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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.

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Podcast cover for "Math Teacher Lounge," Season 4, Episode 1, titled "Joyful math teaching," featuring Kanchan Kant, described as a math educator and transformative leader.

This season on the Math Teacher Lounge podcast, we follow the theme “joyful math” and uncover its meaning.

In this episode, Kanchan Kant joins Bethany Lockhart Johnson and Dan Meyer to discuss the key, early investment she makes at the start of the school year to ensure her math teaching will be joyful for herself and for her students for the rest of the year.

Explore more from Math Teacher Lounge by visiting our main page.

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Dan Meyer (00:00):
Okay, we are recording. Hey folks. Welcome back to Math Teacher Lounge. (laugh)

Bethany Lockhart Johnson (00:06):
Hardly off to a rocking start.

Dan Meyer (00:06):
Yeah. Yeah. <laugh> Did you like my energy there? Hey folks. Welcome back to Math Teacher Lounge. It’s a new season with your host Dan Meyer. And…

Bethany Lockhart Johnson (00:15):
I’m Bethany, Lockhart Johnson. How’s your summer Dan?

Dan Meyer (00:22):
Summer for me feels really hectic as we prepare, here at Amplify, for the new school year, and everyone’s starting these new math programs. So I’ve been feeling quite amped up, like usual in the summer. But also, my kids started big kid school. So I’ve been seeing the educational system from the role of a parent and all the anxieties and I worry, will I be my kids’ teacher’s most annoying parent <laugh> … So what kind of math curriculum you using? Oh, have you heard of core counting? Can I lead a math center? What’s this worksheet about? I’m really worried my kids are just overall gonna hate my vibe when I come around their classes. Uh, <laugh> so lots going on with me.

Bethany Lockhart Johnson (01:06):
It’s already happening for me and I have a toddler.

Dan Meyer (01:10):
<laugh> There we go. Anyway, that’s what I’m up to. That’s how I’m feeling. I’m curious how you’re doing. We haven’t chatted in a while. We’re excited about the podcast, but it’s been a bit, you know? Bethany got a break from me and my antics over the summer. So, how are we finding you here, as we ramp up to the new season?

Bethany Lockhart Johnson (01:24):
Uhhhh. Well, let me just tell you, I have a toddler. That’s kind of all I need to say. Except that’s not all I will say. Of course, I’ll say more. I am exploring, I’m dipping my toe into the extracurricular toddler activities; the music classes of the toddler world, the creative movement of the toddler world. And yeah, I have lots of opinions and lots of things to say about the teachers. And I’m like, Ugh, I can’t wait to be room mom. And just like…<laugh>

Dan Meyer (01:55):
Just let it rip, you know?

Bethany Lockhart Johnson (01:57):
I have opinions on everything and just hope I don’t get kicked out of the class.

Bethany Lockhart Johnson (02:05):
It’s been an eventfully recharging summer and we are ready for this new season. And in fact, we’re so ready that we decided that we were gonna mix up this season. Just a, just a tiny bit. Shall I explain Dan?

Dan Meyer (02:21):
Yeah. Let’s do it.

Bethany Lockhart Johnson (02:22):
So we have loved all the different topics that we have explored in the Math Teacher Lounge world, but we kind of feel like we need to do some more deep dives. So for this season and the foreseeable seasons …

Dan Meyer (02:38):
We’ll see how it goes.

Bethany Lockhart Johnson (02:38):
Let’s stick with this season. For this season. We’re going to be exploring a singular theme.

Dan Meyer (02:46):
We’re not bouncing around. Yep. We’re not bouncing around from a guest to guest going on whatever shiny thing in the river bed catches our eye. We’re gonna take one theme and see where it goes. What we working with here this season?

Bethany Lockhart Johnson (02:57):
This season, we are going to be exploring the idea of joyful math, joyful math. And Dan, the question I have for you is, is the term joyful math one that you use on the regular?

Dan Meyer (03:10):
No, it definitely is not. I think that joy and math are very rarely, you know, connected in the popular mind. Number one, and number two, you know, I’m kind of an ornery fellow, so that’s not my natural kind of description of math. But we decided that it feels like an important one at the moment, because a lot of math teaching–a lot of teaching in general, math teaching in particular–math teaching is often not a joyful discipline for students, where, you know, I’ve done some research where you look at what people type into Google. And I looked at like, what they…why am I bad at X? And I looked at that for where X is math, where it’s science, where it’s reading, where it’s history. And it was just wild to see how many more hits there are out there on the Internet for “why am I bad at math?” People don’t really associate math with joy, but also we’re looking at joyful math in terms of joyful math teaching. Math teaching, teaching in general, is a tough field at the moment with a lot of teachers leaving teaching. And those who remain are having a lot of soul searching and thinking about, why am I here and how do I sustain this work? And in an environment that seems hostile to my interests or my talents, or work-life balance. And so that’ll be the theme that we’re gonna kind of uncover over the course of our season, talking to various interesting guests, including one today about, yeah, joyful math teaching and joyful math.

Dan Meyer (04:43):
And to help us think about what joyful math teaching looks like, we figured we’d first look at what UN-joyful math teaching looks like. It happens to be the case that we’ve been in a pandemic as you might be aware, and teaching has been challenging. And the NEA, our National Education Association, surveyed its member teachers and asked them the following question … Gave a list of issues that school employees have experienced and asked, for each one indicate how serious of a problem this is for you. This is a survey where more than half of members said they are more likely to leave or retire sooner than planned because of the pandemic. And this is almost double the numbers from July, 2020. It’s really hard to keep track of teacher departures and unfilled vacancies across states. So I don’t wanna like blow this up out of proportion, but it does indicate some real challenges in teaching. So Bethany, I was curious, what do you think like at the top of the list, like what kinds of factors, issues facing educators would you imagine there are?

Bethany Lockhart Johnson (05:48):
So if I’m to understand you correctly, these are reasons someone is not actively experiencing joy in the profession of teaching. Like why would they leave?

Dan Meyer (05:58):
Exactly.

Bethany Lockhart Johnson (05:59):
Well, the number one thing that came to mind for me, well, okay. Wait, wait, one other caveat I need to ask about, you said specifically pandemic-related or just in general, because if it’s pandemic-related, then I think, well, there’s health issues, right? That people are concerned about, but in general, the thing that came to mind was a lack of support from administration districts, lack of funding, and overcrowding in classrooms. Like, you know, I saw somebody had 40 students in their classroom. So those are the two things that I can imagine like top on someone’s list that would make them experience less than a joyful day.

Dan Meyer (06:44):
Yeah. There’s a bunch of you’re kind of identifying here. So number seven on the list is lack of respect from parents and the public, which is like 76% of teachers call that out as serious for them. Others that you kind of circled around in terms of resources go like, not enough planning or unstructured time in the job kind of ties into resources. Yeah. But there’s others that are on the list that I’m curious, you wanna take on the swing at it, given what I’ve said here,

Bethany Lockhart Johnson (07:15):
I feel like too much being asked of them, like being asked to wear too many hats, like they’re being asked to not only teach their class, but also cover all the vacancies and supervise recess and, you know, make a delicious, nutritious lunch. That’s what came to mind. Am am I close?

Dan Meyer (07:33):
Yeah. Number four on the list, unfilled job openings leading to more work for remaining staff. People covering, you know, not just the kind of external to teaching work like you’re describing, but also just taking on like losing your prep period, to take on a class that has been unfilled for all kinds of reasons. Yeah.

Bethany Lockhart Johnson (07:54):
Yeah. I’ve only gotten the fourth. Give me one clue, one clue about …

Dan Meyer (07:59):
So, I mean like, so number one is general stress from the coronavirus pandemic, you know, which I feel like …

Bethany Lockhart Johnson (08:06):
I mentioned that.

Dan Meyer (08:07):
I’ll give you that one. Yep, yep, sure. And then number two, close behind, is feeling burned out, which I think ties into what you’re describing as well. I’m giving Bethany credit on that one. The third one is very different from the ones you’ve been describing. I think I cannot in good faith give you even partial credit for this one. I’ll just say it. Student…

Bethany Lockhart Johnson (08:28):
Wait! Dan, this is not how you give clues.

Dan Meyer (08:31):
Here’s a clue. It’s student absences due to COVID19. It’s really hard to deal student absences. That’s your clue.

Bethany Lockhart Johnson (08:40):
That wasn’t a clue that you told me.

Dan Meyer (08:43):
Yeah, let’s see. I think that’s largely it. There’s also pay is too low, is on the list; student behavioral issues, on the list. And I think that about covers it. So all of that, that basket of items has led to more than half of teachers in this survey, saying that they’re more likely to leave or retire from education sooner than planned. And I don’t know. I think we all know teachers who have bailed.

Bethany Lockhart Johnson (09:08):
I’ve never played a board game with you, Dan, but if we ever play a board game, we’re gonna work on your clue giving, ’cause I want to keep guessing. And you just told me.

Dan Meyer (09:22):
Yeah. Yeah.

Bethany Lockhart Johnson (09:22):
In all seriousness, the <laugh>. In all seriousness, I think yes, the stress of the pandemic and students being absent, what some folks are calling unfinished learning, all of those pieces do play into it. But a lot of those things that you’re mentioning on the list are things that are not unique to the pandemic, right? Like those are things that I feel like there is some modicum of control that we could have over shifting the way the culture of the teaching profession is going so that we could create a more joyful experience for educators, administrators, and students.

Dan Meyer (10:03):
Yeah. Good call out. That’s exactly right. We could tax the people who are not in the classrooms more and increase the pay to classroom teachers. You know, there we go.

Bethany Lockhart Johnson (10:11):
Oh. Bingo. Why didn’t we ask you sooner Dan, for your wisdom.

Dan Meyer (10:15):
Yeah. I’m … solved by Dan. Yeah, good point though. So I read that and yeah, I think that there’s been some … people have critiqued the NEA for being very alarmist about teacher departures as the year has ramped up. It has not been quite the flood of departing teachers as was predicted and thank heavens for that, but we should still be very bummed if teachers are unhappy and wanting to leave and feel like they can’t leave. That is definitely not good. So we were really excited to bring to the table, someone who is just a very joyful teacher and one in a very intentional way. Someone who has a lot of discipline in how she approaches the job and the students in it and tries to create a joyful environment for herself, Kanchan Kant. Kanchan is a math and computer science teacher at Newton North High School in Newton, Massachusetts. She’s been sharing her love for math with her students for the past four years, while also being instrumental in setting the culture and ethos of the math department at her school in her role as the assistant department head. We welcome you on the show Kanchan to help us understand joy and math teaching. Thanks for being here.

Bethany Lockhart Johnson (11:29):
Welcome!

Kanchan Kant (11:30):
Thank you for having me. I really appreciate it.

Bethany Lockhart Johnson (11:33):
One of my friends, her son was asked as his first math homework assignment to write out his math bio. And I loved that idea because we got to hear a little bit about your bio from like a broader perspective. But if we were to ask about your math bio, I will speak for myself to say like, automatically certain images flash into my mind, right? To think about my relationship, my evolving relationship with math. But I’m so curious if I was to ask you, what’s your math bio? How did you become the person, mathematically speaking, that you are today? Would you mind sharing a bit about that?

Kanchan Kant (12:10):
Of course I would love to. So I was born and raised in India and I belong to a family which considers mathematics to be extremely important to succeed in life. My father used to have me add and subtract license plates since I was four years old, when we were out and about. I loved math in school, it just made like complete sense to me. It was logical and you know, it was my favorite subject. I loved it all through high school. I had a confidence speed breaker in undergrad. When in my second semester I almost failed the engineering math course that I took. That was the first time math felt like too much and not like my best friend, which it was supposed to be. So it was a while before I could summon the courage to take on another math course in college.

Kanchan Kant (12:56):
But once I did that, it was like old times. I realized I had to persevere through the challenging bits. And once I did that, it started to make sense again. And through my journey, as an educator speaking to people from various backgrounds and like coming to the United States, I realized that math is challenging for everyone at one time or another. For some people that is elementary school. And for some others, it is college or even later. Either way does not mean that you are not a math person. When I was in college, I felt I was not a math person. Whereas my sister, my very own sister said the same thing about math in middle school. Both of us use math every day. And we are definitely, definitely math people. So for me to be a math person is to persevere, to approach problem-solving in a logical manner, and to find the joy in the process ,as well as the answer.

Dan Meyer (13:47):
That’s wonderful. Yeah. A lot of people, have a moment where they feel like almost betrayed by what they thought was a close friend of theirs, with math, where it’s like, wait, I thought we were tight. You know, I thought we were cool. You and me. And there’s that moment. And I wonder if that’s been a useful moment for you to, you know, bring back now and then as a teacher with students who might feel that even, you know, in high school or in a secondary school as a kid.

Kanchan Kant (14:15):
Absolutely. Like when I talk to students and tell them, yes, I had difficulty in math too. It has not always been easy for men and there are still things I struggle with sometimes, then it’s like more modeling for them that you have to persevere, you should persevere. And once you do that, it makes sense and you can feel successful. So, almost every year I end up sharing the story with my students.

Bethany Lockhart Johnson (14:38):
There’s so much value in that, right? That you are sharing that vulnerability with students. And to say your relationship with mathematics has not been, you know, smooth sailing the whole way through. There were times when you had to work harder than others.

Dan Meyer (14:55):
Yeah. Really fun to hear about you and your father as well. I tried to ask my five-year-old to do some skip counting the other day, like, okay, cool, you’re hot stuff. You can count, you know, up by ones, but what about by twos? And the moment really fell flat. And I watched myself becoming the kind of parent who is whose enthusiasm for math is one day resented by his children. I feel a lot of, yeah, I felt your anxiety Kanchan, with math itself. And now I feel anxiety as like someone who loves math and loves to teach math and may one day alienate the people closest to him. <laugh>

Kanchan Kant (15:31):
I don’t like that future. I have a three-month-old. I do not like this future of mine. If I have to go through what you’re going through. Uh, oh, <laugh>

Dan Meyer (15:38):
You got this. So Kanchan, you’re going back to the classroom coming up here at the time of this recording. It’s a few weeks out. And we’re thinking about like the kind of ways that math teachers sustain a disposition that is joyful. How are you feeling right now, as far as going back to class after this summer? Are you feeling excited, anxious, some combo, tell us about it.

Kanchan Kant (16:01):
I would say combo, but more excited than anxious. I was on maternity leave, as I mentioned, before the school year ended, and I missed the students dearly. Like, my students are what gives me hope in the darkest times. They are thoughtful. They’re empathetic. They’re so eager to learn. And very soon into my teaching career, I realized that if I take the time to get to know my students and make them feel safe and seen in my class, teaching them math would be so much easier and so much more fun. So I’m a little worried about this being like fourth year into the pandemic, but let’s see. Last year I felt the students were finding it difficult to interact with and work with their classmates because they had not been doing it for so long. So I’m hoping this year would go a little better and I’m really looking forward to working with them and building community and see how it goes.

Dan Meyer (16:53):
So if I’m understanding you correctly, you are feeling very well recharged here. You had basically an extended summer with this maternity leave, basically just like a lot of rest and relaxation over the last, like several months. Um, if I get you here. So anyway, I’m glad for that for you. And, yeah. I also hear you on the difficulties of teaching post pandemic or mid pandemic. Anyway, thanks for sharing that.

Bethany Lockhart Johnson (17:19):
What I love is I hear you being so intentional, like thinking about those relationships and thinking about that community that you want to build, you know? How do you hope that you’re gonna cultivate joy in your teaching this year? I mean like, are there certain routines or disciplines that you specifically call forth or that you think other teachers should think about?

Kanchan Kant (17:41):
So at the start of every school year, I dedicate like about three to four weeks to set up the classroom culture, both social and academic. I call my classroom a learning community. We start with community circles, we do icebreaker activities, group building and all those kinds of things. But most importantly, we do a lot of collective problem solving. So I try to present students with problems, which can be solved using multiple strategies and have multiple entry points, basically they are low floor, high ceiling problems. These could be stretch problems that they have seen before, like concepts that they already know or logical puzzles, or just wrapping their heads around different problems. Then I have students share their strategies. The more strategies they have on the board, the more successful I think the problem was. Every year, inevitably, students come up with strategies that I’ve never ever seen before for the same problems that I do.

Kanchan Kant (18:35):
And so I have students come up to the board, they would share their strategies. If they’re not ready for that, they would walk me through their strategies. And I would write their name on the board with different colored markers and everything. Basically to give them choice and agency. It also shows them that the process of doing the problem is so much more important than just getting the right answer and that it is okay to make mistakes in our learning community. I use a lot of vertical whiteboards, some concepts and problems align so well with the vertical surfaces, especially when students can explore together, learn from each other. So I do a lot of that. As for routines, I would say consistency is the key. I consistently reinforce that I want to hear multiple strategies, that it is okay to make mistakes. I am willing to learn from you as much as you’re willing to learn from me. So all like that consistency in culture more than the routines, is I feel important to bring that joy.

Dan Meyer (19:29):
That’s super interesting. Thanks for that. So I’ve heard, I hear two common objections or two common concerns to using rich tasks or doing problem solving. And I think I heard like answers to those two common reservations within what you described there, but I wonder if we can kind of bring it to the surface. And so one of the reservations is around the time that those problems take and another is that teachers often feel like, well, I might be surprised, you know, I might not know what to do with what a student does. And I thought I was hearing like some very interesting answers to both of those kinds of reservations from you, but would you just surface those up if you have some.

Kanchan Kant (20:09):
So in terms of time, I feel if I spend the time at the beginning of the year, setting up that community and doing those problems, it makes learning the math and learning the concepts much more faster throughout the rest of the year. And even when I am trying, like, even throughout the year, if we are doing a warm up problem, as I call it, which has multiple strategies, that’s gonna clarify so many more concepts when we talk about those five, 10 strategies of doing the same problem, then going through multiple problems to clarify those concepts. So for me, it actually saves time instead of taking more time.

Dan Meyer (20:43):
Hmm. That’s super interesting. It’s an investment I’m hearing from you that, yeah, you might not be hitting the curriculum quite as hard early on, but that all of a sudden you’re in the spring and it’s like, oh wow, we’ve been moving so much faster through territory that has been more challenging. What would you say to you know, comfort concerned educators or to address the concern that I don’t know what I’ll do with these five, 10 different strategies. You say, I always see strategies that I’ve never anticipated. Like, it’s a good thing, you know, like you’re happy about that. I think that’s a very intimidating thing for lots of educators. What would you say to that?

Kanchan Kant (21:19):
I think like, for me, it’s a good kind of discomfort. That means like a student is teaching me something, which is actually doing two things. One modeling for them that I’m willing to learn and that I don’t know everything. And two, also telling them that they’re mathematicians. They know what they’re doing. They’re not just receivers of math, they’re actually creating it. So for me, that is very, very important.

Bethany Lockhart Johnson (21:43):
I love that so much. When you think about your students and you’re about to start this new school year, how do you hope your students will experience math in your classroom?

Kanchan Kant (21:53):
So I hope my students can see the beauty and joy of math. They can see that math is a way to see the world and not as something we have to do to get through school. So my hope for my classroom is that we can learn to problem-solve and persevere through problems and learn from each other and not just get through the curriculum. Because like, I think math is a wonderful way to learn these skills, which are so important when you get out of high school. Most importantly, I just wanna make sure that my students see themselves as mathematicians. And like one of the things that like I have to share with you that, because one of my highlights for the year has to be the Desmos art project. I do it every year for the past three years, I think since I’ve started teaching sophomores. And I do it as a unit assessment for functions and my students design something that is meaningful to them, using all the different kinds of functions and colors and shading and everything that you can think of in Desmos.

Kanchan Kant (22:49):
Thank you so much for that though. It is such a cool way for me to see them do that. Like I have seen such amazing creations. One of my students once made a scaled working model of a solar system wherein the planets were rotating at relative speed. The Saturn had rings and they were like asteroids and everything. And then it was beautifully done. Then there was another one who did a very, very detailed whale scenery, her reasoning. I wanna be a Marine biologist and I wanna study whales. So this is what is meaningful to me. So like that one project is just a culmination of everything that I want students to see in math and in my classroom. And like I do more of those kinds of things, but that is one thing that it’s one of the highlights of my year.

Dan Meyer (23:32):
That’s awesome. I love hearing that. Yeah. Shout out to the team at Desmos Studio for building and continuing to develop a tool list that so good for art and animation, even, in addition to some mathematics with a more computational kind. Yeah, that’s really exciting. What’s interesting to me is that you teach high school, and I think that like students at that age have a very well-defined sense of what math is and who they are as mathematicians. And then along you come, you know, and like offer this really interesting disruption, you know, in their sophomore year of high school that like, oh, this can be totally different, this relationship who I am. And that’s just really exciting. I imagine it’s a very surprising year. I would imagine that first month, I would imagine is a very surprising month for a lot of your sophomores.

Kanchan Kant (24:20):
Yeah, it is. I mean, that’s why I take that time to build that community because then that sets the tone and the relationship that we’re gonna have for the rest of the year. Students get to know how to work with each other. They get to know each other, that whole piece is like super important because of that.

Dan Meyer (24:35):
Yeah. That’s awesome. So here’s the thing, like we’re exploring these ideas about joyful math teaching and what it will take to cultivate restore, reclaim joy in math, teaching this next year. And you’ve offered us these really interesting ideas some, some very, you know, philosophical and some technical about how you spend time in ways that lead to joy in the spring for you and your students. Love that. We don’t want to as hosts, as researchers, investigators of this joyful math teaching idea, we don’t wanna say it’s all up to teachers to change their mindset, to do different technical practices, and that will lead to joy. We also wanna be really attentive to the environment that surrounds you, the people who are around to support you, the policy makers, the social structures that influence your joy in very significant ways. So what we would love to know from you is, how are you supported by the greater educational community in keeping your joy in your work? I’m thinking, especially about administrators, you know, front office, staff, parents, even, can you name a few ways for those sorts of people who listen to this podcast, how they can cultivate a math teacher’s joy this coming year?

Kanchan Kant (25:54):
I would say trust. I think more than anything, educators want administrators, parents, the greater educational community, to trust them to be professionals and experts in what they do. That does not mean that we don’t want to learn, that we don’t want feedback, that we don’t wanna get better. It just means that we keep the wellbeing of our students as our top priority. And we would like to be trusted to do just that. Also just keeping in mind that whether we like it or not, we are still adjusting to the new normal while recovering from the worst of the pandemic times. A lot of us are recovering from trauma, a lot of our students are recovering from trauma, and we need time and space for our social and emotional wellbeing.

Dan Meyer (26:35):
Yeah. I’m really curious, Kanchan, you’ve done a lot of work in your area with your grading team and in thinking about equitable and biased resistant instruction. I’m curious how you see those efforts lining up with creating joyful math learning conditions for all students, not just students from a dominant culture of math doing, let’s say.

Kanchan Kant (26:55):
For me, creating an equitable environment in a classroom is most important because once you have that, that’s when you have the relationships, that’s when you have the culture, that’s when all students actually thrive. So to that end, our school and our department has been doing a lot of work around grading practices. We actually assess how we grade students, where the bias is, what we can do to make them more bias resistant. Should we move to mastery based grading? Like that’s something I’ve been experimenting with for the past two years. Through the pandemic, I started doing mastery based grading so that my students can get more opportunities to show that they have learned the content. And so like just little things which help bridge the opportunity gap. I would say another project that our school undertakes is called the calculus project wherein we have students in Black, Latinx, and low income families sign up for that and are recommended for that. And then we do summer classes and yearlong support to preview the material for next year, not as a remedial class, but to actually set students up for success in AP classes for the coming year. So we have the community buildup. We have the courses we have like math support. It’s a very beautiful thing actually. And I’ve been working with that program for four years now. So yeah, so those are my ways of creating more equity in our school.

Bethany Lockhart Johnson (28:19):
That’s so beautiful and I deeply, deeply wish you had been my high school math teacher. And I have to say that the theme that I kind of keep hearing is this intentionality. How you are so intentional about your work, not just with what your students are learning, but how they’re learning it, how they are engaging with this subject and how they are building their own relationship. You talked a little bit about your relationship over the years with mathematics, but how are your students building that relationship? And so I’m just very appreciative of you sharing that with us and with our listeners. And we are so excited to have learned a little bit about, like, I feel like I got a little mini peek into your classroom.

Kanchan Kant (29:03):
Thank you.

Bethany Lockhart Johnson (29:04):
And can I say that if you are listening to this prior to October at NCTM Los Angeles, you will get to hear Kanchan Kant speak at Shadow Con. Can I give that away, Dan? Is that, is that …

Dan Meyer (29:23):
You can drop that. Yeah, It’s pretty top secret.

Bethany Lockhart Johnson (29:26):
Can I drop it?

Dan Meyer (29:27):
Yeah. Do it. Yeah.

Bethany Lockhart Johnson (29:28):
Dan and I will be in the audience cheering you on. It’s been a joy to learn with and from you, and we are so excited to just, you know, kind of keep marinating on some of these ideas about how we can continue to be intentional about creating joyful math spaces for our students. Thank you so much for joining us today.
Kanchan Kant (29:49):
Thank you so much. It was a real pleasure.

Dan Meyer (29:57):
So Bethany, I loved hearing Kanchan talk about both her, just her joyful personality, but how she cultivates joy through craft and technique through, you know, through the various ways she interacts with students in intentional ways, that those make the job more joyful for her. And I thought it was really interesting to hear her talk about how autonomy is the thing that she needs most in her job environment to feel like she can be joyful in her work. In that context, I saw … something on Twitter popped up for me in my, you know, my many Twitter wanderings. This is a segment we might call, Dan finds something on Twitter and shares it with Bethany. Which we’ll tighten that up a little bit, but I’m sending this over to you right now, and I’d love to know as you check this out, what you’re seeing and what you’re thinking and we’ll chat about how it relates to our interview here in a moment.

Bethany Lockhart Johnson (30:47):
All right. I’m ready, send it over. It’s opening. So this appears to be a document by the way, outlining, maybe it’s a district, maybe it’s administration, they’re outlining expectation type and expectation guidelines. Hmm. Okay. And these are lesson plan expectations. Expectation type. Timeliness. Plans are due no later than 6 p.m.. Friday prior to the week of instruction. Comprehensive, all activities for the week for all subjects taught should be included and complete by due date and time. Plans should have at minimum, the following, see template for detail. Okay. So then it goes through the things that the plans need to have, the topic title, target, the objective, the activities, the sequence, the display agendas to be displayed backward design. Okay. So basically <laugh>, we were just talking about, overwhelm. And when I see this document, listeners, have you ever received something from your administrator or anyone, let’s take it more broadly, that is requesting something of you that would take so much time to complete and be so out of touch with your lived reality that it really genuinely sucks the joy out of the experience.

Bethany Lockhart Johnson (32:25):
So the first thing that I see that this document, and again, the goal of whichever district’s plan this is, is that these expectations will lead–now, mind you, I am a fan of like, you know, looking ahead, I’m not a like, oh, hey, what am I gonna teach in five minutes? No, but the idea that then it lays out all of the things in such detail that you’re gonna be teaching feels like one of those pacing guides where, oh, move on to the next page, whether or not your students have any sort of sense making whatsoever. So my first thought is, oh, sad. I have to stay here. I’ll be there past 6 p.m. But I’m gonna be there trying to make the plans for the next week based on what I think my students have learned. Hmm it’s sounds like a little bit of a bummer. Dan, what did you think when you saw this and did I do a fair description of what it is?

Dan Meyer (33:25):
No, it’s, it’s a tough one to describe, ’cause it’s basically a wall of text and commands from an administrator who like, I just have to imagine has just like acres and acres of teachers trying to beat down their door to teach at this school, if this is how you’re gonna treat your teachers. I mean just, yeah. The idea of having a week… I’m with you, you don’t wanna just like, just jump in by the seat of your pants, but the idea of having a full week of lessons for every section you teach, every prep you teach, planned and submitted with every minute, basically morseled out to different goals. It says down here, you gotta like, for all of these, download a CSV of grades and whatnot and attach those. It’s the sort of thing, like you said, there are some edicts that you get from administration where you just have to laugh or just like, you have definitely missed like what I am willing to do here. It’s so far beyond. Yeah. I can’t imagine it. And it just felt like, yeah, it was a great way to get teachers like Kanchan to feel like a real lack of autonomy. Like it’s this would not work. I don’t think.

Bethany Lockhart Johnson (34:33):
And it’s not even like willing to do. Like, let’s say you’re even willing to produce it. Let’s say that me, the rule follower is like, okay. I’m gonna attempt to meet these demands. One, most teachers were just, you know, they probably would put baloney down there anyway. Not saying that I would, but I’m saying like, it’s clearly just a hoop that they’re having to jump through and two…

Dan Meyer (35:04):
Yeah. Compliance, right?

Bethany Lockhart Johnson (35:05):
Yeah. Compliance, compliance. There you go. And two, yeah, it feels like it’s about control and not trusting the teacher. And I love that. Kanchan said that trust is what she needs. Right? You’re hiring me. Yes. I still have lots to learn, but you’re trusting me and you’re creating an environment where I can continue to learn from and with my students. And if I was being asked to submit this tome every Friday before six, that is predicting, what does it say, anticipating the steps necessary for student mastery? You know, I kind of feel like maybe it’s like that one or two teachers where maybe they feel like, oh, I don’t trust that teacher or that teacher isn’t doing a good job, whatever. We better do this for all of the teachers, but then it’s not gonna change the practices of that one teacher and all the other teachers are gonna be resentful.

Dan Meyer (36:00):
Like if there was like feedback that came back to you on, you know, on lesson plans or there was some like something that was very constructive or productive, like maybe that would be different, but it really just feels like these are gonna go into a digital drawer somewhere and not be looked at, at all.

Bethany Lockhart Johnson (36:15):
Yes. The digital drawer. Like I’m gonna send you this report and then nothing is going to happen with it. Except that four hours of my time. Well, you wouldn’t do it, but <laugh>…

Dan Meyer (36:29):
You’ve worn me down. You’ve worn me down. I’m now putty in your hands and more compliant for the next thing. And I also just wanna shout out the administrator today, who I emailed asking about like a teacher participating in a project and this administrator said, I have a standing policy not to email teachers over summer break, which you know, as administrators out there doing just the good work, you know, trusting teachers, watching out for them, trying to be a force multiplier for teachers, making the road wider, the way easier for teachers. So shout out to y’all doing the out there. Really appreciate that.

Bethany Lockhart Johnson (37:04):
Okay. Wait, wait. About that email thing, quick question. Did you ever check your email over the summer?

Dan Meyer (37:11):
Uh, yeah. That’s one way in which I was the, you know, I just love email, you know? Oh. Someone wanted to reach out. Oh, oh, Banana Republic wants to tell me about new clothes that are on offer. <laugh> I mean like, it’s just, I love those personal emails. So yeah, I did check my email over the summer.

Bethany Lockhart Johnson (37:26):
Somebody emailed me recently and they emailed me at like two in the morning. And because I currently have a toddler, I received the email at four in the morning because you know, the best thing to help myself fall back asleep is to hop on my phone, right? Like I’m already up trying to get my toddler back to sleep. I might as well start scrolling. Anyway, so the person had this little thing at the bottom of their email and it said, I have, something to the effect of, I have really like wonky work hours. I may be sending this outside of the like more standard nine to five. But please don’t feel pressure in any way to respond outside of your time. Would you appreciate that, seeing that or does it make you feel like you should respond? ‘Cause I almost responded at four in the morning, and maybe that says something about …

Dan Meyer (38:15):
They’re telling you not to respond.

Bethany Lockhart Johnson (38:16):
I know it was helpful.

Dan Meyer (38:18):
It says don’t, but you’re like, what if they’re saying that because they really expect me to respond and this is one of many ways that you and I are different. I’m always happy to see that.

Bethany Lockhart Johnson (38:29):
Do you respond? I’ve texted you in the evening because you know I have some wonky hours. Do you respond to things, like where’s your boundary there? Or when you were in the classroom, where was your boundary there? Did parents have your phone number?

Dan Meyer (38:43):
No. I gave kids my cell phone number for a couple years and it was a wobbly experiment. But parents will email, you know, back and forth with you. And I think the best thing to like … I love just like adding some friction, some latency into the kind of the chain, you know, like I hate going like back and forth, like da, da, da, da, and then like respond and then da, da da respond. And it just like goes back and forth. So just like just sitting back for an hour or two hours, you know, not responding, just let someone cool down, calm down. Email just gets you more email. That’s like if you send an email, you are just making it more likely to get more email. It’s a, you know, it’s a problem.

Bethany Lockhart Johnson (39:20):
Are you one of the zero people?

Dan Meyer (39:23):
My inbox is at zero. Most days before work.

Bethany Lockhart Johnson (39:26):
You’re joking!

Dan Meyer (39:28):
I end work every day with inbox, at zero.

Bethany Lockhart Johnson (39:31):
You’re joking!

Dan Meyer (39:32):
That’s just, you know.

Bethany Lockhart Johnson (39:33):
Who are you?

Dan Meyer (39:34):
You know, you should take my life coaching, Bethany. I’ll give you a discount since we’re math teacher, lunch pals. But, um yeah. I can help.

Bethany Lockhart Johnson (39:44):
Thank you for qualifying where our pal-dom lives. I wouldn’t even tell you how many are in my inbox. Point is, if you are actively starting the school year, we celebrate you and we are here and over the next few months, we’re gonna be diving into joyful math and that definition’s gonna keep evolving. But I wanna say something that is making me feel a little joyful, Dan. You ready?

Dan Meyer (40:15):
Tell me.

Bethany Lockhart Johnson (40:16):
You and I, in person, at NCTM, the National Council for Teachers and Mathematics. It’s coming up and we are going to be recording Math Teacher Lounge, live. Live, in person! And I hear there’s gonna be like a t-shirt cannon and there’s gonna be, you know, like musicians marching through the aisles or something.

Dan Meyer (40:46):
A marching band?

Bethany Lockhart Johnson (40:46):
A marching band!

Dan Meyer (40:46):
Trained animals. Yeah.

Bethany Lockhart Johnson (40:48):
But the point is, I’m so excited, Dan. And you know, when I see you, I might just, it’s been so long since I’ve seen you, Dan. I’d love to give you a big old embrace.

Dan Meyer (41:04):
You might just, you might just cry. Yeah. Yeah. It’ll be great. Yeah. It’s gonna be awesome for you folks to see me and Bethany have a real awkward first hug since the pandemic. And, uh, but it’s gonna be a blast to hang with us in person. We’ll have some special guests, probably, some interesting segments. You folks should stop on by at NCTM, if you’re gonna be there. Highly recommended.

Bethany Lockhart Johnson (41:29):
Now, we will be broadcasting that episode. You’re gonna get to hear … we’re gonna record it live. It’s gonna happen. In the meantime, you can find us at MTLshow on Twitter, or you can find us in our Facebook group, Math Teacher Lounge. We can’t wait to hear from you. And we’d love to hear what makes math joyful for you? Where can we add a little bit more joy to you this, this season? So thrilled to be back. Thanks for listening.

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 Kanchan Kant says about math

“Creating an equitable environment in the classroom is most important because once you have that, that’s when you have the relationships, and that’s when all students actually thrive.”

– Kanchan Kant

Meet the guest

As a math and computer science teacher at Newton North High School, Newton, MA, Kanchan has been sharing her love for math with her students for the past four years. Kanchan is instrumental in setting the culture and ethos of the mathematics department at her school in her role as the Assistant Department Head. Kanchan also leads the Math Department Grading Team and has been instrumental in making grading policies which are more equitable and bias resistant. In her new role as a Transformative Leaders of Massachusetts Fellow in collaboration with Springpoint and Barr Foundation, Kanchan looks forward to making equity and joy of learning the foundation of many more classrooms.

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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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Free professional development cours…

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…

Welcome, Idaho K-8 Science Reviewers!

Thank you for taking the time to review Amplify Science. On this site, you’ll find all the resources you need to learn more about this engaging and robust NGSS program. Below, you will also have the opportunity experience our program firsthand with a demo account to access the digital platform.

Amplify Science for grades K–8 has been rated all-green by EdReports. Read the review on EdReports.

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Overview

With Amplify Science, students don’t just passively learn about science concepts. Instead, they take on the roles of scientists and engineers to actively investigate and make sense of real-world phenomena. They do this through a blend of cohesive and compelling storylines, hands-on investigations, collaborative discussions, literacy-rich activities, and interactive digital tools.

Listen to these educators share how the program empowers students to think, read, write, and argue like real scientists and engineers every day.

Grades K–5

Grades 6–8

Amplify Science Grades K-5 Tour for Idaho Educators

Amplify Science Grades 6-8 Tour for Idaho Evaluators

Proven to work

Click here to read about the efficacy and impact of Amplify Science.

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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 teach less, but achieve more.

Rather than asking teachers to wade through unnecessary content, we designed our program to address 100 percent of the NGSS and Idaho Standards in fewer days than other programs:

  • In just 120 lessons at grades 6–8
  • In just 66 lessons at grades K–2
  • In just 88 lessons at grades 3–5
A four-step process diagram with icons: spark a real-world problem, explore sources, explain and elaborate, and evaluate claims, all linking to engage with cohesive storylines.

Unit types

Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also emphasizing a particular science and engineering practice.

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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.

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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.

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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.

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Argumentation units

Argumentation units are introduced at grade 3 and 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.

A person points to a photo in a textbook about coral reefs, with a laptop and notebook open on the desk.

Launch units

Launch units are the first units taught in each year of Amplify Science. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

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Core units

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

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Engineering Internship units

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Idaho Science Standards Alignment

Amplify Science was built from the ground up to fully embrace the instructional shifts outlined in A Framework for K-12 Science Education (2012), the same framework on which Idaho Science Content Standards were founded. Most grade levels’ respective set of Amplify Science units therefore fully address the necessary Idaho Science Content Standards (see correlation). Grade 1 teachers should plan to also use the companion mini-lesson provided below to achieve full standards coverage for their grade.

Grade 1 Companion

Standard: 1-LS-1.3 Use classification supported by evidence to differentiate between living and non-living things.

Recommended placement: Following Lesson 1.1 of the Animal and Plant Defenses unit.

Resources: Classroom Slides

Download Correlation

Science (K-2) Evaluation Form

Science (3-5) Evaluation Form

Science (Middle School Physical Science) Evaluation Form

Science (Middle School Life Science) Evaluation Form

Science Evaluation Form Middle School Earth and Space Science

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A butterfly flies above potted plants next to a watering can and a caterpillar on a milkweed plant under sunlight in a grassy field.

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.  

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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.  

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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.  

Illustration of sea turtles swimming among underwater plants, with a shark and another turtle visible 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.  

A hand holds a flashlight and shines it through a transparent sheet with an image, projecting the image onto a wall in a dark room.

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.  

A split illustration shows a cityscape at night with a crescent moon and stars on the left, and a cityscape during the day with the sun, clouds, and an airplane on the right.

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.  

A grey elephant uses its trunk to pick apples from a tree, with a few apples still hanging on the branches and a small sprout growing nearby.

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.  

A hand picks up a red bean from a table scattered with more red beans, spilled white liquid, a cup, and a wooden stick.

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.  

A building labeled "Recreation Center" stands near a cliff edge with a blue flag, surrounded by trees and overlooking a beach and water.

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.  

Illustration of a high-speed train traveling on an elevated track with a green landscape and blue sky in the background.

Balancing Forces

Domain: Physical Science

Unit type: Modeling

Student role: Engineers

Phenomenon: The town of Faraday is getting a new train that floats above its tracks.  

A group of wolves stands in the foreground, with a bear, elk, and several birds visible in a grassy, hilly landscape with scattered trees.

Inheritance and Traits

strong>Domain: Life Science

Unit type: Investigation

Student role: Wildlife biologists

Phenomenon: An adopted wolf in Graystone National Park (“Wolf 44”) has some traits that appear similar to one wolf pack in the park and other traits that appear to be similar to a different wolf pack. 

A small bird stands on soil, looking closely at a yellow snail, with green blades of grass on the left and a blue sky background.

Environments and Survival

Domains: Life Science, Engineering Design

Unit type: Engineering design

Student role: Biomimicry engineers

Phenomenon: Over the last 10 years, a population of grove snails has changed: The number of grove snails with yellow shells has decreased, while the number of snails with banded shells has increased.  

An orangutan hangs from a vine in a dense green forest with the sun visible in the background.

Weather and Climate

Domains: Earth and Space Science, Engineering Design

Unit type: Argumentation

Student role: Meteorologists

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

Illustration of city buildings at night with illuminated windows, a full moon, visible stars, and a silhouetted figure in one window.

Energy Conversions

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

Unit type: Engineering design

Student role: System engineers

Phenomenon: The fictional town of Ergstown experiences frequent blackouts.  

A streetlamp illuminates a cricket, which is watched by a gecko. Yellow arrows indicate the flow of light from the lamp to the cricket and then to the gecko’s eye.

Vision and Light

Domain: Physical Science, Life Science, Engineering Design

Unit type: Investigation

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.  

Two dolphins swimming underwater, facing each other against a blue background.

Waves, Energy, and Information

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

Unit type: Modeling

Student role: Marine scientists

Phenomenon: Mother dolphins in the fictional Blue Bay National Park seem to be communicating with their calves when they are separated at a distance underwater.

Earth orbits the Sun in space, with dotted blue lines showing the orbital path and a white arrow indicating Earth's rotation direction.

Patterns of Earth and Sky

Domains: Physical Science, Earth and Space Science

Unit type: Investigation

Student role: Astronomers

Phenomenon: An ancient artifact depicts what we see in the sky at different times — the sun during the daytime and different stars during the nighttime — but it is missing a piece.  

Illustration of layered red and brown rocky cliffs beside a flowing blue river under a partly cloudy sky.

Earth’s Features

Domain: Earth and Space Science

Unit type: Argumentation

Student role: Geologists

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

Red blood cells scattered across a dynamic, abstract red and white background.

Modeling Matter

Domain: Physical Science

Unit type: Modeling

Student role: Food scientists

Phenomenon: Chromatography is a process for separating mixtures. Some solids dissolve in a salad dressing while others do not. Oil and vinegar appear to separate when mixed in a salad dressing.  

Illustration of wind carrying airborne particles over a coastal hill, with arrows indicating the movement up and over the hill toward the sea.

The Earth System

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

Unit type: Engineering Design

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. 

Illustration of a cheetah standing near plants, looking at a sloth hanging from a tree branch, with various foliage and mushrooms in the scene.

Ecosystem Restoration

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

Unit type: Argumentation

Student role: Ecologists

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

A rover stands on a rocky, reddish terrain with visible tire tracks leading to it; distant hills are seen under a hazy sky.

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.  

Illustration of a city skyline at night with a large full moon, a few stars in the sky, and a bridge on the left side.

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.  

Illustration of a person wearing a red hat and winter coat with fur hood, eyes closed and arms crossed, surrounded by large orange circles.

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 digital artwork featuring a large yellow sun with blue and orange rays over a colorful landscape with green hills and red horizon.

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.  

Illustration of clouds above a small town with fields and mountains, showing wind patterns and atmospheric movement in the sky.

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 underwater scene with a large whale, several turtles, jellyfish, and fish swimming surrounded by shafts of light.

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 illustration of a forest with trees, mushrooms, a rabbit, and a fox catching another animal under a blue sky with mountains and the sun in the background.

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.

Illustration of six spiders with different colored bodies and legs arranged in a chart-like formation on a dark background.

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.  

Abstract digital artwork featuring vibrant colors, geometric shapes, a yellow human silhouette, and various patterns layered together.

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.  

Illustration of a person receiving an oral examination with a tongue depressor and light, featuring abstract colorful shapes and an eye chart in the background.

Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

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

A spacecraft approaches a large modular space station with blue solar panels, orbiting in outer space against a black background.

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 badge displaying a parachute, ruler, letter A, stacked layers, bandage, and a folded paper icon.

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.  

Two prehistoric aquatic reptiles with long snouts swim near the shore of a tropical landscape with rocks, plants, and an island in the distance.

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.  

Illustration of a volcanic landscape with mountains, trees, an ocean, and a cross-section showing tectonic plates beneath the surface.

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.  

Four low-poly dinosaurs, three green and one yellow, are walking in a row on grass with rocks and red spots on their bodies under a blue sky.

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.  

Two large tortoises are near a river; one is on the riverbank reaching for leaves on a tree, while the other is on the opposite bank among grass and trees.

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.    

Two people stand atop rocky terrain littered with electronic devices; inset illustrations show a boot, a person with electronics in a vest, and a radio.

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.  

An orange popsicle melting in four stages from solid to almost fully liquid, set against a plain background.

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 graphic with icons showing a swaddled baby, a thermometer, layers of blankets, a medical symbol, and a heat source within a hexagonal frame.

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.  

Digital illustration showing red and blue molecule-like circles on a blue background, with a boundary dividing two differently shaded sides.

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.  

Illustration of people riding a roller coaster on a blue day, with arms raised as the car descends a tall loop against a sky with clouds.

Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

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

Illustration of the Earth with arrows representing radiation or energy entering the atmosphere from space over the Asia-Pacific region.

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 illustrated polar bear stands on a small piece of floating ice in the ocean, with icebergs and an orange sun in the background.

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.

Hexagonal badge with icons including a wrench, building, sun, molecules, construction materials, screwdriver, paint bucket, and a letter T, all on a geometric blue background.

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.  

Access program

In addition to the grade-level sample boxes that we provided, we’ve also created custom demo accounts just for Idaho reviewers.

To access the digital portion of the program, click the link below, select “Log In with Amplify,” and then refer to the Start here digital access flyer for your personalized login credentials.

Access digital program
A spiral-bound teacher’s guide and a laptop displaying a digital curriculum, both titled “Balancing Forces: Investigating Floating Trains” from Amplify Science.

Tutorial videos

Check out these videos for support on how to navigate the Amplify Science curriculum website, teacher’s guide, materials kits, and more!

Resources

A teacher stands by a table helping four students who are working together on a board game and writing in notebooks in a classroom.

Course structure for K–5

Take a closer look at how the program is organized.

Two students sit at a classroom table working together with notebooks and a workbook, while other students work in the background.

Course structure for 6–8

Take a closer look at how the program is organized.

Two women sit at a desk; one types on a laptop while the other writes in a spiral-bound notebook. Both appear focused and are smiling.

Idaho Science Standards Alignment

See how we customized our instructional sequence to fully support the Idaho Scie…

A collage with Mars landscape art, three kids conducting a tabletop science experiment, an adult's hand holding a jar, and two people hiking in a bright field, illustrated style.

NGSS Earth Science Standards Map

A collage of four images: underwater animals, two students conducting a science experiment, hands building with plastic rods, and a colorful illustration of dancers.

NGSS Life Science Standards Map

A collage showing: a candle flame amid germs, hands measuring a ping pong ball with calipers and a ruler, hands with magnets and a ruler, and a stylized compass over a map of Earth.

NGSS Physical Science Standards Map

Two children sit at a table with laptops, facing each other and talking animatedly, surrounded by books and classroom supplies.

What’s so phenomenal about phenomena?

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

Illustration of wind carrying particles from a coastal city up a steep, green mountain under a clear blue sky.

Unit phenomena for K–5

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

Illustration of a roller coaster car filled with people raising their arms as it rolls down a steep track against a blue sky with clouds.

Unit phenomena for 6–8

Take a closer look at the middle school unit phenomena featured in each grade le…

A slide with the title “What do you know about aquariums?” next to an underwater photo showing fish and a person swimming. Other science lesson slides are visible above and below.

Classroom Slides for K–5

Classrooms Slides for elementary are now available! These customizable PowerPoin…

A computer screen displays an educational simulation about Earth's energy system, with diagrams and explanatory text about energy entering and exiting the system.

Classroom Slides for 6–8

Classrooms Slides for middle school are coming soon! These customizable PowerPoi…

A computer screen displays an ecosystem selection menu with options for 3 or 6 animal populations, featuring illustrated creatures and labeled icons for each species.

Sims for 4–8

Take a closer look at the digital Simulations included at each grade level.

Two children sit on the floor in a classroom, with one boy reading aloud from a book titled "Gary’s Sand Journal" while a girl listens attentively beside him.

Literacy-rich instruction in K–5

Scientists do not just get messy. They read and write with purpose too. Explore…

A selection of colorful science-themed books and handbooks with illustrated and photographic covers, arranged diagonally on a green background.

Student Books in K–5

Read a summary of each of our award-winning K–5 student books.

A student reads about rock formations from a spiral-bound book while sitting at a table with a laptop; other students work together in the background.

Active reading in 6–8

Learn how we support students in learning how to interact with scientific texts….

Two children wearing safety goggles use plastic spoons to stir substances in clear cups, conducting a science experiment at a table.

Investigations for K–5

Explore the types of investigations that take place in elementary classrooms.

A person wearing gloves looks into a microscope, with laboratory supplies and bottles on a tray beside them, against a plain blue background.

Investigations for 6–8

Explore the types of investigations that take place in middle school classrooms….

Assorted materials including cardboard sheets, tennis balls, rubber bands, hooks, washers, ping pong balls, sticks, tape, string, and screws arranged on a white surface.

Materials Kits for K–5

See what components come in our materials kits!

Assorted science kit components including motors, batteries, propellers, solar panel, rubber bands, wires, plastic containers, metal fasteners, and spools of thread arranged on a white background.

Materials Kits for 6–8

See what components come in our materials kits!

A teacher stands at the front of a classroom, speaking to students seated at desks, with several students raising their hands to participate.

Approaches to assessment in K–5

Learn about our elementary embedded assessments.

Two students sit at desks, writing in notebooks while using laptops in a classroom setting.

Approaches to assessment in 6–8

Learn about our middle school embedded assessments.

1. Service Overview

As a provider of technology solutions to schools, Amplify’s commitment to data privacy and security is essential to our organization. This overview of Amplify’s Information Security Program describes physical, technical and administrative safeguards Amplify implements to protect student data in our care.

Company profile

Amplify Education, Inc. (Amplify) is a privately held company founded in 2000 as Wireless Generation. Amplify’s products include curriculum and instruction, assessment and intervention, professional development services and consulting services for K-12 education.

Service hosting

Amplify leverages Amazon Web Services (AWS) as its cloud hosting provider. Within AWS, Amplify utilizes Virtual Private Clouds (VPCs), which provide an isolated cloud environment within the AWS infrastructure. External network traffic to a VPC is managed via gateway and firewall rules, which are maintained in source code control to ensure that the configuration remains in compliance with Amplify security policy. In addition, the production VPCs and the development VPCs are isolated from each other and maintained in separate AWS accounts.

2. Policies & standards

Information security program

Amplify maintains a comprehensive information security program based on the National Institute of Standards and Technology (NIST) Cybersecurity Framework and the NIST SP 800-53 Rev. 5 family of information security controls. These provide a robust framework of best practices from which an organization can build its security policies and protocols based on identified risks, compliance requirements, and business needs. They cover critical practice areas, including access control, configuration management, incident response, security training, and other information security domains.

Governance

Amplify’s Information Security Committee has primary responsibility for the development, maintenance, and implementation of the Amplify information security program. The Information Security Committee is responsible for all information risk management activities within the company and is composed of technology, business and legal leaders from the organization. The Committee meets weekly and includes a dedicated VP of Information Security and a program manager to oversee, direct and coordinate its activities.

Policy execution

Adherence to the internal Amplify information security policy is an obligation of every Amplify employee. Amplify conducts a series of internal monitoring procedures to verify compliance with internal information security policies, and all Amplify employees undergo annual criminal background checks. In addition, any third-party contractors who come into contact with systems that may contain student data are contractually bound to maintain security and privacy of the data.

3. Data access controls

Access control

Amplify’s access control principles dictate that all student data we store on behalf of customers is only accessible to district-authorized users and to a limited set of internal Amplify users who may only access the data for purposes authorized by the district. Districts maintain control over their internal users and may grant or revoke access.

In limited circumstances and strictly for the purposes of supporting school districts and maintaining the functionality of systems, certain Amplify users may access Amplify systems with student data. All such access to student data by Amplify technicians or customer support requires both authentication and authorization to view the information.

Encryption

Data encryption is an important element of our protection of sensitive data at rest and in transit, and is reviewed and updated as appropriate annually, based on the latest standards and guidelines published by OWASP and NIST.

  • In transit: Amplify encrypts all student data in transit over public connections, using Transport Layer Security (TLS), commonly known as SSL, using industry-standard protocols, ciphers, algorithms, and key sizes.
  • At rest: Amplify encrypts student data at rest using the industry-standard AES-256 encryption algorithm.

4. Application security by design

Building the right roles into applications

Permissions within Amplify applications are designed on the principle that school districts control access to all student data. To facilitate this, Amplify applications are designed so that roles and permissions flow from the district to the individual user. For example, applications that offer schools a way to collect and report on assessment results have a web interface that requires district administrators to authorize individuals to view student data.

Security controls within applications are used to ensure that the desired privacy protections are technically enforced within the system. For example, if a principal is supposed to see only the data related to his or her school, Amplify ensures that, throughout the design and development process, our products restrict principals from seeing records for any students outside his or her school.

To make sure Amplify applications properly enforce permissions and roles, our development teams conduct reviews early in the design process to ensure roles and permissions are an essential component of the design of new applications.

Building security controls into applications

Amplify applications are also developed to minimize security vulnerabilities and ensure industry-standard application security controls are in place.

As part of the development process, Amplify has a set of application security standards that all applications handling student data are required to follow, including:

  • Student data is secured using industry standard encryption when in transit between end-users and Amplify systems.
  • Applications are built with password brute-force attack prevention.
  • User sessions expire after a fixed period of time.

We also conduct manual and automated static code analysis as well as dynamic application security testing to preemptively identify vulnerabilities published by industry leaders such as OWASP (Open Web Application Security Project)

5. Proactive security

Risk assessments

Amplify periodically engages a security consulting firm to conduct risk assessments, aimed at identifying and prioritizing security vulnerabilities. The Information Security Committee coordinates remediation of the vulnerabilities. The security consulting firm also provides ongoing advice on current risks and advises on remediation of vulnerabilities and incident response.

Penetration testing

Amplify engages third-party firms to continually conduct application penetration testing.  The purpose of this testing is to test for application security vulnerabilities in the production environment.  We work with third party penetration testing program partners. Third-party testing involves a combination of automated and manual testing.

Vulnerability management

Amplify ensures that its systems are free of known vulnerabilities in several ways. Every production server runs vulnerability detection software that compares the installed software against a global database of known vulnerabilities. Secondly, we employ real time network monitoring that reports on any potentially malicious traffic. In addition, a third-party security firm continually reviews all of our system logs for potential security breaches. Lastly we continually test our applications against common malicious internet traffic. Violations in any of these areas will alert one of our operations teams, who are available around the clock.

In addition, Amplify participates in a private bug bounty program through HackerOne, working with the security community to find security vulnerabilities and support our efforts to keep our data and systems safe and secure.

Endpoint security

Access to production systems at Amplify is restricted to a limited set of internal Amplify users to support technical infrastructure, troubleshoot customer issues, or other purposes authorized by the district. In addition, Amplify requires multi-factor (MFA) authentication methods for access to all production systems. MFA involves a combination of something only the user knows and something only the user can access. For example, MFA for administrative access could involve entering a password as well as entering a one-time passcode sent via text message to the administrator’s mobile phone. The use of MFA reduces the possibility that an unauthorized individual could use a compromised password to access a system.

Infrastructure security

Network filtering technologies are used to ensure that production environments with student data are properly segmented from the rest of the network. Production environments only have limited external access to enable customers to use our web interfaces and other services. In addition, Amplify uses firewalls to ensure that development servers have no access to production environments.

Other measures that Amplify takes to secure its operational environment include system monitoring to detect anomalous activity that could indicate potential attacks and breaches.

Security training

At Amplify, we believe that protecting student data is the responsibility of all employees. We implemented a comprehensive information security awareness training program that all employees  undergo upon initial hire, with an annual refresher training. We also provide information security training and annual social engineering tests for specific departments based on role.

6. Reactive security

Monitoring

Intrusion detection and prevention systems (IDS/IPS) are in place to analyze the network device logs, monitor the network and report anomalous activity for appropriate resolution.

Incident response

Amplify maintains a comprehensive Security Incident Response Policy Plan, which sets out roles, responsibilities and procedures for reporting, investigation, containment, remediation and notification of security incidents. Amplify works with reputable firms for incident response and digital forensics support, as well as annual table-top exercises in coordination with cybersecurity experts.

Business Continuity Planning and Disaster Recovery

Amplify maintains a comprehensive Business Continuity Planning and Disaster Recovery Plan (BCP/DR), to guide personnel in procedures to protect against business disruptions caused by an unexpected event. The plans and related operations processes are tested on a semiannual basis, with ensuing operations improvement and remediation work.

7. Compliance

Audits

In addition to penetration testing and other proactive security testing and monitoring outlined above, Amplify undergoes annual SOC 2 Type 2 examinations of controls relevant to security. The examination is formally known as a Type 2 Independent Service Auditor’s Report on Controls Relevant to Security. The most recent examination was conducted by Schellman & Company, LLC and covers the period from April 1, 2024–March 31, 2025. The report states that Amplify’s systems meet the criteria for the security principle and opine on management’s description of the organization’s system and the suitability of the design of controls to protect against unauthorized access, use, or modification.

The Type 2 report also opines on the operating effectiveness of controls over the review period. This means that our auditors confirmed that we have continued to follow established security controls over the period of time of the review.

Certifications

SOC 2: Amplify successfully completed the SOC 2 Type 2 examination of controls relevant to security (see above, under “Audits”).

Privacy

Amplify’s products are built to facilitate district compliance with applicable data privacy laws, including FERPA and state laws related to the collection, access and review and disclosure of student data. Amplify’s Customer Privacy Policy describes the types of information collected and maintained on behalf of our school district customers and limitations on use and sharing of that data.

8. Supporting documentation

In the course of customer security assessment, the following documentation can be provided by Amplify upon customers’ request:

  • Penetration Testing Report
  • Risk Assessment Report
  • SOC 2 Type 2 Report

9. Report a vulnerability

To report a security vulnerability, click here.

Welcome, Middle School Science Reviewers!

Thank you for taking the time to review Amplify Science for grades 6–8. On this site, you’ll find all the resources you need to learn more about this engaging and robust NGSS program. Plus, we make it easy to experience our program firsthand with a live demo account that features our interactive learning platform.

A person in protective glasses examines a glass of water, surrounded by illustrations of a rocket, telescope, polar bear, clouds, rain, and moon phases on a colorful abstract background.

Overview

With Amplify Science, students don’t just passively learn about science concepts.

No matter where your students are learning—whether at school or at home—they take on the role of scientists and engineers to actively investigate and make sense of real-world phenomena. They do this through a blend of cohesive and compelling storylines, hands-on investigations, collaborative discussions, literacy-rich activities, and interactive digital tools.

Listen to these educators share how the program empowers students to think, read, write, and argue like real scientists and engineers every day.

EdReports All-Green

Amplify Science for grades K–8 has been rated all-green by EdReports.

Read the review on EdReports.

A boy stirs a clear liquid in a plastic cup while a girl smiles beside him in a classroom with students and a teacher in the background. EdReports badge is overlaid in the corner.

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 in fewer days than other programs.

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.

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.

Collage of four images: a watercolor desert scene, three kids examining a gadget, a hand placing beads into a container, and a woman in a sunhat in a stylized field.
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.

Unit 1

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.

Unit 2

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.

Unit 3

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.  

An image showing a graphic of spiders of different colors with distinct leg and body patterns, including brown, yellow, and blue variations. The background is a dark, textured surface.

Unit 4

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.

Unit 5

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.

Unit 6

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.  

Illustration of a village with houses, fields and mountains under a cloudy sky with waves of wind or rain.

Unit 7

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.  

A polar bear stands on a small ice floe in the ocean with an orange sun in the sky and distant icy mountains in the background.

Unit 8

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.

Unit 9

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.

Unit 1

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.

Unit 2

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.

Unit 3

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.

Unit 4

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.  

Illustration showing the stages of melting an orange popsicle: whole, partially melted, more melted, and almost completely melted, with wooden sticks, on a purple background.

Unit 5

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

Unit 6

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.  

Abstract digital artwork featuring numerous red and gray circles overlapping a split background of blue and light purple, creating a dynamic and energetic composition.

Unit 7

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

Unit 8

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.

Unit 9

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.

Unit 1

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 spacecraft approaches and docks with a space station featuring large blue solar panels, set against a backdrop of outer space.

Unit 2

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

Unit 3

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

Unit 4

Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

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

Illustration of Earth with arrows and wavy lines representing solar radiation entering the atmosphere, showing a focus on the Asia-Pacific region.

Unit 5

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.

Unit 6

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.

Unit 7

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.

Unit 8

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.

Unit 9

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.    

Access program

Watch the video to the right plus the ones below showing you how to navigate our digital platform. When you’re ready, follow the instructions below to log into our live demo account.

  • Click the orange button below to access the platform.
  • Choose the resources you’d like to review.
  • Pick your grade level from the drop-down menu.
  • Scroll down to find additional grade-level resources.
Access the digital platform now

Navigating an Engineering Internship (Part 1)

This Part 1 video demonstrates how Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. In the process, they apply and deepen their learning from Core units.

Navigating an Engineering Internship (Part 2)

This Part 2 video demonstrates how to use the Futura Workspace to manage the immersive experience of the Engineering Internship units. This includes guidance on how to create student groups, how to review student work, and how to send students targeted feedback on their designs.

Navigating our reporting tools

Teachers of Amplify Science grades 6–8 have access to a feature called Reporting. When unit assessments are administered digitally, the Reporting tool enables teachers to analyze student performance on the unit assessments.

Differentiation post-assessment

Every core unit of Amplify Science 6–8 features a formal formative assessment opportunity at the mid-way point, or “Critical Juncture,” of the unit, which provides an important opportunity for differentiation.

Resources

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

Learn more about new product enhancements and resources to help you and your sta…

Two students collaborate at a desk, discussing a science workbook. Other students are visible in the background, engaged in the vibrant atmosphere of the classroom.

Course structure for 6–8

Take a closer look at how the program is organized.

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

Unit phenomena for 6–8

Take a closer look at the middle school unit phenomena featured in each grade le…

A laptop screen displays a simulation about Earth's energy system, with surrounding images showing diagrams and energy flow models.

Classroom Slides for 6–8

Classrooms Slides for middle school are coming soon! These customizable PowerPoi…

A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

Sims for 4–8

Take a closer look at the digital Simulations included at each grade level.

A student reviews a science textbook and looks at a laptop in a classroom, while other students work together on their science projects in the background.

Active reading in 6–8

Learn how we support students in learning how to interact with scientific texts….

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.

Investigations for 6–8

Explore the types of investigations that take place in middle school classrooms….

A collection of assorted electronic components and supplies, including batteries, motors, wires, switches, rubber bands, small propellers, cups, solar panel, bulbs, and fasteners.

Materials Kits for 6–8

See what components come in our materials kits!

Two students sit at desks writing in notebooks and using laptops in a classroom setting.

Approaches to assessment in 6–8

Learn about our middle school embedded assessments.

Get in touch

Smiling man with short hair and a trimmed beard wearing a light blue collared shirt against a plain white background.

Have questions? Bob McCarty is standing by and ready to help.

Robert “Bob” McCarty
Senior Account Executive
(435) 655-1731
rmccarty@amplify.com

Welcome, Idaho science reviewers!

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A closer look at grades 6–8 (domain)

Amplify Science is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

In the 6–8 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.

Is your school implementing the domain model? Click here.

Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
A four-step process: Spark intrigue, Explore evidence, Explain and elaborate, and Evaluate claims, leading to ongoing engagement and building complexity.

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 teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the NGSS in fewer lessons than other programs.

Scope and sequence

Every year our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45-minutes, though teachers can expand or contract the timing to meet their needs.

A grid of educational icons, each representing a different science topic, such as earth and space science, life science, and physical science, with titles and lesson counts.

Unit types

Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

In grades 6–8, there are three types of units:

  • One unit is a launch unit.
  • Three units are core units.
  • Two units are engineering internships.
Launch units

Launch units are the first units taught in each year of Amplify Science. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to actively read in all subsequent units.

Core units

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

Engineering Internship units

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Units at a glance

A rover sits on a rocky, reddish hill under a hazy sky, leaving visible tire tracks across the barren landscape.
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 marine reptiles with long snouts are near a rocky shoreline, one on land and one in the water, with an island and clouds in the background.
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.    

A geometric badge with a mountain, telescope, and audio wave icons on a purple background with polygonal shapes.
Plate Motion Engineering Internship

Domain: Earth and Space Science

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 volcano by the sea with smoke, trees, mountains, and a cross-section showing a fault line beneath the ground.
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.    

Illustration of a city skyline at night with buildings, a bridge, and a large full moon in a starry sky.
Earth, Sun, and Moon

Domain: Earth and Space Science

Unit type: Core

Student role: Astronomers

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

Abstract digital painting of a landscape with green hills, a red-orange horizon, and a large yellow sun surrounded by blue and orange swirling shapes on the right.
Ocean, Atmosphere, and Climate

Domain: Earth and Space Science

Unit type: Core

Student role: Climatologists

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

Illustration of a town with houses and fields under a sky with large clouds and swirling wind patterns, set against a backdrop of hills and mountains.
Weather Patterns

Domain: Earth and Space Science

Unit type: Core

Student role: Forensic meteorologists

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

A polar bear stands on a small ice floe surrounded by water and floating ice under a red sun in an Arctic landscape.
Earth’s Changing Climate

Domain: Earth and Space Science

Unit type: Core

Student role: Climatologists

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

Hexagonal badge with icons including a wrench, building, sun, screwdriver, paint can, and molecules on a purple geometric background.
Earth’s Changing Climate Engineering Internship

Domain: Earth and Space Science

Unit type: Engineering internship

Student role: Civil engineers

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

Colorful abstract digital artwork featuring a yellow figure holding a device, with blue and red shapes and textured patterns in the background.
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.    

An abstract illustration of a person having their mouth and throat examined with a tongue depressor, surrounded by colorful shapes, with an eye chart in the background.
Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

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

Geometric orange background with a hexagon icon displaying symbols for statistics, farming, healthcare, safety vest, chemistry, and agriculture.
Metabolism Engineering Internship

Domain: Life Science

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.    

Six spiders with different colors and stripe patterns are arranged in a grid pattern on a dark background, showing variations in leg and body color.
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.    

An underwater scene shows a whale surrounded by jellyfish, sea turtles, and fish, with sunlight filtering through the water.
Populations and Resources

Domain: Life Science

Unit type: Core

Student role: Biologists

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

A low-poly landscape with trees, mushrooms, a rabbit sitting, and a fox bending down near another rabbit under a sunny sky with mountains in the background.
Matter and Energy in Ecosystems

Domain: Life Science

Unit type: Core

Student role: Ecologists

Phenomenon: What caused the mysterious crash of a biodome ecosystem?    

Three green dinosaurs and one yellow dinosaur stand in a row on grass, each with purple spikes and a red spot on their backs. The sky is blue with light clouds.
Natural Selection

Domain: Life Science

Unit type: Core

Student role: Biologists

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

Red-toned graphic with hexagonal badge featuring a world map, a mosquito, a DNA strand, charts, cubes, and circular icons. Geometric background pattern.
Natural Selection Engineering Internship

Domain: 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 are near a river; one is by the water and the other is standing on land and stretching its neck toward a leafy tree.

Evolutionary History

Domain: Life Science

Unit type: Core

Student role: Paleontologists

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

Two people climb over rocky terrain strewn with electronic waste, with illustrated insets showing a hiking boot, a solar-powered device, and a person adjusting a belt-like gadget.
Harnessing Human Energy

Domain: Physical Science

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 spacecraft approaches a modular space station with large solar panels, set against a backdrop of outer space.
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 badge showing a parachute, a box, a ruler, a bandage, and stacked layers.
Force and Motion Engineering Internship

Domain: 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 car full of people with raised arms, speeding down a loop against a blue sky with clouds.
Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

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

Illustration of a person in a red coat and hat with arms crossed, eyes closed, surrounded by large orange and brown circles, possibly representing snow or lights.
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.    

An orange popsicle gradually melts, shown in four stages from solid to completely melted, with wooden sticks visible, against a purple background.
Phase Change

Domain: Physical 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.    

A green background with a picture of a person and a sandwich.
Phase Change Engineering Internship

Domain: 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.    

Digital illustration showing red and blue molecules on a blue background transitioning to a lighter background, representing molecular diffusion across a boundary.
Chemical Reactions

Domain: Physical Science

Unit type: Core

Student role: Forensic chemists

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

Illustration of Earth with yellow arrows and colored waves approaching from the left, representing incoming solar or cosmic radiation.
Light Waves

Domain: Physical Science

Unit type: Core

Student role: Spectroscopists

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

Resources

Pilot support brochure for grades 6–8 (Domain…

Unit phenomena for grade 6-8 (Domain)

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

Classroom Slides for 6–8

Your new hands-free TG is coming soon! These PowerPoints for every lesson make t…

What’s so phenomenal about phenomena?

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

Planning Guide for grades 6–8 (Domain)

Check out these tips for planning to teach.

Active reading in grades 6–8

Scientists read and write with purpose too.

Investigations for grades 6–8 (Domain)

Explore the types of investigations that take place in 6–8 classrooms.

A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

Sims for grades 4–8

Take a closer look at the digital simulations included at each grade level.

Approaches to assessment at 6–8

Learn about our embedded assessments.

A closer look at grades 6–8 (domain)

Amplify Science is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

In the 6–8 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.

Is your school implementing the domain model? Click here.

Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
A four-step process: Spark intrigue, Explore evidence, Explain and elaborate, and Evaluate claims, leading to ongoing engagement and building complexity.

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 teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the NGSS in fewer lessons than other programs.

Scope and sequence

Every year our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45-minutes, though teachers can expand or contract the timing to meet their needs.

A grid of educational icons, each representing a different science topic, such as earth and space science, life science, and physical science, with titles and lesson counts.

Unit types

Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

In grades 6–8, there are three types of units:

  • One unit is a launch unit.
  • Three units are core units.
  • Two units are engineering internships.
Launch units

Launch units are the first units taught in each year of Amplify Science. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to actively read in all subsequent units.

Core units

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

Engineering Internship units

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Units at a glance

A rover sits on a rocky, reddish hill under a hazy sky, leaving visible tire tracks across the barren landscape.
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 marine reptiles with long snouts are near a rocky shoreline, one on land and one in the water, with an island and clouds in the background.
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.    

A geometric badge with a mountain, telescope, and audio wave icons on a purple background with polygonal shapes.
Plate Motion Engineering Internship

Domain: Earth and Space Science

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 volcano by the sea with smoke, trees, mountains, and a cross-section showing a fault line beneath the ground.
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.    

Illustration of a city skyline at night with buildings, a bridge, and a large full moon in a starry sky.
Earth, Sun, and Moon

Domain: Earth and Space Science

Unit type: Core

Student role: Astronomers

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

Abstract digital painting of a landscape with green hills, a red-orange horizon, and a large yellow sun surrounded by blue and orange swirling shapes on the right.
Ocean, Atmosphere, and Climate

Domain: Earth and Space Science

Unit type: Core

Student role: Climatologists

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

Illustration of a town with houses and fields under a sky with large clouds and swirling wind patterns, set against a backdrop of hills and mountains.
Weather Patterns

Domain: Earth and Space Science

Unit type: Core

Student role: Forensic meteorologists

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

A polar bear stands on a small ice floe surrounded by water and floating ice under a red sun in an Arctic landscape.
Earth’s Changing Climate

Domain: Earth and Space Science

Unit type: Core

Student role: Climatologists

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

Hexagonal badge with icons including a wrench, building, sun, screwdriver, paint can, and molecules on a purple geometric background.
Earth’s Changing Climate Engineering Internship

Domain: Earth and Space Science

Unit type: Engineering internship

Student role: Civil engineers

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

Colorful abstract digital artwork featuring a yellow figure holding a device, with blue and red shapes and textured patterns in the background.
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.    

An abstract illustration of a person having their mouth and throat examined with a tongue depressor, surrounded by colorful shapes, with an eye chart in the background.
Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

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

Geometric orange background with a hexagon icon displaying symbols for statistics, farming, healthcare, safety vest, chemistry, and agriculture.
Metabolism Engineering Internship

Domain: Life Science

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.    

Six spiders with different colors and stripe patterns are arranged in a grid pattern on a dark background, showing variations in leg and body color.
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.    

An underwater scene shows a whale surrounded by jellyfish, sea turtles, and fish, with sunlight filtering through the water.
Populations and Resources

Domain: Life Science

Unit type: Core

Student role: Biologists

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

A low-poly landscape with trees, mushrooms, a rabbit sitting, and a fox bending down near another rabbit under a sunny sky with mountains in the background.
Matter and Energy in Ecosystems

Domain: Life Science

Unit type: Core

Student role: Ecologists

Phenomenon: What caused the mysterious crash of a biodome ecosystem?    

Three green dinosaurs and one yellow dinosaur stand in a row on grass, each with purple spikes and a red spot on their backs. The sky is blue with light clouds.
Natural Selection

Domain: Life Science

Unit type: Core

Student role: Biologists

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

Red-toned graphic with hexagonal badge featuring a world map, a mosquito, a DNA strand, charts, cubes, and circular icons. Geometric background pattern.
Natural Selection Engineering Internship

Domain: 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 are near a river; one is by the water and the other is standing on land and stretching its neck toward a leafy tree.

Evolutionary History

Domain: Life Science

Unit type: Core

Student role: Paleontologists

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

Two people climb over rocky terrain strewn with electronic waste, with illustrated insets showing a hiking boot, a solar-powered device, and a person adjusting a belt-like gadget.
Harnessing Human Energy

Domain: Physical Science

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 spacecraft approaches a modular space station with large solar panels, set against a backdrop of outer space.
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 badge showing a parachute, a box, a ruler, a bandage, and stacked layers.
Force and Motion Engineering Internship

Domain: 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 car full of people with raised arms, speeding down a loop against a blue sky with clouds.
Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

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

Illustration of a person in a red coat and hat with arms crossed, eyes closed, surrounded by large orange and brown circles, possibly representing snow or lights.
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.    

An orange popsicle gradually melts, shown in four stages from solid to completely melted, with wooden sticks visible, against a purple background.
Phase Change

Domain: Physical 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.    

A green background with a picture of a person and a sandwich.
Phase Change Engineering Internship

Domain: 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.    

Digital illustration showing red and blue molecules on a blue background transitioning to a lighter background, representing molecular diffusion across a boundary.
Chemical Reactions

Domain: Physical Science

Unit type: Core

Student role: Forensic chemists

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

Illustration of Earth with yellow arrows and colored waves approaching from the left, representing incoming solar or cosmic radiation.
Light Waves

Domain: Physical Science

Unit type: Core

Student role: Spectroscopists

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

Resources

Pilot support brochure for grades 6–8 (Domain…

Unit phenomena for grade 6-8 (Domain)

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

Classroom Slides for 6–8

Your new hands-free TG is coming soon! These PowerPoints for every lesson make t…

What’s so phenomenal about phenomena?

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

Planning Guide for grades 6–8 (Domain)

Check out these tips for planning to teach.

Active reading in grades 6–8

Scientists read and write with purpose too.

Investigations for grades 6–8 (Domain)

Explore the types of investigations that take place in 6–8 classrooms.

A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

Sims for grades 4–8

Take a closer look at the digital simulations included at each grade level.

Approaches to assessment at 6–8

Learn about our embedded assessments.

Welcome, Jordan K-8 reviewers!

To view this protected page, enter the password below:



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

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A closer look at grades 6–8

Amplify Science California is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

In the 6–8 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.

Is your school implementing the domain model? Click here.

Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
A four-step process diagram with icons: spark a real-world problem, explore sources, explain and elaborate, and evaluate claims, all linking to engage with 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, 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 California to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the California NGSS in fewer lessons than other programs.

Scope and sequence

Every year our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45-minutes, though teachers can expand or contract the timing to meet their needs.

Chart displaying educational science topics for grades 6 to 8, categorized by grade level, duration in days, and number of classes. Includes subjects like microbiome, geology, and natural selection.

Unit types

Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

In grades 6–8, there are three types of units:

  • One unit is a launch unit.
  • Three units are core units.
  • Two units are engineering internships.
Launch units

Launch units are the first units taught in each year of Amplify Science California. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

Core units

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

Engineering Internship units

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Units at a glance

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.
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.
Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

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

Download unit guide

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

Download unit guide

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

Download unit guide

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.
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
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.  

Download unit guide

An illustration from the Earth's Changing Climate unit
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.  

Download unit guide

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

Download unit guide

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

Download unit guide

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.
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

Download unit guide

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

An illustration from the Chemical Reactions unit
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.  

Download unit guide

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

Download unit guide

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

Download unit guide

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

Download unit guide

Green geometric graphic featuring icons: a baby, thermometer, layers, medical alert, and a flame.
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 roller coaster filled with people, hands raised, going down a steep track against a bright blue sky with clouds.
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
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.

Download unit guide

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

Download unit guide

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.
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.  

Download unit guide

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

Download unit guide

Resources

Two middle school girls use a Student Investigation Notebook to take on the role of scientists and engineers

Pilot support brochure for 6–8 (Integrated)

See how we customized our instructional sequence to fully support the Utah SEEd…

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

Unit phenomena for 6–8

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

A laptop screen displays a simulation about Earth's energy system, with surrounding images showing diagrams and energy flow models.

Classroom Slides for 6–8

Your new hands-free TG is coming soon! These PowerPoints for every lesson make t…

A child wearing safety goggles closely examines an object through a magnifying glass in a classroom setting.

What’s so phenomenal about phenomena?

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

A student reviews a science textbook and looks at a laptop in a classroom, while other students work together on their science projects in the background.

Active reading in 6–8

Learn how we support students in learning how to interact with scientific texts….

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.

Investigations for 6–8

Explore the types of investigations that take place in middle school classrooms….

A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

Sims for 4–8

Two students sit at desks writing in notebooks and using laptops in a classroom setting.

Approaches to assessment in 6–8

Learn about our middle school embedded assessments.

A science education kit includes goggles, measuring cups, books on ecosystems and fuel burning, seeds, a jar, game pieces, and soil. Authored by The Lawrence Hall of Science.

Program component list for 6–8 (Integrated)

Explore the components that come with each unit.

Amplify’s Subprocessors

This page provides the current list of third party service providers that Amplify engages to help us provide our services and may have access to Personal Information of our customers (“Subprocessors”) as outlined in Amplify’s Customer Privacy Policy.

How to get notified of changes

Please use the “Subscribe to Updates” functionality at the top of the page to receive emails from Amplify regarding updates to the list of Subprocessors and/or changes to the information provided on this page. Should you choose not to use this functionality to receive email notifications, it is our expectation that you check the link regularly for any updates.

Our commitments regarding Service Providers

All of the Subprocessors listed below have a legitimate need to access Personal Information in order to provide their service to Amplify as a part of Amplify’s provision of the services to our customers. With regard to Subprocessors, Amplify commits to:

  • Conduct due diligence on the data privacy and security measures of new Subprocessors before providing access to Personal Information and monitor on an annual basis thereafter. As part of this process, Amplify reviews the Subprocessor’s security documentation, practices, and posture to ensure alignment with Amplify’s information security program and standards;
  • Enter into a written agreement which requires at least the same level of protection for Personal Information and individuals as set out in Amplify’s Customer Privacy Policy and our agreements with customers, as applicable, before providing access to Personal Information;
  • Restrict the Subprocessor’s access to Personal Information to only what is necessary to fulfill our contractual obligations or as otherwise permitted under the agreements with our customers or under applicable data privacy laws; and
  • Remain liable for any processing of Personal Information carried out by Subprocessors to the same extent we would be liable if performing the services ourselves.

Subprocessors

Amplify’s Subprocessors of Personal Information are:

Subprocessor Purpose Location Student Data Educator Data
Amazon Web Services Cloud hosting services United States A large, light peach-colored checkmark on a transparent background.
 A large, light peach-colored checkmark on a transparent background.
Anthology (formerly Blackboard) Video conferencing and attendee tracking for tutoring services United States A large, light peach-colored checkmark on a transparent background.
 A large, light peach-colored checkmark on a transparent background.
Boomi, Inc. Data integration United States   A large, light peach-colored checkmark on a transparent background.
Datadog Performance and security monitoring United States A large, light peach-colored checkmark on a transparent background.
 A large, light peach-colored checkmark on a transparent background.
dbt Labs, Inc. Run database queries United States A large, light peach-colored checkmark on a transparent background.
 A large, light peach-colored checkmark on a transparent background.
Egnyte, Inc. Secure file exchange United States A large, light peach-colored checkmark on a transparent background.
 A large, light peach-colored checkmark on a transparent background.
Fivetran, Inc. Database loading United States A large, light peach-colored checkmark on a transparent background.
 A large, light peach-colored checkmark on a transparent background.
Gainsight, Inc. Customer support United States   A large, light peach-colored checkmark on a transparent background.
Google, LLC Cloud hosting services United States A large, light peach-colored checkmark on a transparent background.
 A large, light peach-colored checkmark on a transparent background.
Google, LLC (Looker) Data warehouse analytics United States A large, light peach-colored checkmark on a transparent background.
 A large, light peach-colored checkmark on a transparent background.
HubSpot Email delivery United States   A large, light peach-colored checkmark on a transparent background.
MongoDB, Inc. Database hosting United States A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.
Salesforce Customer relationship management United States   A large, light peach-colored checkmark on a transparent background.
SchoolDay (formerly GG4L) Secure rostering United States A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.
Snowflake, Inc. Database hosting United States A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.
Talkdesk, Inc. Customer support United States   A large, light peach-colored checkmark on a transparent background.
Twilio, Inc. (Sendgrid) Email delivery United States A large, light peach-colored checkmark on a transparent background. A large, light peach-colored checkmark on a transparent background.

Updates

Date of Change Change Notes
October 10, 2025 Changed Blackboard to Anthology and GG4L to SchoolDay. Update MongoDB purpose. Added Datadog to the Students Subprocessor List. Created Educators Subprocessor List. Anthology and SchoolDay updated their corporate branding. Added list of Educator Data Subprocessors to clarify which partners process educator data.
June 14, 2024
 Removed Desmos Studio, PBC, Qualfon Data Services Group, LLC, and Zendesk, Inc. These partners and services are no longer used for customer support.
July 27, 2023
 Added Fivetran
September 15, 2022
 Corrected name of Desmos Studio, PBC.
July 21, 2022 Added Desmos Collective LLC, Google, MongoDB, Twilio, and Zendesk These services support Mathigon.org and Desmos Classroom
July 20, 2022 Added Qualfon Data Services Group, LLC
October 4, 2021 Added Blackboard, Inc.
July 26, 2021 Fishtown Analytics, Inc. renamed to dbt Labs, Inc.
June 17, 2021 Updated with data warehousing and roster services providers
May 28, 2021 Initial public posting.

A closer look at grades 6–8

Amplify Science is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

In the 6–8 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.

Is your school implementing the domain model? Click here.

Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
A four-step process diagram: Spark intrigue, Explore evidence, Explain and elaborate, and Evaluate claims, connected by arrows, with an engagement statement below.

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 teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the NGSS in fewer lessons than other programs.

Scope and sequence

Every year our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45-minutes, though teachers can expand or contract the timing to meet their needs.

A grid of educational icons, each representing a different science topic, such as earth and space science, life science, and physical science, with titles and lesson counts.

Unit types

Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

In grades 6–8, there are three types of units:

  • One unit is a launch unit.
  • Three units are core units.
  • Two units are engineering internships.
Launch units

Launch units are the first units taught in each year of Amplify Science. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

Core units

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

Engineering Internship units

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Units at a glance

Abstract digital artwork featuring a yellow human figure, red shapes, and a blue-toned screen, with vibrant, multicolored patterns and textures in the background.
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.  

An abstract illustration of a person receiving an oral examination, with colorful geometric shapes and an eye chart in the background.
Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

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

Abstract orange background with geometric shapes, featuring icons of a vest, bar chart, leaf, beaker, fruit, medical stethoscope, and an envelope within a hexagonal frame.
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.  

Six spiders with varying body colors (brown, yellow, blue, and red) and patterns are arranged on a dark, textured background, seemingly in a diagram or chart formation.
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 with closed eyes in a red winter coat and hat, surrounded by falling snow and orange circles on a dark background.
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 illustration of a sun with blue and orange rays over a colorful landscape featuring green hills and a vibrant sky.
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.  

Illustration of clouds above a small town and farmland, with wind currents depicted swirling through the landscape under a blue sky.
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.  

A polar bear stands on a small floating ice sheet in the ocean, surrounded by melting ice, with a red sun in the sky.
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.  

A purple hexagonal graphic with icons including a building, wrench, screwdriver, sun, molecules, paint bucket, and tiles on a geometric patterned background.
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 robotic rover sits on a hill in a rocky, reddish landscape, with visible tracks in the dust leading to its current position under a hazy sky.
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 green prehistoric reptiles with long snouts are near the shore; one is on land while the other swims in blue water, with plants, rocks, and an island in the background.
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.  

A purple geometric background featuring a hexagonal badge with a telescope, mountain, audio wave, and star symbols inside.
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 showing an ocean, forest, and mountains with a smoking volcano, plus a cross-section of underground tectonic plates.
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.  

Four stages of an orange popsicle melting on a stick, from fully frozen on the left to completely melted on the right, against a plain background.
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 background with an outlined hexagon containing icons: a parachute, ruler, letter "A," bandage, stacked blocks, and a folded corner paper.
Force and Motion 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. Domains: Engineering Design, Physical Science

Abstract illustration showing red and blue circles on a split blue and light background, representing molecular movement across a membrane or barrier.
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 underwater scene with a large whale surrounded by turtles, jellyfish, and various fish swimming in different directions.
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 digital illustration of a fox hunting a rabbit in a forest with pine trees, mushrooms, mountains, and the sun in the background. Another rabbit sits near the trees.
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 climb over rocks filled with electronic devices; inset illustrations show a boot, a belt of batteries, and a radio.
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 spacecraft approaches and docks with a modular space station featuring large blue solar panels, set against a black space background.
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 graphic with hexagonal emblem showing an infant, a thermometer, layered materials, a medical symbol, and a flame icon.
Force and Motion Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Chemical 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 car with passengers raising their arms as they descend a steep track against a blue sky with clouds.
Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

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

Illustration of the Earth with arrows representing radiation or energy entering the atmosphere from space, focused on the Asia-Pacific region.
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 illuminated windows, a large full moon, stars in the sky, and a bridge visible on the left side.
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 polygonal dinosaurs walking in a row, three green and one yellow, each with a rock and purple spikes on their backs, set against a grassy background with a blue sky.
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 featuring a hexagonal emblem with icons of a world map, mosquito, DNA strand, bar chart, and interconnected blocks.
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 tortoises with long necks are by a river; one is browsing leaves from a bush while the other is walking near the water's edge.
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

Pilot support brochure for 6–8 (Integrated)

Unit phenomena for 6–8

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

Classroom Slides for 6–8

Your new hands-free TG is coming soon! These PowerPoints for every lesson make t…

What’s so phenomenal about phenomena?

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

Active reading in 6–8

Scientists read and write with purpose too.

Investigations for 6–8

Explore the types of investigations that take place in middle school classrooms….

A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

Sims for 4–8

Approaches to assessment in 6–8

Learn about our middle school embedded assessments.

Elementary literacy

Science of reading resources

What does the “science of reading” really mean? How can you apply it in the classroom? We’ve created resources to help you get started

A girl in an orange dress runs through a green meadow, flying a colorful kite streaming words like letters, words, and sounds against a cloudy sky.

What is science reading?

The “science of reading,” or “structured literacy,” refers to the wealth of research findings on how students learn to read. 

At its heart is what experts call the Simple View of Reading, which describes the two fundamental skills required for people to read with comprehension: 

  • Decoding—the ability to recognize written words
  • Language comprehension—understanding what words mean

Decoding x Language Comprehension = Reading Comprehension

Without both decoding and language comprehension, reading comprehension cannot occur.

A group of diverse children attentively looking upwards with expressions of curiosity and interest.
Logo with the text built on the science of reading, featuring an open book icon above phonetic symbols on a bubbly orange background.

Download the Science of Reading Toolkit

Find out why foundational skills must start with sounds and the crucial role of background knowledge.

Get the kit now!

Amplify literacy programs built on the science of reading

Amplify’s suite of instruction, assessment, and intervention is based on the science of reading. Developed with experts, our highly-regarded programs for elementary core curriculum (Amplify Core Knowledge Language Arts), assessment, (mCLASS ®) and intervention and differentiated instruction (Amplify Reading and mCLASS ® Intervention) are a comprehensively aligned system based on the latest research.

Teacher in an orange sweater gestures while speaking to attentive students seated at desks in a classroom with educational posters on the walls.

Core instruction

Rated “all green” by EdReports.org, Amplify Core Knowledge Language Arts (CKLA) is an English language arts program for preK–5 offering explicit, systematic foundational skills and deep knowledge-building in real-world, relevant topics that kids love to learn about.

Learn more here >

high quality informational materials five fundamentals
A teacher interacts with three young students in a classroom, showing them something on a smartphone.

Universal and dyslexia screening

Valid, reliable data is at the center of a science of reading-based literacy system. Built from the ground up on the science of reading, mCLASS, Amplify’s literacy assessment for K–6, identifies risk of reading difficulties, including dyslexia, at the earliest levels.

As the only licensed digital provider of DIBELS® 8th Edition, mCLASS’s predictive, teacher-administered, one-minute measures generate actionable data on skills, risk levels, and level of support needed. Teachers receive targeted instruction for small groups and individual students.

Learn more here >

Remediation and enrichment

Amplify Reading, K–5 Edition, is an adaptive digital program that extends the learning from core instruction, giving students deep, differentiated practice in foundational skills, comprehension processes, and vocabulary—all while exploring narrative worlds designed to appeal to kids at each grade band. Part of Amplify’s integrated literacy suite, it syncs with mCLASS, using students’ assessment profiles to start them at the right place in the learning progression.

Learn more here >

A split image with a vibrant market scene on the left and a cozy bookstore scene on the right, featuring colorful characters and items.
high quality informational materials five fundamentals

Structured, staff-led intervention

For students below grade level, mCLASS Intervention for K–6 integrates with mCLASS screening and progress-monitoring to provide the analytical tools and resources educators need to make targeted, staff-led intervention a daily reality throughout the school year. Specifically, it groups students with similar needs and provides explicit, systematic foundational skills lessons for each group.

Learn more here >

Getting Started Resources

Cover image of the book Science of Reading: A Primer, Part One by Amplify, showing a person flying a kite with multicolored ribbons in a green landscape with trees and clouds.

Science of reading: Volume 2

Cover of Science of Reading: The Primer Part Two by Amplify, featuring an illustration of a person standing atop a large stair pyramid holding a staff with a glowing symbol, with trees and clouds in the background.

Science of reading: Volume 2

Illustration of a girl holding a kite with colorful tails labeled with reading skills. Text: Toolkit: Science of reading. Five insights you can start using today. Amplify logo in top left.

Science of reading Getting started..

A laptop screen displaying a webpage for Science of Reading: The Podcast, offering listening options and an illustration of a person running with colorful ribbons. Options include Apple Podcasts and Spotify.

Science of reading: The Podcast

Join us for an informative new episode featuring a new special guest every two w…

What would you like to do next?

Talk to product experts Stay up to date on new science of reading resources and podcasts

Amplify literacy curriculum sample boxes – TX

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Amplify literacy curriculum sample boxes – CA

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A closer look at grades 6–8 (domain)

Amplify Science California is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

In the 6–8 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.

Is your school implementing the integrated model? Click here.

Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
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, 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 California to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the California NGSS in fewer lessons than other programs.

Scope and sequence

Every year of our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45 minutes, though teachers can expand or contract the timing to meet their needs.

A grid of educational icons, each representing a different science topic, such as earth and space science, life science, and physical science, with titles and lesson counts.

Unit types

Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

In grades 6–8, there are three types of units:

  • One unit is a launch unit.
  • Three units are core units.
  • Two units are engineering internships.
Launch units

Launch units are the first units taught in each year of Amplify Science California. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to actively read in all subsequent units.

Core units

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

Engineering Internship units

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Units at a glance

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

Download unit guide

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

Domain: Earth and Space Science

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.
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.    

Download unit guide

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

Domain: Earth and Space Science

Unit type: Core

Student role: Astronomers

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

Download unit guide

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.
Ocean, Atmosphere, and Climate

Domain: Earth and Space Science

Unit type: Core

Student role: Climatologists

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

Ilustración de un pueblo con casas, campos y montañas bajo un cielo nublado con olas de viento o lluvia.
Weather Patterns

Domain: Earth and Space Science

Unit type: Core

Student role: Forensic meteorologists

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

Download unit guide

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.
Earth’s Changing Climate

Domain: Earth and Space Science

Unit type: Core

Student role: Climatologists

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

Download unit guide

Abstract geometric design in shades of blue and purple featuring a hexagon with icons of a building, wrench, molecules, sun, paint can, and screwdriver.
Earth’s Changing Climate Engineering Internship

Domain: Earth and Space Science

Unit type: Engineering internship

Student role: Civil engineers

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

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.
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.
Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

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

Download unit guide

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

Domain: Life Science

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.
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.    

Download unit guide

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

Domain: Life Science

Unit type: Core

Student role: Biologists

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

Download unit guide

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

Domain: Life Science

Unit type: Core

Student role: Ecologists

Phenomenon: What caused the mysterious crash of a biodome ecosystem?    

Download unit guide

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.
Natural Selection

Domain: Life Science

Unit type: Core

Student role: Biologists

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

Download unit guide

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

Domain: 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.
Evolutionary History

Domain: Life Science

Unit type: Core

Student role: Paleontologists

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

Download unit guide

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

Domain: Physical Science

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.
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.    

Download unit guide

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

Domain: 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.
Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

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

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

Download unit guide

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.
Phase Change

Domain: Physical 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.    

Download unit guide

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

Domain: 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.    

Obra de arte digital abstracta que presenta numerosos círculos rojos y grises superpuestos sobre un fondo dividido de azul y violeta claro, creando una composición dinámica y enérgica.
Chemical Reactions

Domain: Physical Science

Unit type: Core

Student role: Forensic chemists

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

Download unit guide

An illustration from the Light Waves unit
Light Waves

Domain: Physical Science

Unit type: Core

Student role: Spectroscopists

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

Download unit guide

Resources

Pilot support brochure for 6–8 (Domain)

See how we customized our instructional sequence to fully support the Utah SEEd…

Unit phenomena for 6–8(Domain)

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

What’s so phenomenal about phenomena?

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

Un maestro se encuentra al frente de un salón de clases, explicando una lección que se muestra en una pantalla. Los estudiantes se sientan en sus escritorios y algunos levantan la mano.

Planning Guide for grades 6–8 (Domain)

Check out these tips for planning to teach.

Active reading in 6–8

Learn how we support students in learning how to interact with scientific texts….

Investigations for 6–8(Domain)

Explore the types of investigations that take place in middle school classrooms….

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Sims for 4–8

Take a closer look at the digital simulations included at each grade level.

Approaches to assessment in 6–8

Learn about our middle school embedded assessments.

Amplify literacy curriculum sample boxes

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Overview Videos

Amplify CKLA and Caminos for K–2

After watching the K–2 video below, scroll down to learn even more, download resources, and access a demo.

Amplify CKLA and Caminos for 3–5

After watching the 3–5 video below, scroll down to learn even more, download resources, and access a demo.

What it is

Amplify CKLA is a core ELA program for grades K–5 that delivers:

  • A unique research-based approach truly built on the Science of Reading.
  • A combination of explicit foundational skills with meaningful knowledge building.
  • Embedded support and differentiation that gets all students reading grade-level texts together.
  • Opportunities for students to see the strengths and experiences that all people share while also celebrating each others’ unique identities and experiences.
  • Equitable and authentic Spanish language arts instruction with Amplify Caminos.

 

Three children's book covers displayed: "The Green Fern Zoo" with illustrated animals, "The Job Hunt" featuring a woman and child, and "Fables" showing a fox reading to forest animals.

All-green on EdReports
Una chica con una camisa azul se sienta en una mesa con un libro abierto. Las características del fondo incluyen un oso, una pagoda, plantas, gemas y un pájaro, todo en un estilo ilustrado.

Program effectiveness
Circular badge with "READ THE REPORT" at the top, "REVIEW YEAR 2021" at the bottom, and the EdReports logo in the center.

Also all-green: CKLA Skills

How it works

Amplify CKLA teaches both foundational skills and background knowledge in K–2 and combines them in 3–5, as required by the science of reading.

  • In grades K–2, students complete one full lesson that builds foundational reading skills, as well as one full lesson that builds background knowledge.
  • In grades 3–5, student complete one integrated lesson that combines skills and knowledge with increasingly complex texts, close reading, and a greater writing emphasis.
How it works
Illustration of ancient civilizations featuring pyramids, a Sphinx statue, a step pyramid, farmers with oxen, and people in traditional clothing.

CKLA Program Guide
Illustration featuring diverse characters and elements such as frida kahlo with flowers, children on planets, maya pyramid, a bee, and a cricket on nature-themed background.

Caminos Program Guide
Una ilustración que representa a un gran lobo con sombrero de copa liderando un desfile de animales y personas con instrumentos musicales a través de un paisaje montañoso.

Grade K Teacher Planner
Illustration of a space scene with an astronaut in the foreground, a rocket launching, people with a telescope, and a distant planet with rings.

Grade 1 Teacher Planner
Ilustración que muestra la antigua Grecia con un anfiteatro, estatuas, soldados con armadura, un barco y un templo en una colina rodeada de vegetación.

Grade 2 Teacher Planner
An illustration from Amplify CKLA's The Viking Age (with Core Quest)

Grade 3 Teacher Planner
Un pequeño bote de remos con tres personas navega por mares agitados mientras dos grandes barcos luchan al fondo, con humo y fuego visibles.

Grade 4 Teacher Planner
Dos jinetes medievales a caballo, uno de ellos con la espada en alto, avanzan por un terreno rocoso. El fondo presenta un paisaje brumoso bajo un tono violeta.

Grade 5 Teacher Planner

What students explore

Amplify CKLA builds knowledge coherently across subjects and grades.

Students make connections from year-to-year by exploring 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.

Download the at-a-glance resources below to learn more.

What students explore
Illustrative circles depicting educational stages from prek to grade 5, each showing children engaged in age-appropriate activities or learning themes.

Units by grade
Ilustración de una galleta con leche, un primer plano de la boca de una persona, un texto que dice "¡Digámoslo juntos!" en un bocadillo y dos círculos azules uno al lado del otro sobre un fondo verde.

Skills by grade

What students read

Amplify CKLA puts a variety of texts in the hands of students every day to build and strengthen background knowledge and vocabulary, listening and reading comprehension, and decoding and fluency skills.

More than that, we ensure the texts students read represent the world around them. With a diverse range of authors, topics, and characters, all students have ample access to both windows and mirrors. Our texts include:

  • Authentic books.
  • Authentic text passages.
  • Student Readers.
  • Novel Guides (grades 3–5).

Download the lists below to explore specific grade-level texts.

What students read
A boy sits at a table drawing while smiling at a large blue elephant floating outside the window in a bright, colorful room.

Grade K Text List
A boy sits on brownstone steps as a pink ice cream truck labeled "Yummy" emits colorful, wavy streams on a residential street with three row houses.

Grade 1 Text List
A rocket launches from a pad, releasing smoke, while a peregrine falcon perches on a branch in the foreground, watching the scene.

Grade 2 Text List
Three people are at a playground, with two children singing while sitting and standing on playground equipment, and an adult directing or encouraging them. Musical notes are illustrated around them.

Grade 3 Text List
Cartoon people of varied ages and backgrounds enjoy a city park; some play music, others relax or interact, with buildings and trees in the background.

Grade 4 Text List
A girl writes at her desk, imagining herself graduating in cap and gown, with a thought bubble showing her smiling and holding a diploma.

Grade 5 Text List

Access and equity

We believe we have a responsibility to provide literacy instruction that gives every student the same opportunity to succeed and excel.

We know that early reading affects achievement throughout school and beyond—well into college and career. Yet most literacy programs continue to fall short of supporting early literacy success. That’s why we’re so proud that CKLA is helping close the reading gap between students within diverse communities.

Explore how we make learning equitable for all learners with the resources below.

Un grupo de jóvenes estudiantes se sientan muy juntos y miran atentamente hacia arriba. Algunos de los niños visten atuendos coloridos, incluida una niña con un hijab azul. Parecen estar en un salón de clases.

The four pillars of equity

Two boys sit at desks with open books, talking to each other. A paper cutout of a lightbulb stands upright between them.

Equity and diversity overview
Una mujer adulta está ayudando a un niño con sus tareas escolares en un escritorio en un salón de clases.

Grades K–2: Supporting all learners
Four students work together at a desk in a classroom, with one writing in a notebook. A projector screen and whiteboards with notes are visible in the background.

Grades 3–5: Supporting all learners

Built on the Science of Reading

Watching students learn to read: magic. Knowing how they get there: science.

As you consider your next core ELA program, it’s critically important to understand what the Science of Reading really means and what it tells us about how to teach more effectively. Unlike other programs, Amplify CKLA was built upon these insights and practices, making it easier for teachers to implement this proven approach.

Download the resources below to dive deeper into the Science of Reading.

Built on the Science of Reading
Cover image of the book Science of Reading: A Primer, Part One by Amplify, showing a person flying a kite with multicolored ribbons in a green landscape with trees and clouds.

Science of Reading Primer: Part 1
Cover of Science of Reading: The Primer Part Two by Amplify, featuring an illustration of a person standing atop a large stair pyramid holding a staff with a glowing symbol, with trees and clouds in the background.

Science of Reading Primer: Part 2
Three children read books together on the floor with a small table and a stack of books in the background.

Science of Reading: Look Fors
Orange outline of headphones with a sound wave symbol in the center, set against a black background.

Science of Reading podcast

Gain insights from researchers and practitioners in early reading.

Supports Orton-Gillingham and LETRS

Amplify CKLA aligns with the instructional principles recommended by Orton-Gillingham and LETRS.

  • Structured–Concepts are taught through consistent routines
  • Sequential–Concepts are taught in a logical, well-planned sequence
  • Systematic–Phonemes are taught from simplest to most complex
  • Explicit–Decoding and encoding concepts are taught directly and explicitly
  • Multi-sensory–Instruction is delivered through visual, auditory, and kinesthetic-tactile pathways
  • Cumulative–Concepts are applied in decodable, connected texts with constant review and reinforcement
Diagram showing parallel strands labeled with reading skills and knowledge merging together into a single twisted line labeled "Integration.

CKLA Skills sequence for K–2
Diagram showing parallel strands labeled with reading skills and knowledge merging together into a single twisted line labeled "Integration.

CKLA Skills sequence for 3–5

A comprehensive and cohesive solution

A strong literacy program is not just about a reading program or an assessment tool: it brings together curriculum, instruction, regular practice, intervention, and assessments.

Amplify has brought these components together in our early literacy suite of curriculum, ensure that you have what you need for multi-tiered support.

 

CKLA_Caminos

CKLA and Caminos

Amplify Caminos delivers equitable ELA instruction in Spanish.
male student smiling with books at desk

CKLA and Caminos Lectoescritura

Amplify Caminos authentically builds foundational skills for Spanish-speakers.
A diverse group of young students and a teacher laughing together around a laptop in a colorful classroom, engaged with an online language arts curriculum.

CKLA and Language Studio

CKLA aligns with Language Studio–our ELD companion program for grades K–2.
Un niño con la cabeza rapada está sentado en un escritorio, escribiendo en un cuaderno con un bolígrafo blanco.

CKLA and Writing Studio

CKLA aligns with Writing Studio–our writing companion program for grades K–5.
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CKLA and mCLASS

CKLA connects to our comprehensive diagnostic universal screener called mCLASS.
Two young girls, one with braided hair and the other with blonde hair, smiling and looking at a laptop screen in a classroom.

CKLA and Amplify Reading

CKLA connects to our adaptive reading practice program called Amplify Reading.

Access demo

Ready to explore on your own? Follow the instructions below to access your demo account.

Explore the CKLA Teacher Resource Site

First, watch the quick navigation video to the right. Then, click the “Access CKLA Teacher Resource Site” button to log in.

  • Click the CKLA Teacher Resource Site button
  • Select Log in with Amplify.
  • Enter this username to explore as a teacher: t1.kentcaminos2021@demo.tryamplify.net
  • Enter this username to explore as a student: s1.kentcaminos2021@demo.tryamplify.net
  • Enter this password: Amplify1-kentcaminos2021
  • Select the desired grade level
Access CKLA Teacher Resource Site

Contact us

Have questions? Your dedicated Account Executive, Patrick Momsen, is standing by and ready to help.

Patrick Momsen Senior

Account Executive

Districts over 4,500 students

(541) 207-2148

pmomsen@amplify.com

Welcome, K-5 LAUSD principals and teachers!

What’s new?

View the LAUSD CKLA Teacher Hub

Scroll down to learn how CKLA is uniquely designed to help all students make learning leaps in literacy.

Looking for LAUSD G6 ELA information and resources? Visit the LAUSD G6 ELA site.

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Our promise

Developed in partnership with the Core Knowledge Foundation, Amplify CKLA promises:

  • A unique research-based approach based on the Science of Reading.
  • A combination of explicit foundational skills instruction with meaningful content knowledge.
  • An instructional design that levels the playing field for every child.
  • Superior results.

Before you explore the program on your own, watch this program walkthrough.

Illustration of ancient civilizations featuring pyramids, a Sphinx statue, a step pyramid, farmers with oxen, and people in traditional clothing.

CKLA Program Guide

Learn more about key program features and how CKLA works.

Illustration showing a person painting by a window, bees and a grasshopper among sunflowers, a pyramid, and two children floating on a globe with books and planets.

Caminos Program Guide

Learn more about key program features and how Caminos works.

A young girl with a braid smiles while leaning on a desk, with whimsical illustrations of a bear, buildings, and plants in the background.

Program effectiveness

Learn about the impact and effectiveness of Amplify CKLA.

Illustration of a space scene with an astronaut in the foreground, a rocket launching, people with a telescope, and a distant planet with rings.

Program structure and components

Explore how the program is structure and dive into its key components.

Built on the Science of Reading

Watching students learn to read: magic. Knowing how they get there: science.

What does the Science of Reading really mean? What does it tell us about how to teach? How can we bring those insights and practices into our classrooms (remote or otherwise)? We believe CKLA has the answers.

A girl runs outdoors holding a kite with colorful ribbons labeled knowledge, vocabulary, sentences, connections, gist, sounds, letters, and words.
Illustration of a girl holding a kite with colorful tails labeled with reading skills. Text: "Toolkit: Science of reading. Five insights you can start using today." Amplify logo in top left.

Science of Reading toolkit

Explore the latest research in the Science of Reading.

Promotional graphic for "science of reading: the podcast" featuring text alongside colorful, diagonal lines with education-related words.

Science of Reading podcast

Gain insights from researchers and practitioners in early reading.

A woman with short curly hair in a white shirt is shown next to two book covers: "The Writing Revolution" and "The Knowledge Gap." Colorful stripes are in the background.

Expert Natalie Wexler

Hear from expert and author Natalie Wexler on the power of Amplify CKLA.

Supports Orton-Gillingham and LETRS

CKLA brings the instructional principles recommended by Orton-Gillingham and LETRS to life in the classroom.

  • Structured–Concepts are taught through consistent routines
  • Sequential–Concepts are taught in a logical, well-planned sequence
  • Systematic–Phonemes are taught from simplest to most complex
  • Explicit–Decoding and encoding concepts are taught directly and explicitly
  • Multi-sensory–Instruction is delivered through visual, auditory, and kinesthetic-tactile pathways
  • Cumulative–Concepts are applied in decodable, connected text with constant review and reinforcement

Watch a CKLA grade 1 Skills Lesson in action by clicking the video.

Diagram showing parallel strands labeled with reading skills and knowledge merging together into a single twisted line labeled "Integration.

CKLA Skills sequence for K–2

Take a closer look at the instructional sequence of the CKLA Skills strand.

Diagram showing parallel strands labeled with reading skills and knowledge merging together into a single twisted line labeled "Integration.

CKLA Skills sequence for 3–5

Take a closer look at the instructional sequence of integrated reading skills wi…

What students read

Amplify CKLA puts a variety of texts in the hands of students every day to build and strengthen background knowledge and vocabulary, listening and reading comprehension, and decoding and fluency skills.

Reading and comprehension activities utilize:

  • Authentic books.
  • Authentic text passages.
  • Student Readers.
  • Novel Guides (grades 3–5).
Six children's book covers arranged in two rows, featuring colorful illustrations of animals, people, and nature. Titles include "Rain Player," "A More Perfect Union," and "The Busy Body Book.
A boy sits at a table drawing while smiling at a large blue elephant floating outside the window in a bright, colorful room.

Grade K Text List

Take a closer look at what students read in Grade K.

A boy sits on brownstone steps as a pink ice cream truck labeled "Yummy" emits colorful, wavy streams on a residential street with three row houses.

Grade 1 Text List

Take a closer look at what students read in Grade 1.

A rocket launches from a pad, releasing smoke, while a peregrine falcon perches on a branch in the foreground, watching the scene.

Grade 2 Text List

Take a closer look at what students read in Grade 2.

Three people are at a playground, with two children singing while sitting and standing on playground equipment, and an adult directing or encouraging them. Musical notes are illustrated around them.

Grade 3 Text List

Take a closer look at what students read in Grade 3.

Cartoon people of varied ages and backgrounds enjoy a city park; some play music, others relax or interact, with buildings and trees in the background.

Grade 4 Text List

Take a closer look at what students read in Grade 4.

A girl writes at her desk, imagining herself graduating in cap and gown, with a thought bubble showing her smiling and holding a diploma.

Grade 5 Text List

Take a closer look at what students read in Grade 5.

CKLA DEI and Social Justice Guides

The following guide offers an overview of the many ways that the Amplify CKLA program supports students’ understanding of issues related to diversity, equity, inclusion, and social justice.

A vibrant illustration depicting diverse children and animals engaged in various activities in nature and by a pond.

The missing piece

CKLA is aligned with programs you already know and use—mCLASS and Boost Reading—making the integration between systems, your implementation, and ongoing instructional planning more efficient, effective, and easy for your teachers.

A teacher using a tablet alongside a student

mCLASS and CKLA

Learn how mCLASS and CKLA work together to help teachers make immediate and info…

Two young girls, one with braided hair and the other with blonde hair, smiling and looking at a laptop screen in a classroom.

Boost Reading and CKLA

Learn how Boost Reading supports the instructional approach in CKLA further stre…

Standards alignment and unit summaries

A teacher and a young student focus on a book during a classroom lesson, with educational posters visible in the background.

CA CCSS Unit-Level Standard Alignment

Explore how Amplify CKLA fully supports CA standards.

Illustration of a red flower plant with green leaves under a bright sun, set against a soft pink landscape with white clouds.

Kindergarten unit summary

Illustration of a simple, stylized sandcastle with a central tower and two smaller side towers, set against a teal background with small white stars.

Grade 1 unit summary

Illustration of several saguaro cacti of different sizes on a flat landscape with a soft orange background and small white clouds.

Grade 2 unit summary

Three indigenous people, two in traditional attire and one in colonial clothes, stand by a river with a boat and trees in the background.

Grade 3 unit summary

Tres personajes animados están sentados en una mesa: un hombre con bigote, una persona en traje de buceo con gafas y una mujer de cabello negro y un pañuelo rojo.

Grade 4 unit summary

An illustration of don quixote riding his horse with a spear in hand and sancho panza on a donkey, set against a moonlit, hilly background.

Grade 5 unit summary

Caminos Curriculum maps

Grades K-2

GK Caminos Conocimiento Curriculum Maps

GK Caminos Lectoescritura Curriculum Maps

G1 Caminos Conocimiento Curriculum Maps

G1 Caminos Lectoescritura Curriculum Maps

G2 Caminos Conocimiento Curriculum Maps

G2 Caminos Lectoescritura Curriculum Maps

Grades 3-5

G3 Caminos Curriculum Maps

G4 Caminos Curriculum Maps

G5 Caminos Curriculum Maps

Language Studio Curriculum Maps

Grade K Language Studio Curriculum Map

Grade 1 Language Studio Curriculum Map

Grade 2 Language Studio Curriculum Map

Grade 3 Language Studio Curriculum Map

Grade 4 Language Studio Curriculum Map

Grade 5 Language Studio Curriculum Map

Access demo

Ready to explore on your own? Follow the instructions below to access your demo account.

Access the CKLA Teacher Resource Site

Watch the quick navigation video first, then login using the “Access CKLA Teacher Resource Site” button.

  • Click the CKLA Teacher Resource Site below.
  • Select the Log in with Amplify button.
  • Enter the username: lausdreviewer@tryamplify.net
  • Enter the password: AmplifyNumber1
  • Select the desired grade level.
Access CKLA Teacher Resource Site

Access the CKLA Student Hub

Watch the quick navigation video first, then login using the “Access CKLA Student Hub” button.

  • Click the CKLA Student Hub button.
  • Select Log in with Amplify.
  • Enter the username lausdreviewer@tryamplify.net.
  • Enter the password AmplifyNumber1.
  • Select the desired grade level.
Access CKLA Student Hub

Contact us

Looking to speak directly with your LAUSD representative? Get in touch with a team member by emailing ckla.lausd@amplify.com or by calling us directly.

Shalonda Johnson

Customer Success Manager

(213) 310-0107

shajohnson@amplify.com


S3-03: Instructional strategies for integrating science and literacy

A graphic with the text "Science Connections" and "Amplify" features colorful circles and curved lines on a dark gray background.

We’re continuing our investigations around science and literacy with Doug Fisher, Ph.D., professor and chair of educational leadership at San Diego State University. We talk about the importance of integrating science and literacy, as well as practical guidance for teachers who want to unite the two disciplines in their own classrooms.

Listen as we discuss how science and literacy can be powerful allies and specific strategy areas to focus on when integrating the two disciplines. And don’t forget to grab your Science Connections study guide to track your learning and find additional resources!

We hope you enjoy this episode and explore more from Science Connections by visiting our main page!

DOWNLOAD TRANSCRIPT

Douglas Fisher (00:00):

It’s not that you have to become a reading specialist to integrate literacy into science. It’s how our brains work.

Eric Cross (00:10):

Welcome to Science Connections. I’m your host, Eric Cross. This season, we’re making the case for our favorite underdog, which of course is science. Each episode we’re showing how science can be better utilized in the classroom, and making the case for why it’s so important to do so. In our last episode, we examined the evidence showing that science and English instruction can support each other. And now on this episode, we want to give you some more strategies for really making that a reality in your own home or classroom or community. So to help me, I’m joined on this episode by Dr. Douglas Fisher, Professor and Chair of Educational Leadership at San Diego State University. Dr. Fisher is actually someone who has conducted literacy training at my own school, so I’m excited to be able to share some of his wisdom with all of you. Oh, and just a heads up, Dr. Fisher dropped some gems about the ways teachers can integrate literacy and science in their classrooms. So you may want to have a notepad. Ready. And now here’s my conversation with Dr. Douglas Fisher.

Eric Cross (01:12):

Well, Doug, thank you for your time and for being willing to come and talk about literacy and science. I know you’re busy, all over the place, and so I was super-excited that we were able to lock you in and talk about this. And, on this episode, we’re gonna talk about the ways that science and literacy can support each other. And one of the reasons why I’m really excited for you is because you said some really key things for me as a science teacher, when you talked about literacy and supporting students. That just resonated so deeply in me. And I was like, “I need more Doug!” Because we’re on that same frequency. And I know it’s a subject that you’ve spent a lot of time writing about. So can you tell us a little bit about how this became an area of interest or a passion for you? Just literacy, and all of the work that you’ve put into it?

Douglas Fisher (01:54):

Yeah. So I’ve wanted to be a teacher for a really long time. And I went to San Diego State as an undergraduate, and I was taking English class and we were assigned topics. You know, like, you’ll do an assignment, you’ll write a paper for this English class. And I got the topic “illiteracy,” and I was a freshman at San Diego State reading all of these things about adults who don’t read very well or not at all. And I ended up writing my very first college essay on illiteracy — at the time, you know, called illiteracy, at the time. And so I got super interested in this. And so as I moved through college and into my teaching career, literacy became a really important thing for me to think about, because it’s the gatekeeper. You know, you can be taken advantage of, if you’re not very literate. People can use vocabulary against you, if you’re not very literate. We know that people who have higher levels of literacy have better health outcomes. They have better lifespans, longer lifespans. I mean, there’s just — literacy impacts so much more than “Are you reading your fourth-grade textbook?” It really has lifelong implications.

Eric Cross (03:01):

That part that you said about being taken advantage of … I just got a flyer in the mail yesterday. It was one of these mailers that looked like it was an authentic debt-reduction type of thing, but it was really just like a marketing email. If you read the fine print at the very bottom, it had all of this jargon about “This is a paid, you know, for-profit company.” But when you look at it, it had official stamps all over it. And I could imagine if someone’s receiving that, that probably fools a lot of people. Is that kinda like what you’re talking about, like being taken advantage of?

Douglas Fisher (03:28):

Yes. I had a student turn 18, got a letter from a “credit card company” that was offering her daily compounding interest. And if you don’t know what that means — at 23 percent! — if you dunno what that means, you are gonna be a victim. Literacy really influences a lot of our life. It’s also how our brain works. We have a language-based system in our brain. We read, write, speak, listen, and view. And the things we learn, we learn through speaking, reading, writing, listening, and viewing. From what we know, we are the only species that has an external storage mechanism. Like, we have the ability to store complex information outside of our body, in the form of notes. We can type them. We can write them. And we can then go back and retrieve that information, that complex orthographic information later. And it means the same thing. We can say we have a storage system and we’ve been doing this for a really long time. Way back to, you know, hieroglyphics and messages on cave walls. And throughout the ages of humans learning, how to store information that they can re-access again later. That’s become a super-complicated system. It’s how computers operate. And we send messages to each other and we text each other and we write things down, and we’re really good at putting ideas, information out there. Now, if it’s just speaking and listening, then we can forget it. We can say, “No, you said this,” or “I said that.” But when it’s written, and it’s print literacy, you know, it’s the orthographics there, you can go back to the same message and over and over again. Now, you might change the interpretation of it, but the message is still there.

Eric Cross (05:16):

Right. And that is such a key element, at least of modern education, is this written element of it. It’s what many schools live and die by. They’re quantitatively and qualitatively analyzed by it. It’s public. They can see it. And so there’s this heavy emphasis. And why do you think science and literacy can be powerful allies together?

Douglas Fisher (05:38):

Awesome. Well, it’s hard to learn science if you’re not literate.

Eric Cross (05:42):

This is true.

Douglas Fisher (05:42):

But that’s a one-way direction. And yes, science teachers and scientists do a lot of reading, writing, speaking, and listening and viewing. They use the five literacy processes all the time. When we interview scientists, they spend a lot of their time reading the work of other scientists and writing their findings, writing grant proposals, presenting at conferences, you know. So a huge part of the work of a scientist is not just at a bench conducting experiments. But even if you’re conducting experiments, you’re using your literacy processes to think about what you’re seeing in your experiment. So that’s a one-way direction. And I do think literacy has an influence on science. But since science goes the other way, it influences literacy. As you learn more and you understand more about the world, your background knowledge grows, your vocabulary grows, you become more literate in those different areas. And how you think. So if I’m learning about life science; I’m learning how the world works in a more, biologic physical world. And that knowledge helps me think about when I’m reading a novel, and there’s an appeal to some science knowledge or a concept that gets played with, you know, perhaps time-space continuums … well, if I don’t have the science knowledge of how I think the world works, it’s hard for me to understand what this author is doing. So it does go both ways. They feed each other. And the more literate we become, the more complex science information we can understand. ‘Cause our background knowledge and our vocabulary influence how much we understand about what we read. And as we access more complex science information, it starts to change the way we think about other things in our world.

Eric Cross (07:23):

There was a couple of things that you said in that, but one of the first things that kind of perked my ears is when you said grant proposals. Because I have friends that are scientists — and this is one of the things that when I was in school, they don’t talk about — but how much of their research is reliant upon getting funding —

Douglas Fisher (07:37):

Mm-hmm. <affirmative>,

Eric Cross (07:38):

— which you don’t think about if you’re becoming a chemist or a physicist or a biologist or working in the field, is that that funding, coming from the NSF or anywhere else. And sometimes students ask in class like, “Why am I writing so much? Like, I want to go into science!” Or “I wanna do this!” And this is a real-life example of how the writing could actually apply, in addition to all of the things of collecting data and conclusions and results. But that grant proposal thing just really perked my ears, yeah.

Douglas Fisher (08:01):

And if you can’t write a grant proposal, your ideas and experiments are not gonna get funded. And if you can’t write a strong proposal, that compellingly convinces your readers to fund you, you’re not gonna get funded. But then once you get the grant, you have to write publications. You have to share your work with other people. Make PowerPoint presentations and write journal articles or books or whatever. So it’s a cycle that literacy influences the things we do, including the things we do in science.

Eric Cross (08:31):

Now to get in maybe some data, if you were trying to convince someone that like this happy marriage can exist, what would be like your number one piece of evidence to support this, this back and forth of supporting each other?

Douglas Fisher (08:44):

Awesome. So the quote I’ll often say — and this is from studies from more than two decades ago now — but in general, in high school science, students are introduced to 3000 unfamiliar words, 3000. Each year! Because there are words that are used in a scientific way that are used commonly in other places. And there are discipline-specific words. So 3000 words a year in high school science. The Spanish 1 textbook only has 1500 words in it. So science teachers have double the academic-language vocabulary demand that a typical introductory world-language class has. So just the vocabulary alone should say to us, literacy is gonna be important if you’re gonna learn science. And if you don’t understand these technical words, and you don’t understand the way science uses this particular word in this particular way… . When you say the word “process,” it means something very specific In science. “Division” — cellular division is not the way we think about it in mathematics; there’s a similar concept, but cellular division is different than dividing numbers. And those are words that get used in multiple areas. Then you have all these technical terms that you have to be able to use, to understand the concepts. To share the concepts. To talk to other people. Whether you’re in, you know, fifth grade and talking science, or you’re a university professor, there’s a shared language, appropriate for our grade level, that we have shared meanings of.

Eric Cross (10:22):

And we’re essentially … what I’m hearing you say is … most of the people that are listening to this are science teachers. We’re we’re also language teachers. In a sense.

Douglas Fisher (10:29):

So my frustration is when people say, “Every teacher’s a teacher of reading.” And I don’t like that. I’ve written against that phrase. I don’t think all teachers are teachers of reading, any more than all teachers are teachers of chemistry. Or all teachers are teachers of algebra. But what I will say is the human brain learns through language. And all of us — every teacher that I’ve ever met understands that language is important in my class. If my students don’t have strong listening skills and speaking skills; reading, writing, and viewing skills; I’m gonna have a hard time getting them to learn things. If I can help them grow their speaking, listening, reading, writing, and viewing in my content area, I’m gonna do a service for my learning of my subject and also their more broad literacy development.

Eric Cross (11:16):

  1. So, at a high level, what does it look like to integrate science and literacy? We’ve done education for the last, what, hundred years?

Douglas Fisher (11:24):

Mm-hmm. <affirmative>

Eric Cross (11:25):

—kind of pretty similarly, right? Kind of siloed way. What does this look like at the 30,000-foot level? You’re a professor, department chair. Run schools. Speak everywhere. Like, when you think about this from that high level, what does it look like?

Douglas Fisher (11:39):

A high level? Every time I meet with students in a science class, you know, biology or fifth grade or whatever? They should be reading, they should be writing, they should be speaking and listening. Every class. So what print do you want them to access? And it can be a primary source document, it can be an article, it can be from a textbook. Are they reading something? Are they writing to you? Because writing is thinking. If they are writing, they are thinking. As soon as their brain goes somewhere else, they stop writing. The pen won’t move or the fingers don’t type. And then speaking and listening, of course, is the dynamic of our classes. So every day we should see some amount of reading, writing, speaking, and listening, viewing in our classes. That’s at a high level. There are some generic things that seem to work across the literacy. So, learning how to take notes. Focusing on vocabulary. Using graphic organizers. These are generic things that as educators we can use in our classes. Then there’s more specialized things. So, scientists and science teachers think differently than historians and literary critics and art critics. So scientists, if you look at the disciplinary literacy work, there’s a whole body of research where they interview and study high-end experts in their field: chemistry, physics, biology, et cetera. And there are some characteristics that were more disciplined, specific. Scientists like cause and effect relationships. They look for them when they’re reading. They like sourcing information. “Where this come from?” “What’s the history of this idea?” Scientists have a long view in terms of time. Historians have a shorter view of time. English teachers have even shorter view of time. Scientists tend to think in long periods of time. And so all of that influences how a scientist reads and how we should apprentice young people after they get past the generic “I know how to take notes. I know how to study my vocabulary. I know how to do summary writing for my teacher in my notebooks and things,” there’s some generic tools. Once we get past those, we need to be looking at specifically how do people in science use literacy.

Eric Cross (13:52):

I’ve never had my thought process of reading deconstructed just now, but we just described how scientists read. I was like, “Yeah, that’s pretty much how I read, right there.” I also like how you said how we should apprentice young people. And I feel like you as the literacy guy, you chose that word very specifically, as far as apprenticing young people. That is a view, I think, that’s really important to hold. ‘Cause that’s what we’re doing essentially … is, if we’re doing what we should be doing, we are apprenticing these young people.

Douglas Fisher (14:18):

Yes.

Eric Cross (14:18):

And helping them develop. Now, let’s imagine there’s a listener out there and they’re interested in getting better at integrating science and literacy instruction. They want to start somewhere. Before we dive in, do you have any initial words of encouragement for the person who’s like, “Everything is like a priority right now,” in their classroom or in their world?

Douglas Fisher (14:37):

Yeah. So I’ll talk about elementary for just a moment. When we’re reading informational texts in our literacy block, we should be reading information that is aligned to what kids need to learn in science and history in, in that grade level. Why are we reading things that are gonna be in conflict with what they’re gonna learn in science later that day in fourth grade, for example? So when we look at our standards, our expectations, what is it that third graders need to know in history, science, mathematics, language arts? And when we’re reading text and we’re learning to apply our reading strategies during our literacy block, why aren’t we reading topics that build our background knowledge for our science time? So we’re seeing some synergy there. We should be looking at life cycles in grades that are appropriate for life cycles and knowing there’s more to life cycles than the frog and the plant or the seed. There are all kinds of life cycles. And we call ’em life cycles for a reason. That’s a general concept. Now in science, we’re looking at this particular lifecycle right now. And so that’s a high level. If we could get more connection to the content standards during our literacy blocks, it would be very good. When we talk about the time at which we call “science” in the day, in more of the K–8 continuum, the science needs to include some primary source documents. Some real things that students are reading. Read about a scientist; read about a scientist’s discovery; read about what they discovered. So that we’re building our background knowledge. So when we go to do things, activities, labs, simulations, we have background knowledge and we understand what we’re experiencing. It can’t be like—I watched this awesome lesson on lenses and the teacher had all these different lenses in the room and the students came in and they were brand new. They don’t know anything. They were picking ’em up. They’re exploring them. They’re trying to figure out, and they’re trying to come up with theories about what this is and how it works. And then the teacher gave them a reading, a short reading, on refraction of light. And they read this thing. And the clarity that they had about what these lenses must do, well! All of a sudden they’re putting them up to the lights! They’re asking if they can go get the lights out of the storage unit! ‘Cause there’s — and they’re shining different lights through the lenses to see what happens to the light. Because that little bit of reading turned some focus on for the students. And it allowed them to take what I’m thinking about, what I’m trying to figure out, how this thing works in another direction. That’s the power of using literacy in our classes.

Eric Cross (17:20):

And what I’m hearing essentially is transfer across disciplines, across content areas, ultimately. And in an elementary school classroom, would it be fair to say, probably the teacher has more autonomy to be able to do that, since they’re teaching all the subjects? But secondary, logistically, planning and those types of things … from what you’ve seen, is it fair to say this kind of needs to be like a top-down, full vertical alignment, to teach like this?

Douglas Fisher (17:45):

I think that would be awesome to do that. But if I’m a sixth grade English Language Arts teacher and I’m working with my sixth grade science teacher, the conversation should be, “What units are you teaching?” Because I’m choosing informational text. My job is to teach them how to find central ideas. My job is to teach them how to find the details in the text. My job is to have them make a claim and support that claim with evidence. The stuff I use is generic. Yes, we do read some literature and some narratives, but we also read about 50% of the text in English around informational text. So if I can help you and accomplish my standards as well, fantastic. So let’s have this conversation and say, “Oh, this is what you’re teaching in science in the next three weeks? I’m gonna choose some texts and we’re gonna analyze ’em for central idea. We’re gonna analyze ’em for details. We’re gonna, for mood or tone or whatever that we’re teaching. And by the way, I’m building background knowledge. So when they come to you, they know some stuff about what you’re going to be teaching next.” So I don’t think it’s impossible to say teams of teachers could come together and say, “What do we believe that our students need to know and learn and be able to do? And then how do we choose things that are gonna help them accomplish exactly that?”

Eric Cross (19:01):

And that’s empowering. Because that’s one thing that we can control maybe is this East-West, peer-to-peer, different content areas. A system may not be able to change as quickly, but I can definitely go talk to my English team or math team and check in and kind of see, “Hey, where do we have overlap in that?” And I know the times that I’ve accidentally had overlap with the teams, it’s super-exciting. And the students have been more bought in! Because it’s like, we’ve done something on the human microbiome and we’ve talked about genetics and all these different things, and then when they read The Giver, or they read some book about genetics, they have all this knowledge. And they’re excited. And they talk about colorblindness or they come to my class and they’re like, “Hey, we read about this!” It’s almost like they saw a magic trick, the fact that these things linked up. And the engagement has been so much higher when it’s the same content in different classes, but through different lenses. At least, that’s what I’ve seen in my years of teaching.

Douglas Fisher (19:54):

I saw a lesson on space junk that was so cool. Middle-school students learning space junk. And the history teacher had a part of it, science teacher had a part of it, English Language Arts teacher had a part of it. And these students, I mean, you watch them look up all the time, ’cause there’s space junk up there. Where’d it come from? Why is it there? What are the politics of this? How do we clean it up? I mean, it was just so interesting to watch them when the teachers came together. And the teachers met their standards in this couple-week-long space-junk exploration. Investigation was met. Politics was met. All these different things. Economy. You know, how much does it cost to clean up this problem? So there’s really cool opportunities when teachers come together and realize we can work together and improve the literacy and learning of our students.

Eric Cross (20:50):

Absolutely. So before this recording, we picked your brain a bit. And I know that there were three specific strategy areas that you wanted to touch on. And one of those — which is kind of coming back to the 3000-words language teachers — was vocabulary. So what are the opportunities that you see, as far as the way of educators to approach vocabulary? Because, you know, there’s a lot. We got a lot of it. The 3000 words.

Douglas Fisher (21:14):

Yeah. There’s a lot of it. So the worry is, we make a vocabulary list and have students look up the words in definitional kinds of things. That’s not really gonna help. Students need to be using the words. They need to be using the words in their conversations, in their writing, in how they think about your content in science. So vocabulary is a huge predictor of whether or not you understand things. Vocabulary is also a pretty good predictor if you can read on grade level. So when we think about vocabulary, there’s something called word solving. You show students a piece of text and you’re reading it, you’re sharing your thinking, and you say, “Oh, here’s a context clue!” Or “I know this prefix or suffix or root!” And in science, a lot of the words are prefixed, suffixed, or root words. We tend to add things together with a lot of prefixes and suffixes and have roots and bases in science. So we can help students think about, “Oh, what does geo- mean? We already know what geo- means here. It means the same thing in this word. Let’s apply that knowledge.” So word solving is part of it, showing students how we think about words that we might not know. The second is more direct instruction of vocabulary. As students encounter the words, we work on what it means, how we say it. We practice it a few times. The process is called orthographic mapping. It’s kind of a scientific idea here. But you have the sound and the recognition of by-the-word, by sight, and what it means. And your brain starts to automatically recognize that word in the future. So I don’t have to slow down, disrupt my fluency, and try to figure out what the word is saying. ‘Cause I’ve seen it enough. I’ve heard it pronounced enough, I’ve pronounced it enough, and I know what it means. So teachers should be saying, “What words in sixth grade science, what words in third grade science, do my students really need to know?” And I’m gonna have them encounter those words over and over. I’m gonna have them use the words. I’m gonna have them see the words. I’m gonna have them say the words. I’m gonna say the word and we’re gonna be over and over with these terms, so that students incorporate them into their normal view of, “These are the things I know about the world.” By the way, when they go to read that next thing, and they understand “geology,” you know, for sixth graders, for example, they know how to say it. They don’t stumble on it. And it activates a whole bunch of memories in their brains. “This is what geology is.” There are branches of geology, there’s physical geology, there’s all this thinking that activates as they read.

Eric Cross (23:35):

There was a practice that I participated in and am trying to incorporate — I don’t know what the name of it is. But essentially what happened was we were dissecting a flower. And the instructor had us name parts of the flower. But we got to come up with our own names for it.

Douglas Fisher (23:49):

Ah.

Eric Cross (23:50):

So, for instance, the stamen we call “the fuzzy Cheeto.” And we all used our own words and then everything was legitimized. And so we went through and learned the whole activity using our own vocab words. But then, in the end, after we presented and talked about it, then the words, the actual academic language was attached to our word. And we were able to say, “OK, the fuzzy Cheeto is the stamen,” and this, this, this, and this. But it was such an interesting practice, because it kind of legitimized all of our definitions. But we weren’t stumbling on these long Latin terms and things like that. Is there a name for that? Or. … ?

Douglas Fisher (24:29):

Yes. I don’t know the name for that. I think it’s really smart. So here’s what I would say about that, is: we don’t learn words, we learn concepts. Words are labels for our concepts. So what that teacher did for you was allow you to develop concept, a concept knowledge. “There’s a part of this plant, it goes like this, we’re gonna call it fuzzy Cheeto. Now I have this concept. And look, it occurred in all these plants. And those people called it that and that other group called it that. We called it a fuzzy Cheeto. Here’s the part of it.” And then the concept is in your brains. And the teacher said, “It’s really called stamen.” And it’s an instant transfer, because you already had the concept. What we often see is students are trying to learn a really hard academic word and the concept for the word at the same time. And so it slows down the whole process. And there’s higher levels of forgetting. Because human beings, we don’t learn words; we learn concepts. If you don’t have the concept, if I gave you a word out of the blue that you’ve never seen, never heard, and a week from now I asked you to remember it, you probably would not, because it didn’t register. It wasn’t part of your schema. You didn’t have a way to organize the information. You don’t have a concept. So that teacher? It’s a great idea. Got you to develop concept knowledge. And then said, “Here’s a real label for it: What some other people called it when they had the chance to come up with their own names.”

Eric Cross (25:50):

Shout out to my teacher, who was—

Douglas Fisher (25:51):

Right.

Eric Cross (25:52):

It was learned then. It was a great practice. And the fact that you’re right, like, I just mean from my own personal experience, I agree that learning concepts versus complicated words. And it’s interesting that you said higher levels of forgetfulness, you know. And you often hear that complaint about it: “Students forget! Students forget!” But this complex topic and this complex word that’s new to me, and I have to remember both of those things.

Douglas Fisher (26:12):

That’s right.

Eric Cross (26:13):

And the other neat thing that it did, is it actually honored the background and like the founts of knowledge of all the different groups in the classroom. You just said something about “this group called it this and this group called it this,” and so by letting different groups share all of those names, now we’re starting to build these kind of interesting connections. That’s at least what I remember experiencing. And so this, even this practice of this approach is very layered, beyond just kind of generating new knowledge of things. So I appreciate that aspect of it. Now another area that you mentioned was complex text.

Douglas Fisher (26:41):

Yeah.

Eric Cross (26:42):

And how we can get students into complex text. So what can we do there?

Douglas Fisher (26:46):

I think science is an ideal place to get students reading things that are hard for them. And I do believe that some parts of school should be a struggle. Not all day, every day. But there should be doses of struggle, which are good for our brains. And these complex pieces of texts that don’t give up their meanings easily allow students to go back and reread the text and maybe mark the text and talk to peers about the text and answer questions with their groups. And the whole point of complex text is to say, “We persevere through it. We may not understand it fully on our first read. But we go back and we might underline, we might highlight. We might write some margin notes. Our teacher might say, ‘What did this author mean here?’ And we go back and look at that part and we take it apart. What do we think about that? And we talk to each other. It’s showing that when we read things, we work to understand. We work through our thinking, often in the presence of other people. And our understanding grows as we go into the text over and over and over again.” So I said geology earlier. There’s about a two-page article on “what is geology” that sixth graders often read. And some kids find it super boring. It’s a once-read, “OK, geology, I don’t really understand it. There’s a bunch of words in here that I don’t understand.” But if you go back to it a few times and you start taking apart, “What are the branches of geology? Oh, I’m gonna go reread that.” How are these two branches related to each other?” “What are the subtypes of each branch of geology?” “How do geologists do their work?” You start asking questions where students are going back into the text. You spend a little bit of time. Now, the introduction to geology, the students know so much more. So whatever you do next— video experiments, whatever—they have a frame of reference, because of that deep, complex read. It’s probably better than simply telling them, “Here’s the information.”

Eric Cross (28:45):

Right. And I even feel like as an educator, when I reflect on my own learning in the classroom, and then looking at it through the perspective of an educator <laugh>, you find this difference between how you were taught and then what the data says good teaching is.

Douglas Fisher (28:59):

Mm-hmm. <affirmative> mm-hmm. <affirmative>.

Eric Cross (29:00):

It’s so easy to slide back into how you were taught!

Douglas Fisher (29:02):

Yeah.

Eric Cross (29:02):

Even though, you know, you mentally assent to, “This is the best way. This is the data shows.” And you find yourself kind of sliding back at times.

Douglas Fisher (29:10):

Yep. And there’s good evidence to support what you just said, that most people teