit from the student perspective to gain an understanding of how students apply science concepts to engage in argumentation about a phenomenon. Leave with a plan for teaching a Science Seminar unit in your own classroom.

Audience: Teachers, instructional staff grades 6–8 (maximum 30 participants)

Practice: Strengthen Focus: Planning an Amplify Science lesson (grades K–8)

Virtual, 1 hour

Develop a structure for planning Amplify Science lessons and leave prepared for an upcoming lesson.

Audience: Teachers, instructional staff grades K–8 (maximum 30 participants)

Practice: Strengthen Focus: Supporting diverse learners: Exploring the resources (grades K–8)

Virtual, 1 hour

Learn how to use lesson-specific differentiation briefs, embedded assessments, and activity-specific teacher support notes to supplement instruction for diverse learners with Amplify Science.

Audience: Teachers, instructional staff grades K–8 (maximum 30 participants)

Practice: Strengthen Focus: Supporting diverse learners: Teacher modeling and student discourse (grades K–8)

Virtual, 1 hour

Explore ways to leverage and build upon two key instructional elements in Amplify Science and plan for ways to use these supports to engage diverse learners in your next lesson.

Audience: Teachers, instructional staff grades K–8 (maximum 30 participants)

Practice: Strengthen Focus: Analyzing student work (grades K–8)

Virtual, 1 hour

Engage with a protocol to analyze real student work and plan for instructional next steps in Amplify Science. (You are required to bring student formative assessment samples to this session.)

Audience: Teachers, instructional staff grades K–8 (maximum 30 participants)

Practice: Strengthen Focus: Supporting diverse learners: Multimodal learning and multiple at-bats (grades K–8)

Virtual, 3 hours

Learn strategies to develop an understanding of how Amplify Science’s multimodal approach supports diverse learners.

Audience: Teachers, instructional staff grades K–8 (maximum 30 participants)

Practice: Strengthen Focus: Grading with Amplify Science (grades K–8)

Virtual, 1 hour

Develop an understanding of how to use assessment resources in Amplify Science to grade students three dimensionally and use practices that align with district/school guidelines.

Audience: Teachers, instructional staff grades K–8 (maximum 30 participants)

Practice: Strengthen Focus: Enhancing the digital experience (grades K–5)

Virtual, 1 hour

Learn how to go further with Amplify Science digital experience tools to enhance teaching and learning.

Audience: Teachers, instructional staff grades K–5 (maximum 30 participants)

Practice: Strengthen Focus: Planning with the Coherence Flowchart (grades K–8)

Virtual, 1 hour

Practice using the Coherence Flowchart resource to plan an upcoming Amplify Science unit.

Audience: Teachers, instructional staff grades K–8 (maximum 30 participants)

Get in touch with a PD expert

We’re here to provide answers and guidance as you explore your PD journey. Fill out the form to connect with us and discover how Amplify PD can enhance your educational journey.

What is Amplify Math?

Amplify Math is a core math curriculum built for grades 6, 7, 8, and Algebra 1. It features a full suite of products for teachers and students that includes lesson plans, instructional materials, practice, assessments, and support to meet all learners’ needs. Amplify Math is built upon the highly rated curriculum, Illustrative Mathematics’® IM K–12 Math™, which was heavily researched and field-tested and has earned an all-green score on EdReports, the nationally recognized non-profit curriculum evaluation organization.

Read the review on EdReports.

Amplify Math helps students learn math in a way that is engaging and relevant to the world around them using student-centered instruction, which has been proven to increase students’ motivation, engagement, and enjoyment of math. Students using the program are active participants in their learning, solving problems while working with their classmates.

The digital experience allows your student’s teacher to monitor your student’s work in real time and make sure they get the exact support that they need at every part of the lesson. Amplify Math’s open-ended tasks provide engaging challenges for students of all levels, preparing them to solve all types of problems. The parts of Amplify Math work together to help students master the key skills of a 21st century learner!

Features

Some of the unique features of Amplify Math include:

  • Narrative connections: Exciting stories that help students to make connections between the math they learn in class and their everyday lives, making math class more engaging for your student.
  • Amps: Interactive digital activities (included in every lesson) let your student can explore the math and collaborate with their peers.
  • Power-ups: Additional activities that teachers can use to identify when your student needs support and help your student improve on the most important skills.
  • Featured mathematicians: Stories of important mathematicians that help your students see themselves mirrored in the history of math.

Why student-centered instruction?

A group of people and a unicorn amplify math skills as they listen to a presenter showing a bar chart with "Yes" and "No" on the screen.

Student-centered instruction may look different from the way students have learned math for decades, and maybe even the way you learned math. Student-centered instruction instead emphasizes student-led discovery. When students explore and discover strategies, they are more engaged and make longer lasting connections.

Research shows that students and teachers alike prefer this method, and teachers report that student-centered instruction has helped their students learn more math. This way of learning helps students to remember what they learn in class and apply their knowledge to new situations. Students who experience student-centered instruction have been shown to perform better on standardized tests and have more growth in their grades than their peers who learn through other methods. Your student will also learn to communicate in writing and verbally, understand and challenge the opinions of others, and build confidence in solving new problems. With student-centered learning, students will begin to develop key skills for success in college and the workplace, like using technology, completing projects independently and with others, and persevering through difficult problems.

What does an Amplify Math lesson look like?

Icons represent four classroom activities in Amplify Math: Warm-up (student at laptop), Activities (two students discussing), Summary and Reflection (teacher at board), Exit Ticket and Practice (student at laptop).

Students using Amplify Math will be active participants in their learning and get practice solving interesting and new types of problems. Here’s what a typical Amplify Math lesson includes:

  • Warm-up: A short, attention-getting problem to get students interested in the lesson
  • Activities: 2-3 mini-activities that challenge students’ problem-solving skills
  • Summary: Discussion to review and bring together the important concepts from the lesson
  • Exit Ticket: Questions for students to show what they know from the lesson
  • Practice: Additional problems your student’s teacher may assign for classwork or homework

In class, your student will spend their time working on challenging problems while the teacher acts as a guide, highlighting different strategies for solving problems and helping students to understand the reasoning behind the math they do in class. Your student will be pushed to think more deeply about the math in their class as the teacher and other students question them on why their ideas make sense. Research has proven that this method helps students become better problem solvers, critical thinkers, and have a stronger conceptual understanding of what they are learning. 

Check out lessons from Grade 6Grade 7Grade 8, and Algebra 1, and watch this video of a typical Amplify Math lesson:

Materials overview

Your student will have access to all learning, practice, and assessment materials through the Amplify platform. In addition, depending on the district, your student may also have a print Student Edition to use instead of the digital lesson if they do not have a device or internet. The Student Edition is a workbook that students can use to complete their work on problems and practice within the lessons.

Students can access the digital curriculum in school and at home with login information provided by their teachers. You can contact your student’s teacher to learn more about how they log in. Here are some key resources of the digital platform for students:

  • Digital activities to allow students to explore and make sense of math, leading to increased engagement and understanding
  • Digital supports such as a calculator and manipulatives to support all students where they are
  • Power-ups to give students just-in-time practice with key skills
  • Ability to access instructional materials in English or Spanish

Unit Caregiver Letters

Click a unit below to download the caregiver letter for that unit, in both English and Spanish.

How to support your student

A person inside looks out a window at someone holding up a chart with intersecting lines and arrows, aiming to amplify math concepts. There are plants on the windowsill.
  • Review the unit caregiver letters to understand the key concepts in each unit. You can walk through the worked examples with your student, asking them to explain the strategy shown and asking if they know any other strategies to solve the problems. 
  • Your student’s teacher may assign practice problems at the end of each lesson for classwork or homework. Ask your student to walk you through how they solved each problem or talk about any parts that were challenging for them. 
  • Emphasize that getting stuck is part of the process and a necessary part of learning. Many students (and adults!) fear making mistakes, however, research shows that making mistakes helps your brain grow more. When your student gets stuck on a problem, encourage them to try different strategies, even if they are not sure if they are right. 
  • Relate math to daily activities at home, whether it be baking, grocery shopping, or planning for a road trip. Your student can help you figure out the price of an item after a coupon, cut a recipe in half, or figure out how much gas you’ll need to make it to your destination. Encourage your student to point out ways that your family uses math in your daily tasks.

Want to learn more?

Interested in learning more about Amplify Math? These resources will help you dig deeper:

Welcome, Amplify ELA families!

We’re excited to welcome you and your student to the Amplify ELA program for the new school year, and to provide you with exceptional learning opportunities through ELA. We’ve assembled the following resources and guides to help you support your student and enable them to have the most productive experience with our platform throughout the year.

Para la versión en español, haga clic aquí.

Illustrated collage with people playing sports, riding bikes, and a thoughtful person’s portrait, framed by natural elements and a rocket launching, next to an "EdReports Review Year 2020" badge.

What is Amplify ELA?

Amplify ELA helps students in grades 6–8 read and understand complex texts that encourage them to grapple with interesting ideas and find relevance for themselves. Amplify ELA is a blended program that includes both digital and print materials, but can also be used as a print-only version. Students using Amplify ELA read text passages closely, interpret what they find, discuss their thinking with peers, and develop their ideas in writing. The lesson structure is easy to follow, but flexible enough to allow for a variety of learning experiences and varied enough to keep students engaged. 

Features include:

  • Functionality that allows individual students to work at their own level while also being challenged appropriately.
  • Built-in tools that allow teachers to track and respond to student work.
  • The digital Amplify Library, which contains more than 700 downloadable, full-length fiction and nonfiction books.
  • The Vocab App, which uses game-like activities to help students master keywords from the program’s texts. (Students using print materials will see keywords highlighted.)
  • Independent writing assignments called Solos, available on mobile devices.
  • Interactive projects called Quests that accompany certain units to provide additional practice with analytical reading, writing, speaking, and listening skills.

Getting started

How you can support the child in your care:

  • If possible, read with your student daily; even 15 minutes of reading together each day can make a huge impact. You can read aloud sections of the text together—many middle grade students enjoy performing sections of dialogue by taking on the role of a character in a play, or adding some dramatic flair to a poem with which they are working. If your student struggles with reading aloud, you might try reading the text to them with expression, then having them read it back to you. For additional practice, there are an array of fluency activities in the program’s Flex Days. Ask your student to help you find these activities.
  • Find moments to discuss what they are reading and discovering. Examples of questions you could ask: What stood out to you from what you read today? Were any sentences or words confusing? What was most surprising? What do you think the writer was trying to communicate? Do you agree with the writer’s ideas or descriptions? What connections can you make between what you are reading and your own life, or other issues you’ve heard about?
  • Listen to your student read their written responses or have them share with a friend over the phone or video chat. 
  • Browse the Amplify Library with your student to find books they’ll enjoy and be able to read fluently and independently.
  • Review this Protecting Kids Online website by the Federal Trade Commission addressing digital safety.

Accessing texts in the Amplify Library

We encourage students to utilize the core texts from the Amplify Library while at home! Please follow these steps to download a text for offline reading:

1. Navigate to the Program & Apps menu at the top of your screen and scroll through to find the Amplify Library icon. When you select it, the Amplify Library will open in a new tab.

A digital menu displays various educational tools and resources, with "Amplify ELA" highlighted at the top and the "Library" option outlined in orange.

2. If prompted, follow the directions to set up a pin for the Amplify Library; otherwise, proceed to the next step.

A pop-up window prompts the user to create a four-character PIN of lowercase letters and/or numbers for offline reading, with Cancel and Submit buttons.

3. In the upper right corner of your screen, search for the book you would like to download. Example: The Secret of the Yellow Death: A True Story of Medical Sleuthing.

A digital library search page displays "yellow death" in the search bar with no results found for title, authors, or genre. Book covers are visible in the left sidebar.

4. Select the Download button.

A digital library interface displays the book "The Secret of the Yellow Death" by Suzanne Jurmain, showing its cover, synopsis, and options to read or download.

5.  If you lose connection while still in the Amplify Library, you can continue to access and read the downloaded book(s). If the page refreshes without internet access, or you try to login on another device without internet access, you will lose access to the downloaded book(s) until the internet connection is restored. 

To retrieve your downloaded texts: 

  1.  In the Amplify Library app, open the My Library drop-down menu in the upper left corner.
  2. Select Downloaded. 
  3. Choose the text you wish to read from all of your pre-downloaded texts.
A dropdown menu under "My Library" shows options: Recently Read, Favorites, Downloaded (highlighted), and All Books. Below, a Recently Read section displays three book covers.

Materials overview

Not every school will operate the same way, but students attending schools that have both the print and digital editions of the program will likely have the following print materials at home:

  • Student Edition: This includes all of the readings and activities necessary for instruction throughout the year. Students can read the selections both digitally and in print, annotating in either format. The lessons in the print Student Edition reflect each digital lesson, but have been modified to work effectively in print. 
  • Writing Journals: This provides space for students to respond to Writing Prompts and complete other written assignments. 

In the case that students are without access to devices or the internet, they can continue to complete key reading and writing assignments using the print Student Editions and student Writing Journals.

Teachers can also access, print, and mail student Novel Guides for up to 12 commonly taught novels. Six of these novels are available in the Amplify Library, and most should be available in a public library.

Unit overviews

Below are quick overviews of each unit your student will be working through in their grade throughout the year. Included along with each unit is a downloadable guide that provides a more in-depth look at what content is covered and how you can help your student advance their understanding of the topics.

  • Unit 6A: Dahl & Narrative  
    • Students begin with narrative writing to quickly boost their writing production, learn the foundational skill of focus, and become comfortable with key classroom habits and routines they will use all year. Students then apply their new observational focus to some lively readings from Roald Dahl’s memoir Boy and learn how to work closely with textual evidence.
  • Unit 6B: Mysteries & Investigations
    • Students read like an investigator to embark on a multi-genre study of the mesmerizing world of scientific and investigative sleuthing. At the end of the unit, students write an essay explaining which trait is most useful to problem-solving investigators.
  • Unit 6C: The Chocolate Collection
    • The Aztecs used it as currency. Robert Falcon Scott took it to the Antarctic. The Nazis made it into a bomb designed to kill Churchill. The 3,700-year-long history of chocolate is full of twists and turns, making it a rich and rewarding research topic. In this unit, students explore primary source documents and conduct independent research to better understand the strange and wonderful range of roles that chocolate has played for centuries around the world.
  • Unit 6D: The Greeks
    • Greek myths help us understand not only ancient Greek culture but also the world around us and our role in it. Drawing on the routines and skills established in previous units, these lessons ask students to move from considering the state of a single person—themselves or a character—to contemplating broader questions concerning the role people play in the world and the communities they inhabit within it.
  • Unit 6E: Summer of Mariposas
    • The borderlands between the United States and Mexico are the place of legends, both true and fictional. Summer of the Mariposas, by Guadalupe Garcia McCall, plants a retelling of the Odyssey into this setting, launching five sisters on an adventure into a world of heroes and evildoers derived from Aztec myths and Latinx legends. On the journey, the sisters reconcile the dissolution of their parent’s marriage and find new strength in their identity and connection to Aztec lineage. Students consider how McCall uses the structure of the hero’s journey to celebrate women, heritage, and a broad definition of family. Students also have the opportunity to compare these characters’ fictional journey into Mexico to a description of one boy’s true journey into the United States.
  • Unit 6F: The Titanic Collection 
    • In this research unit, students learn to tell the difference between primary, secondary, and tertiary sources; determine if a given source is reliable; and understand the ethical uses of information. Students then construct their own research questions and explore the internet for answers. They also take on the role of a passenger from the Titanic’s manifest to consider gender and class issues as they research and write narrative accounts from the point of view of their passenger.  
  • Unit 6G: Beginning Story Writing
    • In this unit, students get to practice their creative writing skills and learn the elements of storytelling and character development, as well as the importance of vivid language. Students gain a sense of ownership over their writing as they experiment with the impact of their authorial choices on sentences, language, character traits, and plot twists.
  • Grade 6: Grammar
    • In this unit, students complete self-guided grammar instruction and practice that teachers assign to them throughout the year. Sub-units are organized by key grammar topics, so teachers can assign the content that best meets their student’s needs while making sure students work with the key grammar topics for their grades.
  • Unit 7A: Red Scarf Girl & Narrative
    • In this study of a highly engaging memoir of a young woman growing up in China during the Cultural Revolution, students quickly learn the history and politics of this tumultuous period by focusing on the story of someone living through the upheaval. As students follow her journey through a world turned upside down, they will track the changes in her feelings and motivations over time.
  • Unit 7B: Character & Conflict
    • By reading the play A Raisin in the Sun and the short story “Sucker,” students explore how people facing hardships can inflict unintentional harm on the people around them. The two narratives work together to provide opportunities for students to analyze characters’ responses to conflict and the author’s development of ideas over the course of a piece of fiction.
  • Unit 7C: Brain Science
    • Could you survive an iron rod through your skull? Phineas Gage did, and his gruesome-but-true story allows students to build background information and analyze other informational texts, including the contemporary The Man Who Mistook His Wife For A Hat and the relevant Demystifying the Adolescent Brain.
  • Unit 7D: Poetry & Poe
    • Poe’s texts always offer so much to notice, decipher, talk about—and creep us out. Since things are not always what they seem, students must use close reading skills to question whether they should believe what Poe’s narrator is telling them … or not.
  • Unit 7E: The Frida & Diego Collection
    • Mexico’s most famous and provocative artists, Diego Rivera and Frida Kahlo, were an extraordinary couple who lived in extraordinary times. They were both soul mates and complete opposites. Their multifaceted lives and work offer students rich and fascinating subjects to study as they examine primary source documents and conduct independent research.
  • Unit 7F: The Gold Rush Collection
    • In this research unit, students choose from a large collection of primary and secondary sources to learn about the wide range of people who took part in the California Gold Rush. They also take on the role of someone who lived during the gold rush and write journal entries from their perspective.
  • Unit 7G: Intermediate Story Writing
    • In this unit, students get to practice their creative writing skills and learn the elements of storytelling and character development, as well as the importance of vivid language. Students gain a sense of ownership over their writing as they experiment with the impact of their authorial choices on sentences, language, character traits, and plot twists.
  • Grade 7: Grammar
    • In this unit, students complete self-guided grammar instruction and practice that teachers assign to them throughout the year. Sub-units are organized by key grammar topics, so teachers can assign the content that best meets their student’s needs while making sure students work with the key grammar topics for their grades.
  • Unit 8A: Perspectives & Narrative
    • This unit aims to teach students to read like writersThey practice paying attention to the craft of writing and to the moves a good writer makes to shape the way we see a scene or feel about a character—to stir us up, surprise us, or leave us wondering what will happen next. Students closely read examples of rich, layered narrative nonfiction, analyze the techniques each author uses to make their writing resonate, and practice applying these techniques to their own narrative writing.
  • Unit 8B: Liberty & Equality
    • In this unit, students look at the words of a range of creators—from poet Walt Whitman to abolitionist Frederick Douglass to President Abraham Lincoln—to see how their writing contributed to an extreme shift in social organization: a whole new concept of what it means for people to be considered “equal.” They also study multiple perspectives on the Civil War, including the memoir of a girl who was enslaved, a confederate girl’s diary, and a nonfiction account of the young boys who served as soldiers during the war. 
  • Unit 8C: Science & Science Fiction
    • Students read Gris Grimly’s Frankenstein, a graphic novel that adds captivating illustrations to an abridgment of the 1818 edition of Mary Shelley’s book. Paired with Shelley’s text, Grimly’s haunting—and, at times, horrific—representations of Frankenstein’s creature push students to wrestle with some of the text’s central themes: the source of humanity and the root of evil. Students then write an essay in which, after arguing both sides of the question, they determine whether or not Frankenstein’s creature should ultimately be considered human.
  • Unit 8D: Shakespeare’s Romeo & Juliet
    • Romeo and Juliet combines romance with action, offering a wide range of themes and scenes for students to read about and act out. Your middle schoolers are at the right age to identify with the lovers’ strong feelings—and also old enough to think critically about the choices Romeo and Juliet make.
  • Unit 8E: Holocaust: Memory & Meaning
    • This unit uses a range of primary source articles, images, and videos, as well as literary nonfiction and graphic nonfiction, to study what made the atrocities of the Holocaust possible. Students investigate how propaganda was generated and employed to create a political environment that ultimately corrupted a society. The Olympics are seen through the lens of an international propaganda campaign, providing cover for Nazis to begin eliminating non-Aryans from their culture. The final sub-unit examines the outcomes of Nazi doctrine and the impact on Jewish victims and survivors.
  • Unit 8F: The Space Race Collection
    • In this unit, students to put their research and close-reading skills to the test to distinguish between reliable  and unreliable sources, explore primary documents, and conduct independent research to better understand the space race that took place between two of the world’s superpowers. This dramatic story offers students a rich research topic to explore as they build information literacy skills, learn how to construct their own research questions, and explore the internet for answers.
  • Grade 8: Grammar
    • In this unit, students complete self-guided grammar instruction and practice that teachers assign to them throughout the year. Sub-units are organized by key grammar topics, so teachers can assign the content that best meets their student’s needs while making sure students work with the key grammar topics for their grades.
  • Unit 8G: Advanced Story Writing
    • In this unit, students get to practice their creative writing skills. They’ll learn the elements of storytelling and character development, and the power of vivid language to grab readers and pull them into a story.

Additional activities

Quests: 

You may notice your student working with peers on the same interactive project over several days, trying to solve a mystery or explain a historical event. That’s what happens when a teacher assigns a Quest: an in-depth week-long exploration that requires collaboration and deepens engagement with texts and topics.

Vocab App:

The Vocab App helps students master vocabulary words through game-like activities that challenge them to think through morphology, analogy, and synonyms/antonyms, and to decipher meaning through context.

Have a question about Amplify ELA?

Visit our help library to search for articles with answers to your program questions. 

For additional curriculum support, please contact your student’s teacher.

Welcome, Amplify Science elementary school families!

Para la versión en español, haga clic aquí.

Two middle school girls conduct a science experiment

Next Generation Science Standards letter

Two documents side by side, one in English and one in Spanish, both titled with information about the NGSS for parents and guardians and containing paragraphs of text.

Each unit includes a letter describing the Next Generation Science Standards and how they’re reflected in all units at a particular grade.

Click on your student’s grade below to download the letter for that grade:

Unit Maps

Two pages of a document titled "Needs of Plants and Animals: Planning for the Unit," featuring an "Unit Map" label and blocks of text in black on a white background.

Each unit in Amplify Science has a Unit Map for the teacher. This document outlines the scientific questions the students come across in the unit, and how they will figure out the answers.

Click on your student’s grade to download all of the Unit Maps for that grade:

Simulations

In grades 3–5, students use interactive digital apps as one way of figuring out unit phenomena. This short video shows an example of a simulation.

Resource for back-to-school night

A webpage for Amplify Science displays a grid of colorful nature-themed illustrations and text promoting a core curriculum for grades K-8.

This presentation (available for download) provides a general overview of the Amplify Science curriculum. Your student’s teacher may have used this resource during back-to-school night.

Home investigations

Four educational posters for Amplify Science show students engaging in hands-on science activities and a scientist in a lab coat with worksheets on the right.

If you’re interested in extending the Amplify Science classroom experience at home use the Scientist Profile Cards to spark discussions about careers in science and engineering!

The Amplify Science program also includes several Home Investigations that you can explore with your students outside of the school day. Your student’s teacher may assign the Home Investigations as the class progresses through the units, but if you’d like to explore them on your own, you can do so by clicking on your student’s grade below:

Questions for at-home discussion

For Amplify Science families, the Questions for At-Home Discussion documents for every unit in grades K–5 contain questions for families to ask their students to help guide continued discussion and learning outside the classroom.

Kindergarten

Grade 1

Grade 2

Grade 3

Grade 4

Grade 5

Contact us

We’re here to help you!

Have a question about Amplify Science? Visit our help library to search for articles with answers to your program questions. For additional curriculum support, contact your student’s teacher.

Digital Teacher’s Guide – grades K–5

Click below and select “Teacher” on the login screen to preview the curriculum

View the full program guide.

Click here to view a materials list.

If you have logged in to Amplify Science in the past, you will need to log in with the new credentials above.

When you are finished reviewing, sign out of the digital curriculum. Need help?

Preview now

Student digital resources – grades K–5

Students in elementary school work primarily offline. Students in grades 2 through 5 have access to digital simulations and modeling tools through the Student Apps page. Click below to view the Amplify Science Digital Student Library.

When you are finished reviewing, sign out of the digital curriculum. Need help?

Preview now

Course structure for grades K–5

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Weather
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate
  • Energy and Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

Contact your Redmond representative directly

Patrick Momsen
District Manager
Email: pmomsen@amplify.com
Phone: 541-207-2148

A powerful partnership

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

The Lawrence Hall of Science
The University of California, Berkeley’s Lawrence Hall of Science is a recognized leader in PreK–12 science education, producing groundbreaking curriculum products for more than 40 years, including the international award-winning Seeds of Science/Roots of Reading®. The Hall’s curriculum materials are used in one in four classrooms across the nation. Read more about The Hall’s research-proven Do, Talk, Read, Write, Visualize multimodal learning model.

Amplify
Amplify has been pioneering digital education products for more than 15 years, empowering teachers across the country to offer more personalized instruction and accelerate the potential of their students to become more active, engaged learners. Amplify has supported more than 200,000 educators and three million students in all 50 states.

Multimodal learning model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation, and importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Elementary school course structure

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate
  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

Middle school course structure (Integrated Model)

  • Launch:
    Microbiome
  • Metabolism
  • Engineering Internship:
    Metabolism
  • Traits and Reproduction
  • Thermal Energy
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship:
    Earth’s Changing Climate
  • Launch:
    Geology on Mars
  • Plate Motion
  • Engineering Internship:
    Plate Motion
  • Rock Transformations
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Launch:
    Harnessing Human Energy
  • Force and Motion
  • Engineering Internship:
    Force and Motion
  • Magnetic Fields
  • Light Waves
  • Earth, Moon, and Sun
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary

Ready to learn more?

To begin your review, click the button below and fill out the form for more information about Amplify Science and to access the online digital curriculum.

Watch a video walkthrough

Elementary school

Middle school

Contact your Arkansas representative directly

Marty Pitts
Senior Account Executive
Email: mpitts@amplify.com
Phone: (214) 945-5544

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

The Lawrence Hall of Science
The University of California, Berkeley’s Lawrence Hall of Science is a recognized leader in PreK–12 science education, producing groundbreaking curriculum products for more than 40 years, including the international award-winning Seeds of Science/Roots of Reading®. The Hall’s curriculum materials are used in one in four classrooms across the nation. Read more about The Hall’s research-proven Do, Talk, Read, Write, Visualize multimodal learning model.

The logo for The Lawrence Hall of Science, University of California, Berkeley, features blue text on a light background and is recognized by educators using Amplify Science for middle school science programs.

Amplify
Amplify has been pioneering digital education products for more than 15 years, empowering teachers across the country to offer more personalized instruction and accelerate the potential of their students to become more active, engaged learners. Amplify has supported more than 200,000 educators and three million students in all 50 states.

Elementary school course structure

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

Middle school course structure (Integrated Model)

  • Launch:
    Microbiome
  • Metabolism
  • Engineering Internship:
    Metabolism
  • Traits and Reproduction
  • Thermal Energy
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship:
    Earth’s Changing Climate
  • Launch:
    Geology on Mars
  • Plate Motion
  • Engineering Internship:
    Plate Motion
  • Rock Transformations
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Launch:
    Harnessing Human Energy
  • Force and Motion
  • Engineering Internship:
    Force and Motion
  • Magnetic Fields
  • Light Waves
  • Earth, Moon, and Sun
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary

Watch a video walkthrough

Elementary school

Middle school

Review the program (K–5)

For K–5 units, the teacher accesses the digital curriculum or printed Teacher’s Guide for daily instruction while students read Student Books, conduct investigations using the hands-on kit materials, and record observations in their Student Investigation Notebooks. When lessons call for students to access the simulations or “sims” in grades 2–5 (about once per week), they share devices.

You can review all of Amplify Science online through this review site.

Before you dive into the digital curriculum, download and review some of these helpful resources:

You will find unit overviews and complete materials lists as well as downloadable versions of the Student Investigation Notebooks within the program itself. When you’re ready, click Preview now below. You’ll automatically be taken on a short guided tour where you can select the grade you’re interested in reviewing.

Preview now

Questions come up during your review? Email scihelp@amplify.com and mention that you are a reviewer in the subject of the email.

Review the program (6–8)

For 6–8 units, the teacher accesses the digital curriculum or printed Teacher’s Guide for daily instruction while students use their Student Investigation Notebooks, the hands-on kit materials, and their digital student accounts to access simulations or “sims”, modeling tools, assessments, and more.

Before you dive into the digital curriculum, download and review some of these helpful resources:

You will find unit overviews and complete materials lists as well as downloadable versions of the Student Investigation Notebooks within the program itself. When you’re ready, click Preview now below. You’ll automatically be taken on a short guided tour where you can select the grade you’re interested in reviewing.

Preview now

Questions come up during your review? Email scihelp@amplify.com and mention that you are a reviewer in the subject of the email.

View technology requirements.

Contact your Amplify representative directly

Patti Savage
Senior Account Executive
Email: psavage@amplify.com
Phone: (626) 224-3174

Inspiring the next generation of Hawaii scientists, engineers, and curious citizens

Amplify Science is a brand-new, engaging core curriculum designed for three-dimensional, phenomena-based learning.

Illustration of a pixelated green mountain cliff deconstructing into a digital grid, with red dots floating over a tranquil sea and flying white birds.

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

The Lawrence Hall of Science
The University of California, Berkeley’s Lawrence Hall of Science is a recognized leader in PreK–12 science education, producing groundbreaking curriculum products for more than 40 years, including the international award-winning Seeds of Science/Roots of Reading®. The Hall’s curriculum materials are used in one in four classrooms across the nation. Read more about The Hall’s research-proven Do, Talk, Read, Write, Visualize multimodal learning model.

Amplify
Amplify has been pioneering digital education products for more than 15 years, empowering teachers across the country to offer more personalized instruction and accelerate the potential of their students to become more active, engaged learners. Amplify has supported more than 200,000 educators and three million students in all 50 states.

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation, and importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Elementary school course structure

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate
  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

Middle school course structure (Integrated Model)

  • Launch:
    Microbiome
  • Metabolism
  • Engineering Internship:
    Metabolism
  • Traits and Reproduction
  • Thermal Energy
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship:
    Earth’s Changing Climate
  • Launch:
    Geology on Mars
  • Plate Motion
  • Engineering Internship:
    Plate Motion
  • Rock Transformations
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Launch:
    Harnessing Human Energy
  • Force and Motion
  • Engineering Internship:
    Force and Motion
  • Magnetic Fields
  • Light Waves
  • Earth, Moon, and Sun
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary

Ready to learn more?

To begin your review, click the button below to access the digital Teacher’s Guide.

Review now

Watch a video walkthrough

Elementary school

Middle school

Contact your Hawaii representative directly

Laina Armbruster

Account Executive
Email: larmbruster@amplify.com
Phone: (602) 791-4135

Inspiring the next generation of Idaho scientists, engineers, and curious citizens

Amplify Science is a brand-new, engaging core curriculum designed for three-dimensional, phenomena-based learning.

image of Amplify Science and science classroom materials for science teachers

A powerful partnership

Amplify Science was developed by the science education experts at the University of, Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

The logo for The Lawrence Hall of Science, University of California, Berkeley, features blue text on a light background and is recognized by educators using Amplify Science for middle school science programs.

The University of California, Berkeley’s Lawrence Hall of Science is a recognized leader in PreK–12 science education, producing groundbreaking curriculum products for more than 40 years, including the international award-winning Seeds of Science/Roots of Reading®. The Hall’s curriculum materials are used in one in four classrooms across the nation. Read more about The Hall’s research-proven Do, Talk, Read, Write, Visualize multimodal learning model.

Amplify has been pioneering digital education products for more than 15 years, empowering teachers across the country to offer more personalized instruction and accelerate the potential of their students to become more active, engaged learners. Amplify has supported more than 200,000 educators and three million students in all 50 states.

Multimodal learning model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation, and importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Elementary school course structure

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate
  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

Middle school course structure (domain model)

  • Launch:
    Geology on Mars
  • Plate Motion
  • Engineering Internship:
    Plate Motion
  • Rock Transformations
  • Earth, Moon, and Sun
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship:
    Earth’s Changing Climate
  • Launch:
    Microbiome
  • Metabolism
  • Engineering Internship:
    Metabolism
  • Traits and Reproduction
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary History
  • Launch:
    Harnessing Human Energy
  • Force and Motion
  • Engineering Internship:
    Force and Motion
  • Magnetic Fields
  • Thermal Energy
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions
  • Light

Spanish-language support

Amplify Science is committed to providing support to meet the needs of all learners, including multiple access points for Spanish-speaking students. Developed in conjunction with Spanish-language experts and classroom teachers, multiple components are available in Spanish across the Amplify Science curriculum.

Spanish-language materials include:

COMPONENTTEACHER/STUDENT
Student Investigation Notebooks (K-8)Student
Science articles (6-8)Student
Student Books (K-5)Student
Video transcripts (6-8)Student
Digital simulation translation key (6-8)Student
Printed classroom materials (K-8)
(Unit and chapter questions, key concepts, vocabulary cards, etc.)		Teacher and student
Copymasters (K-8)Teacher
Assessments (K-8)Teacher

Contact your Idaho representative directly

Bob McCarty
Senior Account Executive
Email: rmccarty@amplify.com
Phone: (435) 655-1731

Access the curriculum

To begin your review, click the button below for more information about Amplify Science and to access the online digital curriculum.

Review now

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

The logo for The Lawrence Hall of Science, University of California, Berkeley, features blue text on a light background and is recognized by educators using Amplify Science for middle school science programs.

The University of California, Berkeley’s Lawrence Hall of Science is a recognized leader in PreK–12 science education, producing groundbreaking curriculum products for more than 40 years, including the international award-winning Seeds of Science/Roots of Reading®. The Hall’s curriculum materials are used in one in four classrooms across the nation.

Amplify has been pioneering digital education products for more than 15 years, empowering teachers across the country to offer more personalized instruction and accelerate the potential of their students to become more active, engaged learners. Amplify has supported more than 200,000 educators and three million students in all 50 states.

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on experience in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK Student-to-student discourse and full class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation, and importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE Following real-world practices, students write scientific arguments based on evidence they’ve collected, clearly expressing their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE By manipulating digital simulations and using modeling tools to craft visualizations of their thinking—just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Elementary school course structure

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate
  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

Middle school course structure (domain model)

  • Launch:
    Geology on Mars
  • Plate Motion
  • Engineering Internship:
    Plate Motion
  • Rock Transformations
  • Earth, Moon, and Sun
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship:
    Earth’s Changing Climate
  • Launch:
    Microbiome
  • Metabolism
  • Engineering Internship:
    Metabolism
  • Traits and Reproduction
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary History
  • Launch:
    Harnessing Human Energy
  • Force and Motion
  • Engineering Internship:
    Force and Motion
  • Magnetic Fields
  • Thermal Energy
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions
  • Light

Middle school course structure (integrated model)

  • Launch:
    Microbiome
  • Metabolism
  • Engineering Internship:
    Metabolism
  • Traits and Reproduction
  • Thermal Energy
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship:
    Earth’s Changing Climate
  • Launch:
    Geology on Mars
  • Plate Motion
  • Engineering Internship:
    Plate Motion
  • Rock Transformations
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Launch:
    Harnessing Human Energy
  • Force and Motion
  • Engineering Internship:
    Force and Motion
  • Magnetic Fields
  • Light Waves
  • Earth, Moon, and Sun
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary

Begin your review

To begin your review, click the button below to log in as a teacher.

Access program

Watch a video walkthrough

Elementary School

Middle School

Contact your Delaware representative

Denise Donahue

Account Executive
Email: ddonahue@amplify.com
Phone: (410) 251-5855

Inspiring the next generation of Oklahoma scientists, engineers, and curious citizens

Amplify Science is an engaging new core curriculum designed for three-dimensional, phenomena-based learning.

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Oklahoma Instructional Samplers

Video: Oklahoma Spotlight on All Learners (SPED, G & T, EL, DEI)

Kindergarten

Grade 1

Grade 2

Grade 3

Grade 4

Grade 5

Grade 6

Grade 7

Grade 8

Resources to support your review

Remote and hybrid learning support

Oklahoma Spotlight Video: Remote and Hybrid Learning

Amplify has launched a new remote learning solution called Amplify Science @Home. Intended to make extended remote learning and hybrid learning easier, Amplify Science@Home includes two useful options for continuing instruction: @Home Videos and @Home Units. 

Amplify Science @Home Videos are recordings of real Amplify Science teachers teaching the lessons. For those teachers who are unable to meet synchronously with their students, the recorded lessons are a great way to keep their students on track and engaged with Amplify Science while at home. These videos will be produced for all K–5 units, and for the first four units of each 6–8 grade level. Their release will be rolling, beginning in August 2021.   

Amplify Science@Home Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @Home Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. @Home Units will be developed for all Amplify Science K–8 units. Each @Home unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @Home Units if synchronous learning or in-class time with students is available.
  • Overviews to send home to families.

Student materials are available in two formats:

  • @Home Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home.
  • Downloadable @Home Packets (PDF) for students without access to technology at home.

Download the remote and hybrid learning guide.

What’s included

Flexible resources that work seamlessly together
Oklahoma Spotlight Video: Instructional Resources: More than a textbook!

Science articles
The middle school science articles serve as sources for evidence collection and were authored by science and literacy experts at the Lawrence Hall of Science.

Student Investigation Notebooks
Available for every unit, the Student Investigation Notebooks provide space for students to:

  • record data.
  • reflect on ideas from texts and investigations.
  • construct explanations and arguments.

Available with full-color article compilations for middle school units.

Digital student experience
Students access the digital simulations and modeling tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • conduct hands-on investigations.
  • engage in active reading and writing activities.
  • participate in discussions.
  • record observations.
  • craft end-of-unit scientific arguments.

Oklahoma Spotlight Video: Spotlight on Simulations

Teacher’s Guides
Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • Classroom Slides.
  • detailed lesson plans.
  • unit and chapter overview documentation.
  • differentiation strategies.
  • standards alignments.
  • in-context professional development.

Oklahoma Spotlight Video: Classroom Slides

Hands-on materials kits
Hands-on learning is at the heart of Amplify Science. Each unit kit contains:

  • consumable and non-consumable hands-on materials.
  • print classroom display materials.
  • premium print materials for student use (sorting cards, maps, etc).

Scope and sequence

GRADE

UNITS

Kindergarten

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water

Grade 1

  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

GRADE

UNITS

Grade 6

  • Launch: Microbiome
  • Metabolism
  • Plate Motion
  • Plate Motion Engineering Internship
  • Rock Transformations
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Thermal Energy
  • Phase Change

Grade 7

  • Launch: Harnessing Human Energy
  • Chemical Reactions
  • Populations and Resources
  • Matter Energy and Ecosystems
  • Earth’s Changing Climate
  • Earth’s Changing Climate Engineering Internship
  • Magnetic Fields

Grade 8

  • Launch: Geology on Mars
  • Force and Motion
  • Force and Motion Engineering Internship
  • Light Waves
  • Earth, Moon, and Sun
  • Traits and Reproduction
  • Natural Selection
  • Evolutionary History

Oklahoma Academic Standards for Science coverage

Amplify Science was designed from the ground up to meet the Next Generation Science Standards (NGSS), and the Oklahoma Academic Standards for Science (OASS) are closely aligned to the NGSS at K–8. The guidance below is meant to provide support for integrating additional activities that support full coverage of the OASS. You can view the full K–8 OASS correlation here.

Organized by grade level, each section below will outline:

  • additional activities that support 100% alignment to the Oklahoma Academic Standards for Science; 
  • the standard being addressed with the activities; 
  • the recommended placement of the activities within a specific Amplify Science unit; and 
  • PDFs of any accompanying materials that are necessary to implement the activities. 

Standard: 1.ESS3.1: Communicate solutions that will reduce the impact of humans on the land, water, air, and/or other living things in the local environment.

Recommended placement: Animal and Plant Defenses unit, Chapter 1

MaterialsThe Student Book Investigating Monarchs from the unit Needs of Plants and Animals

Investigating Monarchs emphasizes the needs of monarch caterpillars and butterflies and shows what happens when these animals are not able to meet their needs. The book first introduces the life cycle of monarchs, explaining that monarch caterpillars must eat milkweed to survive and change into butterflies. Their summer habitat must have milkweed. The butterflies then migrate a long distance, from the United States to a forest in the mountains of Mexico, where they take shelter in the trees. Their winter habitat must have trees. Scientists discovered that the monarch population in Mexico was greatly reduced because people were cutting down the trees. The forest was then protected, but the monarch population did not recover as expected. Scientists in the United States found evidence that this was because fields with milkweed are being replaced by farms and buildings. This book could be read with the class either before or after Chapter 1 of the Animal and Plant Defenses unit, which focuses on what plants and animals need to do to survive. Students could be asked to reflect on what the monarchs need to survive (including food and shelter), and how human activities impacted the monarchs’ ability to meet those needs. After reading the book, students could brainstorm ideas for how to reduce the impact of humans on the local environment.

Standard: MS-PS4-2: Develop and use a model to describe that waves are reflected, absorbed, or transmitted through various materials.

Recommended placement: Metabolism unit, Lesson 3.3, addition to Activity 5 

Materials“What Eyes Can See” science article

As students investigate metabolism and the body systems, the article “What Eyes Can See” should be assigned to deepen their understanding of information processing and sense receptors and connect that understanding to the emerging idea of the interaction of waves with various materials. The article explores how the only thing we can really see is light. Light travels from a light source to the eye, passing through some materials and bouncing off others. Tiny organs inside the eye called rods and cones absorb energy from light, making vision possible. These interactions between light and materials determine our visible world. 

Instructions:

Download the PDF “What Eyes Can See” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. For example, “Have you ever had an experience where something looked different in one kind of light than in another kind of light? Or where something seemed to appear or disappear when the light changed?”

Standard: MS-PS3-1: Construct and interpret graphical displays of data to describe the relationships of kinetic energy to the mass of an object and to the speed of an object.

Recommended placement: Harnessing Human Energy unit, Lesson 1.4, after Activity 4 

MaterialsForce and Motion simulationActivity instructions and copymasters

In this activity, students use the Force and Motion Simulation to investigate the relationship between kinetic energy, mass, and velocity. 

Instructions

Download the PDF linked above for the Lesson Guide and copymasters needed for the activity. Note that this investigation is typically implemented during the Force and Motion unit. This means the Lesson Guide will contain some incongruous labeling (e.g., unit name), as well as instructions that are out of context and unnecessary for the purposes of addressing this standard at grade 7. We suggest skipping to step 4 of the Instructional Guide to avoid some of this. Your students will get additional exposure to this activity, and indeed the standard as a whole, when they get to the Force and Motion unit in grade 8.

Standards:

  • MS-PS2-3: Ask questions about data to determine the factors that affect the strength of electric and magnetic forces.
  • MS-PS2-5: Conduct an investigation and evaluate the experimental design to provide evidence that fields exist between objects exerting forces on each other even though the objects are not in contact.

Recommended placementForce and Motion unit, after Lesson 1.5 

MaterialsFlextension PDF

This hands-on activity builds on and reinforces students’ understanding of forces that act at a distance, with a focus on electrostatic force. Students explore electrostatic forces, prompted by a set of challenges that they try to accomplish. Next, students generate scientific questions based on their observations. Electrostatic force is less predictable and consistent than magnetic force, and investigating it can be both challenging and intriguing. The purpose of this lesson is for students to gain firsthand experience with electrostatic force and to gain experience generating scientific questions based on observations. You might choose to include this Flextension if you would like your students to have more exposure to electrostatic force, and if you would like to challenge your students to explore and ask questions about a challenging type of force. 

Instructions:

Download the PDF linked above for a detailed Lesson Guide and the copymasters associated with the activity. Note that this activity is typically implemented as an add-on Flextension during the Magnetic Fields unit. This means that you will see some information that is out of context (e.g., placement information, unit title), but the activity itself also works for the purposes of the Force and Motion unit. If you have any questions, please reach out to our support team via the chat icon in your account or help@amplify.com

Explore the Digital Teacher’s Guide

When you’re ready to review, click the orange button below and use your provided login credentials to access the Amplify Science Digital Teacher’s Guide.

Review now

To help familiarize yourself with navigating the digital Teacher’s Guide, watch our navigational guide videos:

Grades K–5:

Grades 6–8:

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We’ve developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans.
  • Information on where to locate standards and other planning materials.
  • Recommendations and tips for day-to-day teaching with Amplify programs.
  • Support with administering and interpreting assessment data and more.

To reach our pedagogical team, use our live chat within your program, call              (800) 823-1969, or email edsupport@amplify.com

Timely technical and program support

Our technical and program support is included and available from 7 a.m. to 7 p.m. ET, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

For your most urgent questions:

  • Use our live chat within your program.
  • Call our toll-free number: (800) 823-1969.

For less urgent questions:

Email support

Contact us

Contact your Oklahoma representative:
Julie Godfrey
Account Executive
jgodfrey@amplify.com
(817) 360-0527

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works.

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Resources to support your review

Remote and hybrid learning support

A child sits at a desk using a laptop. Next to the desk is a bookshelf with books, a fishbowl, and a soccer ball.

Amplify has launched a new remote learning solution called Amplify Science@Home. Intended to make extended remote learning and hybrid learning easier, Amplify Science@Home includes two useful options for continuing instruction: @Home Videos and @Home Units. 

Amplify Science @Home Videos are recordings of real Amplify Science teachers teaching the lessons. For those teachers who are unable to meet synchronously with their students, the recorded lessons are a great way to keep their students on track and engaged with Amplify Science while at home. These videos will be produced for all K–5 units, and for the first four units of each 6–8 grade level. Their release will be rolling, beginning in August.   

Amplify Science@Home Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @Home Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. @Home Units will be developed for all Amplify Science K–8 units. Each @Home Unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @Home Units if synchronous learning or in-class time with students is available.
  • Overviews to send home to families.

Student materials are available in two formats:

  • @Home Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home.
  • Downloadable @Home Packets (PDF) for students without access to technology at home.

Download the Remote and hybrid learning guide.

What’s included:

Flexible resources that work seamlessly together

Science articles
The middle school science articles serve as sources for evidence collection and were authored by science and literacy experts at the Lawrence Hall of Science.

Amplify Science articles

Student Investigation Notebooks
Available for every unit, the Student Investigation Notebooks provide space for students to:

  • record data.
  • reflect on ideas from texts and investigations.
  • construct explanations and arguments.

Available with full-color article compilations for middle school units.

Louisiana-specific Materials

Louisiana Companion Student Booklet

Collection of educational books from 'amplify science' on topics including ocean atmosphere, matter and energy ecosystems, and insect interactions, displayed in various angles.

Digital student experience
Students access the digital simulations and modeling tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • conduct hands-on investigations.
  • engage in active reading and writing activities.
  • participate in discussions.
  • record observations.
  • craft end-of-unit scientific arguments.
A digital illustration showcasing a laptop and a tablet displaying complex data analysis software interfaces with graphs and heatmaps.

Teacher’s Guides
Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • Louisiana Companion Teacher Booklet (6-8)
  • Classroom Slides 
  • detailed lesson plans.
  • unit and chapter overview documentation.
  • differentiation strategies.
  • standards alignments.
  • in-context professional development.
A laptop displaying the Geology on Mars webpage sits beside a book titled "Geology on Mars," both featuring the same cover image of Mars and a spacecraft, perfect for enhancing three-dimensional learning in any science classroom.

Hands-on materials kits
Hands-on learning is at the heart of Amplify Science. Each unit kit contains:

  • consumable and non-consumable hands-on materials.
  • print classroom display materials.
  • premium print materials for student use (sorting cards, maps, etc.).
A perforated rectangular board, three small containers with different powders, a black battery holder with red wires, and three colored alligator clips are arranged on a white background.

Scope and sequence

Amplify Science Louisiana K–5 Program Brochure

GRADE

UNITS

Kindergarten

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water

Grade 1

  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

GRADE

UNITS

Grade 6

  • Launch: Microbiome
  • Populations and Resources
    Additional instruction added: Human impact on Earth systems and Louisiana’s natural resources
  • Matter and Energy in Ecosystems
    Additional instruction added: Structure and properties of matter Structure and function of cells
  • Force and Motion
  • Engineering Internship: Force and Motion
  • Magnetic Fields
  • Earth, Moon, and Sun
  • Light Waves
    Additional instruction added: The function of the cell nucleus

Grade 6 Louisiana  Resources

  • 5 Companion Lessons
  • Units with Companions Lessons: Populations and Resources; Matter and Energy in Ecosystems; Light Waves
  • Louisiana Companion Materials Kit

Grade 7

  • Metabolism
  • Engineering Internship: Metabolism
  • Phase Change
  • Chemical Reactions
  • Traits and Reproduction
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate

Grade 7 Louisiana  Resources

  • 8 Companion Lessons
  • Units with Companions Lessons: Phase ChangeTraits and ReproductionOcean, Atmosphere, and ClimateWeather PatternsEarth’s Changing Climate
  • Louisiana Companion Materials Kit, not needed in 7th grade

Grade 8

  • Launch: Geology on Mars
  • Plate Motion
  • Engineering Internship: Plate Motion
  • Rock Transformations
  • Thermal Energy
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary History

Grade 8 Louisiana Resources

  • 6 Companion Lessons
  • Unit with Companions Lessons: Plate MotionRock TransformationsThermal EnergyNatural Selection
  • Louisiana Companion Materials Kit

Amplify and the Lawrence Hall of Science have created custom Amplify Science Louisiana materials for middle school students and teachers. The Louisiana edition of Amplify Science 6–8 differs from our national program in a few key ways:

  • Standards cited are Louisiana State Standards for Science (LSSS) instead of NGSS
  • A custom scope and sequence tailored to the LSSS is used
  • Louisiana Companion Lessons are included
  • Louisiana companion kits, which contain materials to accommodate the added companion lessons, are available for grades 6 and 8

Explore the Digital Teacher’s Guide

When you’re ready to review, click the orange button below and use your provided login credentials to access the Amplify Science Digital Teacher’s Guide.

Review now

To help familiarize yourself with navigating the digital Teacher’s Guide, watch our navigational guide videos:

Grades K–5:

Grades 6-8

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We have developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans.
  • Information on where to locate standards and other planning materials.
  • Recommendations and tips for day-to-day teaching with Amplify programs.
  • Support with administering and interpreting assessment data and more.

To reach our pedagogical team, use our live chat within your program, call (800) 823-1969, or email edsupport@amplify.com

Timely technical and program support

Our technical and program support is included and available from 7 a.m. to 7 p.m. ET, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

For your most urgent questions:

  • Use our live chat within your program.
  • Call our toll-free number: (800) 823-1969.

For less urgent questions:

Email support

Contact us

Contact your Louisiana representative:
Wayne Hebert
whebert@amplify.com
(337) 298-7833

Inspiring the next generation of Richmond scientists, engineers, and curious citizens

Amplify Science is an engaging core curriculum designed for three-dimensional, phenomena-based learning.

image of Amplify Science and science classroom materials for science teachers

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

The logo for The Lawrence Hall of Science, University of California, Berkeley, features blue text on a light background and is recognized by educators using Amplify Science for middle school science programs.

The University of California, Berkeley’s Lawrence Hall of Science is a recognized leader in PreK–12 science education, producing groundbreaking curriculum products for more than 40 years, including the international award-winning Seeds of Science/Roots of Reading®. The Hall’s curriculum materials are used in one in four classrooms across the nation.

The word "Amplify" is written in large, orange letters with a period at the end on a light background.

Amplify has been pioneering digital education products for more than 15 years, empowering teachers across the country to offer more personalized instruction and accelerate the potential of their students to become more active, engaged learners. Amplify has supported more than 200,000 educators and three million students in all 50 states.

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation, and importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Elementary school course structure

  • Pushes and Pulls
  • Needs of Plants and Animals
  • Sunlight and Water
  • Spinning Earth
  • Light and Sound
  • Animal and Plant Defenses
  • Properties of Materials
  • Plant and Animal Relationships
  • Weather and Climate
  • Balancing Forces
  • Environments and Survival
  • Inheritance and Traits
  • Changing Landforms
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
  • Patterns of Earth and Sky
  • The Earth System
  • Ecosystem Restoration
  • Modeling Matter
  • Energy Conversions
  • Balancing Forces

Middle school course structure

  • Microbiome
  • Earth, Moon, and Sun
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Metabolism
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Traits and Reproduction
  • Natural Selection
  • Evolutionary History
  • Harnessing Human Energy
  • Force and Motion
  • Force and Motion Engineering Internship
  • Thermal Energy
  • Phase Change
  • Light Waves
  • Phase Change Engineering Internship
  • Chemical Reactions
  • Magnetic Fields

Inside an Amplify Science classroom

An infographic explains instructional methods for teachers and students, featuring icons for reading, hands-on activities, discussion, and modeling tools with brief descriptions.

Resources to support your review

Ready to learn more?

To begin your review, fill out the form for more information about Amplify Science and to access the online digital curriculum.

Our Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation, and importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Supporting resources

Scope and sequence

GRADE

UNITS

Kindergarten

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water

Grade 1

  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

GRADE

UNITS

Grade 6

  • Launch: Microbiome
  • Metabolism
  • Metabolism Engineering Internship
  • Thermal Energy
  • Plate Motion
  • Plate Motion Engineering Internship
  • Rock Transformations
  • Weather Patterns
  • Ocean, Atmosphere, and Climate

Grade 7

  • Launch: Harnessing Human Energy
  • Phase Change
  • Phase Change Engineering Internship
  • Magnetic Fields
  • Earth’s Changing Climate
  • Earth’s Changing Climate Engineering Internship
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems

Grade 8

  • Launch: Geology on Mars
  • Earth, Moon, and Sun
  • Light Waves
  • Force and Motion
  • Force and Motion Engineering Internship
  • Traits and Reproduction
  • Natural Selection
  • Natural Selection Engineering Internship
  • Evolutionary History

South Carolina College- and Career-Ready Science Standards 2021

Amplify Science was designed from the ground up to meet the Next Generation Science Standards (NGSS), and the South Carolina College- and Career-Ready Science Standards 2021 are closely aligned to the NGSS at K-8. The guidance below is meant to provide support for integrating additional companion activities that support full coverage of the South Carolina College- and Career-Ready Science Standards 2021.

Organized by grade level, each section below will outline:

  • Additional activities that support 100% alignment to the  South Carolina College- and Career-Ready Science Standards 2021; 
  • The standard being addressed with the activities; 
  • The recommended placement of the activities within a specific Amplify Science unit; and 
  • PDFs of any accompanying materials that are necessary to implement the activities.

Standard: MS-PS1-4: Develop a model that predicts and describes changes in particle motion, temperature, and state of a pure substance when thermal energy is added or removed.
Recommended placementThermal Energy unit, Lesson 4.4, addition to Activity 3
Materials“Liquid Oxygen”
By reading the article “Liquid Oxygen,” which describes how the relationship between attraction and kinetic energy determines when a substance changes phase, students extend their understanding of the possible effects of adding or removing thermal energy to include changes in state (phase). Oxygen is one of the most common elements in the world, but most people are only familiar with oxygen in the gas phase. Because oxygen molecules are only weakly attracted to one another, condensing oxygen is difficult. This article introduces students to molecular attraction and discusses its role in phase change, including how it can be used to turn oxygen from a gas to a liquid.
Instructions:
Download PDFs of the “Liquid Oxygen” and distribute it to students. Before they begin reading, remind students of the Active Reading Guidelines. 

Standard: MS-PS4-2: Develop and use a model to describe that waves are reflected, absorbed, or transmitted through various materials.
Recommended placementWeather Patterns unit, Lesson 4.4, addition to Activity 3
Materials“Harvesting Sunlight”, “Why No One in Space Can Hear You Scream” and “Making Waves at Swim Practice”
After investigating weather patterns, which includes a focus of the effects of energy from sunlight, students extend their learning about light by reading three articles about light and other waves.
“Harvesting Sunlight:” Students read this article to learn about the types of light from the sun that plants use for photosynthesis. The article describes how the sun emits all types of light, but plants can only use certain types of visible light for photosynthesis, mostly red and blue light. Plants also absorb other types of light, and these types of light affect plants in different ways. Students use this information to gather evidence that there are different types of light that can affect a material in different ways.
“Why No One in Space Can Hear You Scream:” Students read this article to learn about how waves are transmitted. Explosions that would be deafening on Earth are silent in space. This is because sound is produced by sound waves and, unlike light waves, sound waves need matter to travel through. Reading about this phenomenon helps students understand the similarities and differences between mechanical and electromagnetic waves.
“Making Waves at Swim Practice:” A practice for the school swim team provides an everyday context for discussing light waves and sound waves in this engaging article. First, the article explores sound waves traveling through different materials–the air, the water of the pool, and even a metal poolside bench. Students discover that sound waves travel at different speeds in different materials. The later part of the article discusses light waves, which also travel at different speeds in different materials. As light waves move from one material to another, they change speed and bend. This bending of light waves is called refraction, and it explains why objects that are partly in the water and partly out of the water (such as the legs of a person sitting on the side of a pool) appear ripply and bent.
Instructions:
Plan one class period for each article. Download PDFs of the  “Harvesting Sunlight,” “Why No One in Space Can Hear You Scream,” and “Making Waves at Swim Practice” articles. For each article, before students begin reading, preview the article and discuss what students already know and what they wonder about the topic, then remind students of the Active Reading Guidelines. 

Standard: MS-PS2-3: Ask questions about data to determine the factors that affect the strength of electric and magnetic forces. MS-PS2-5: Conduct an investigation and evaluate the experimental design to provide evidence that fields exist between objects exerting forces on each other even though the objects are not in contact.
Recommended placementHarnessing Human Energy unit, Lesson 3.4, after Activity 1
Materials“Earth’s Geomagnetism” and “Painting with Static Electricity”
After concluding their investigations of energy transfers and conversions, students read two articles that introduce the topic of forces that act at a distance.
“Earth’s Geomagnetism:” What makes a compass needle point north, no matter what? This article introduces students to Earth’s geomagnetic field and the field lines scientists use to show its direction.
“Painting with Static Electricity:” This article gives students the opportunity to learn about electrostatic fields and forces in the context of spray painting without making a mess. Electrostatic painting systems use electrostatics to draw spray paint toward the object being painted, and nowhere else. Painters charge the object they are painting with a negative charge and the paint with a positive charge. The opposite charges are attracted to one another, causing the paint to move toward the object. This surprising use of electrostatics saves time and paint and keeps things tidy!
Instructions
Plan one class period for each article. Download PDFs of the “Earth’s Geomagnetism” and “Painting with Electricity” articles. For each article, before students begin reading, preview the article and discuss what students already know and what they wonder about the topic, then remind students of the Active Reading Guidelines. 

What’s included

Science articles
The middle school science articles serve as sources for evidence collection and were authored by science and literacy experts at the Lawrence Hall of Science.

Student Investigation Notebooks
Available for every unit, the Student Investigation Notebooks provide space for students to:

  • Record data
  • Reflect on ideas from texts and investigations
  • Construct explanations and arguments

Available with full-color article compilations for middle school units.

Cuatro folletos blancos con detalles en naranja brillante y varias imágenes de temas de la naturaleza en las portadas. Los títulos son parcialmente visibles, centrándose en información sobre el agua y sus usos.

Digital student experience
Students access the digital simulations and modeling tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • Conduct hands-on investigations
  • Engage in active reading and writing activities
  • Participate in discussions
  • Record observations
  • Craft end-of-unit scientific arguments
Una fotografía de tres pantallas de computadora que muestran diferentes interfaces de software: código sobre un fondo negro, un mapa de calor del clima y un entorno de programación gráfico.

Teacher’s Guides
Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • Classroom Slides
  • Detailed lesson plans
  • Unit and chapter overview documentation
  • Differentiation strategies
  • Standards alignments
  • In-context professional development
A laptop displaying the Geology on Mars webpage sits beside a book titled "Geology on Mars," both featuring the same cover image of Mars and a spacecraft, perfect for enhancing three-dimensional learning in any science classroom.

Hands-on materials kits
Hands-on learning is at the heart of Amplify Science. Each unit kit contains:

  • Consumable and non-consumable hands-on materials
  • Print classroom display materials
  • Premium print materials for student use (sorting cards, maps, etc.)
A perforated rectangular board, three small containers with different powders, a black battery holder with red wires, and three colored alligator clips are arranged on a white background.

Remote and hybrid learning supports

Una persona sentada en un escritorio usando una computadora portátil, con una estantería que contiene libros, una pecera y una pelota de fútbol cerca.

Amplify has launched a new remote learning solution called Amplify Science@Home. Intended to make extended remote learning and hybrid learning easier, Amplify Science@Home includes two useful options for continuing instruction: @Home Videos and @Home Units. 

Amplify Science @Home Videos are recordings of real Amplify Science teachers teaching the lessons. For those teachers who are unable to meet synchronously with their students, the recorded lessons are a great way to keep their students on track and engaged with Amplify Science while at home. These videos will be produced for all K–5 units, and for the first four units of each 6–8 grade level. Their release will be rolling, beginning in August.   

Amplify Science@Home Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @Home Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. @Home Units will be developed for all Amplify Science K–8 units. Each @Home unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @Home Units if synchronous learning or in-class time with students is available.
  • Overviews to send home to families.

Student materials are available in two formats:

  • @Home Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home.
  • Downloadable @Home Packets (PDF) for students without access to technology at home.

Download the Remote and hybrid learning guide.

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We have developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans
  • Information on where to locate standards and other planning materials
  • Recommendations and tips for day-to-day teaching with Amplify programs
  • Support with administering and interpreting assessment data and more

To reach our pedagogical team, use our live chat within your program, call (800) 823-1969, or email edsupport@amplify.com

Timely technical and program support

Our technical and program support is included and available from 7 a.m. to 7 p.m. ET, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

For your most urgent questions:

  • Use our live chat within your program
  • Call our toll-free number: (800) 823-1969

For less urgent questions:

Email support

Contact us

Contact your South Carolina team representatives:
Jeff Rutter
Field Manager
jrutter@amplify.com
(727) 512-8440

Lisa Jurovaty
Account Executive (West South Carolina)
ljurovaty@amplify.com
(803) 526-1899

Cathy McMillan (East South Carolina)
Senior Account Executive
cmcmillan@amplify.com
(904) 465-9904

Inspiring the next generation of Alabama scientists, engineers, and curious citizens

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A powerful partnership

Amplify Science was developed by the science education experts at the University of California, Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

The Lawrence Hall of Science
The University of California, Berkeley’s Lawrence Hall of Science is a recognized leader in PreK-12 science education, producing groundbreaking curriculum products for more than 40 years, including the international award-winning Seeds of Science/Roots of Reading®. The Hall’s curriculum materials are used in one in four classrooms across the nation.

Amplify
Amplify has been pioneering digital education products for more than 15 years, empowering teachers across the country to offer more personalized instruction and accelerate the potential of their students to become more active, engaged learners. Amplify has supported more than 200,000 educators and three million students in all 50 states.

Elementary school curriculum

Grade K

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water

Grade 1

  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

Middle school curriculum – Domain Model

Earth and Space Science

  • Launch:
    Geology on Mars
  • Plate Motion
  • Engineering Internship:
    Plate Motion
  • Rock Transformations
  • Earth, Moon, and Sun
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship:
    Earth’s Changing Climate

Life Science

  • Launch:
    Microbiome
  • Metabolism
  • Engineering Internship:
    Metabolism
  • Traits and Reproduction
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary History

Physical Science

  • Launch:
    Harnessing Human Energy
  • Force and Motion
  • Engineering Internship:
    Force and Motion
  • Magnetic Fields
  • Thermal Energy
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions
  • Light Waves

Middle school curriculum – Integrated Model

Grade 6

  • Launch:
    Microbiome
  • Metabolism
  • Engineering Internship:
    Metabolism
  • Traits and Reproduction
  • Thermal Energy
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship:
    Earth’s Changing Climate

Grade 7

  • Launch:
    Geology on Mars
  • Plate Motion
  • Engineering Internship:
    Plate Motion
  • Rock Transformations
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems

Grade 8

  • Launch:
    Harnessing Human Energy
  • Force and Motion
  • Engineering Internship:
    Force and Motion
  • Magnetic Fields
  • Light Waves
  • Earth, Moon, and Sun
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary History

Standards correlations

Download a full correlation to the Arizona Science Standards.

Spanish-language support

Amplify Science is committed to providing support to meet the needs of all learners, including multiple access points for Spanish-speaking students. Developed in conjunction with Spanish-language experts and classroom teachers, multiple components are available in Spanish across the Amplify Science curriculum.

Spanish-language materials include:

COMPONENTTEACHER/STUDENT
Student Investigation Notebooks (K–8)Student
Science articles (6–8)Student
Student Books (K–5)Student
Video transcripts (6–8)Student
Digital simulation translation key (6–8)Student
Printed classroom materials (K–8)
(Unit and chapter questions, key concepts, vocabulary cards, etc.)		Teacher and student
Copymasters (K–8)Teacher
Assessments (K–8)Teacher

Contact your Arizona representative directly

Thomas Gearhart
Account Executive, Southwest
Email: tgearhart@amplify.com
Phone: (505) 206-7661

Access curriculum now

To begin your review, click the button to access the online digital curriculum.

Preview now

Review the Program Guide.

Watch the video walkthroughs

Elementary school

Middle school

Welcome, Arizona reviewers!

Inspiring the next generation of Arizona scientists, engineers, and curious citizens. Amplify Science is a brand-new, engaging core curriculum designed for three-dimensional, phenomena-based learning.

Two middle school girls conduct a science experiment

A powerful partnership

Amplify Science was developed by the science education experts at the University of California, Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

The Lawrence Hall of Science
The University of California, Berkeley’s Lawrence Hall of Science is a recognized leader in PreK-12 science education, producing groundbreaking curriculum products for more than 40 years, including the international award-winning Seeds of Science/Roots of Reading®. The Hall’s curriculum materials are used in one in four classrooms across the nation.

Amplify
Amplify has been pioneering digital education products for more than 15 years, empowering teachers across the country to offer more personalized instruction and accelerate the potential of their students to become more active, engaged learners. Amplify has supported more than 200,000 educators and three million students in all 50 states.

Elementary school curriculum

Grade K

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water

Grade 1

  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

Middle school curriculum – Domain Model

Earth and Space Science

  • Launch:
    Geology on Mars
  • Plate Motion
  • Engineering Internship:
    Plate Motion
  • Rock Transformations
  • Earth, Moon, and Sun
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship:
    Earth’s Changing Climate

Life Science

  • Launch:
    Microbiome
  • Metabolism
  • Engineering Internship:
    Metabolism
  • Traits and Reproduction
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Natural Selection
  • Engineering Internship: Natural Selection
  • Evolutionary History

Physical Science

  • Light Waves
  • Launch:
    Harnessing Human Energy
  • Force and Motion
  • Engineering Internship:
    Force and Motion
  • Magnetic Fields
  • Thermal Energy
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions

Middle school curriculum – Integrated Model

Grade 6

  • Launch:
    Microbiome
  • Metabolism
  • Engineering Internship:
    Metabolism
  • Traits and Reproduction
  • Thermal Energy
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Engineering Internship:
    Earth’s Changing Climate

Grade 7

  • Launch:
    Geology on Mars
  • Plate Motion
  • Engineering Internship:
    Plate Motion
  • Rock Transformations
  • Phase Change
  • Engineering Internship: Phase Change
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems

Grade 8

  • Evolutionary History
  • Launch:
    Harnessing Human Energy
  • Force and Motion
  • Engineering Internship:
    Force and Motion
  • Magnetic Fields
  • Light Waves
  • Earth, Moon, and Sun
  • Natural Selection
  • Engineering Internship: Natural Selection

Standards correlations

Download a full correlation to the Arizona Science Standards.

Spanish-language support

Amplify Science is committed to providing support to meet the needs of all learners, including multiple access points for Spanish-speaking students. Developed in conjunction with Spanish-language experts and classroom teachers, multiple components are available in Spanish across the Amplify Science curriculum.

Spanish-language materials include:

Components
Teacher / Student
  • Student Investigation Notebooks (K–8)
  • Student
  • Student Books (K–5)
  • Student
  • Science articles (6–8)
  • Student
  • Video transcripts (6–8)
  • Student
  • Digital simulation translation key (6–8)
  • Student
  • Printed classroom materials (K–8)
    (i.e., Unit and chapter questions, key concepts, vocabulary cards, etc.)
  • Teacher / Student
  • Copymasters (K–8)
  • Teacher
  • Assessments (K–8)
  • Teacher

Program Guide

For more information about the program, see our
Amplify Science Digital Program Guide.

Watch the video walkthroughs

Elementary school

Middle school

Demo access and your Arizona representative

To request demo access, please contact your Account Executive.

Thomas Gearhart
Senior Account Executive
Western, Eastern, and Southern AZ
Email: tgearhart@amplify.com
Phone: (505) 206-7661

Yvonne Rohde
Senior Account Executive
Northern AZ
Email: yrohde@amplify.com
Phone: (480) 673-0019

Laina Armbuster
Account Executive
Accounts 3,500 and below
Email: larmbuster@amplify.com
Phone: (602) 791-4135

The power of phenomena in the science classroom

In conversation, something “phenomenal” is something exceptional, extraordinary.
But in science, an event does not have to be “phenomenal” for it to be a phenomenon.
In fact, a phenomenon in science can be as ordinary and predictable as gravity.
To qualify as a scientific phenomenon, an event simply has to be observable.
That is, a scientific phenomenon is an observable event that occurs in the universe. It’s something we can use our science knowledge to explain or predict. Examples of science phenomena include the erosion of dunes or soil, or the formation of bubbles or ice.
And you know what else is observable? The positive impact of phenomena-based learning on the science classroom. That’s why phenomena-based learning is baked into the Next Generation Science Standards (NGSS).

Let’s take a look at why the power of science phenomena to deliver engagement and learning is, dare we say, extraordinary!

The power of phenomena-based learning in science

Many of us learned science a different way, by starting with a general or abstract principle then applying it in the real world.

But when you start with phenomena in science, you start with the observable real-world event. You ask questions: Why is brown water coming out of the pipes built for drinking water? Where did all the monarch butterflies go? You help students see why science is relevant, right from the outset of the inquiry.

Even everyday phenomena—like sunburns, or vision loss—can generate real learning opportunities. Explaining phenomena and designing solutions helps students learn in context, leading to deeper and more transferable knowledge.

The challenge of predicting or explaining the phenomenon becomes the motivation for learning. And it has the added benefit of being how real scientists proceed with their work!

The power of phenomena science lies in its capacity to bring real life into the classroom. A phenomena-based science curriculum engages students by starting with the real and relatable rather than the abstract. It also trains students to be inquisitive, expansive, critical thinkers.

When you shift to a phenomena-based approach, you help students shift from learning about to figuring out.

How the NGSS support phenomena-based learning

The NGSS help students make sense of phenomena in the natural world and in human-designed machines and products.

Learning to explain phenomena and solve problems is the main way that students engage in the three dimensions of the NGSS—they use Science and Engineering Practices (SEPs) to develop and apply Disciplinary Core Ideas (DCIs) and Crosscutting Concepts (CCCs).

Phenomena-centered classrooms also help teachers monitor student progress. As students work toward explaining phenomena, three-dimensional formative assessment is easily embedded throughout instruction.

How to bring phenomena into the science classroom

The power of phenomena-based learning lies in real-world relevance. Also, phenomena don’t generate learning all by themselves—student questions about phenomena guide teaching and learning.

That’s why it’s helpful to make sure students can connect to the phenomenon at hand. The following are a few steps you can take to integrate this approach into your classroom:

  • Ask students what they’re curious about. Why do leaves change color? What is lightning? Why do ice cubes stick to my finger?
  • Connect iterations of a given phenomenon to students’ lives. When discussing how sunlight warms the earth, a teacher might use examples of the sun heating sand, or asphalt depending on where students live.
  • Use one broad anchor phenomenon for the focus of a unit, and investigate related phenomena that relate to students’ interests and experiences. For example, exploring what we see in the sky will lead to different investigations depending on whether students live in an urban area or far from city lights.

Note that an engaging phenomenon does not have to be flashy or unexpected. Even if students think they already know why it rains, they may discover that they actually can’t explain it. Pushing students to inquire more will help them go beyond repeating things they’ve read, and go from learning facts to asking questions that reveal more about the world around them.

How Amplify Science can help

Amplify Science employs phenomena-based learning throughout the curriculum, which is itself phenomena-based and designed around the NGSS.

In one example, 6th graders take on the role of medical students in a hospital, working to diagnose a patient and analyze the metabolism of world-class athletes. In another, 8th graders work to explain Australia’s high skin cancer rates by investigating how light works and interacts with the world it shines on.

And what’s more, Amplify Science for grades 6–8 received an all-green rating from EdReports!

Learn more.

Introducing the 2024 Science of Reading Star Awards

There’s more than one way to name a star. You can honor someone you admire by symbolically attaching their name to a star in the night sky…or you can nominate a teacher you admire or a district lighting the way for students for Amplify’s third annual Science of Reading Star Awards!

As we like to say, it takes a constellation of people to help children learn to read—from district leadership to student families, and from inside the classroom to out there the real world. It also takes science—specifically, the science of teaching reading. And it takes leaders who can successfully lead their district in the shift to a curriculum grounded in the Science of Reading, educators who thoughtfully connect students and their families to the impact of the Science of Reading, and teachers who artfully use evidence-based reading instruction to light the way for their students.

We want to celebrate all of these Science of Reading stars!

That’s why we created the Science of Reading Star Awards. Read on for more information about them, including how to nominate someone (or an entire school or district) for the awards. (And if you’re already ready to nominate a star, go right ahead!)

Honoring stellar educators, leaders, schools, and districts in the Science of Reading

We launched this awards program in 2021—a year when schools, educators, and students were still working to bounce back from pandemic challenges and into a new normal. Even then, educators drove change, leading their school communities on a journey to the Science of Reading.

Our awards program honors educators who advocate for and champion the Science of Reading in their classrooms, schools, and districts. They generate buy-in. They inspire their peers and students. They successfully bring research-based materials, phonics instruction, and foundational literacy skills into their approaches—and have remarkable gains to show for it.

These award-worthy educators can include/have included:

  • Teachers who’ve connected with their students and served as role models for their colleagues by applying the Science of Reading.
  • Principals or district leaders who’ve supervised a successful shift to the Science of Reading in many classrooms across several grades.
  • Schools or districts that are driving changes and seeing incredible results using the Science of Reading.

Meet (and learn from) some of our previous winners!

Javonna L. Mack, Lead Content Teacher, Caddo Parish Schools, LA

Award: Changemaker

How did it feel to be selected as a Star Award finalist?

I was and am still over-the-moon excited about being selected as an Amplify Changemaker Star Award finalist. I was very humbled by becoming the winner. It is an amazing feeling of accomplishment when you receive awards. It has become a hallmark of the hard work I have done in my district to support our push in the Science of Reading.

Do you have any advice for educators submitting to the Science of Reading Star Awards for the first time?

Make sure to tell your story. Be clear and concise. Remember to be reflective of all the ways that you have supported your district. I advise that you speak with your peers and gain feedback as to the ways that you have impacted the work they do. Detail your support. Be unique and track and celebrate your achievements.

Shennoy Barnett, Kindergarten Teacher, Johnston County Public Schools, NC

Award: Data Dynamo

How did it feel to be selected as a Star Award finalist?

It was an amazing feeling even to be considered as a semi-finalist, and an even greater one to be selected as a winner, given that it was my first year using the tool.

Do you have any advice for educators submitting to the Science of Reading Star Awards for the first time?

Your hard work and dedication with your students through [the] Science of Reading will tell your story. Even if you are not selected as a finalist, you are still a winner as you are using an amazing tool and touching the lives of your students.

Anila Nayak, Instructional Coach, Intervention Teacher, Los Angeles Unified School District, CA

Award: Science of Reading Superstar Teacher

How did it feel to be selected as a Star Award finalist?

I felt exhilarated at first and later responsible for sharing my learning about how best to teach children to read. It certainly made me more energized to work harder and continue to improve my practice. The award validated my efforts and steered my obsession to become an efficient and knowledgeable reading teacher.

Do you have any advice for educators submitting to the Science of Reading Star Awards for the first time?

Write your compelling narrative about the impact you make each day in the lives of young readers who need you most. You have the tools to reach students who may be struggling but just have not been reached yet. Tell about how you evolved into an expert despite challenges and how learning about the best ways to teach is an absolutely rich experience. After all, you are impacting so many students through your work. Show your pride, because you are doing important work. The Awards journey opens you up to a community of experts and makes you feel a part of new horizons; you get to listen to many experts and read about the new knowledge that is impacting our understanding of how literacy grows.

You can meet all of our 2023 winners here. Their stories and perspectives may help you discover how you can drive change in your classroom, school, and district with the Science of Reading!

Nominate a Science of Reading star!

Inspired? Now think of the educators in your world—especially those devoted to literacy. Do you know someone who has transformed their classroom and empowered their students with the Science of Reading? (And yes, this person might be you!) How about a school or district that has established strong evidence-based practices and seen incredible results? We also have new categories this year to honor both the traditional and less traditional Science of Reading champions!

Submit your nomination for the 2024 Science of Reading Star Awards by Feb. 15!

All award winners will receive:

The grand prize winner in the District and School categories will receive a regional event hosted by Amplify. The grand prize winner in the Individual category will be given full conference registration and associated travel costs to NCTE in Boston, in Nov. 2024.

Learn more: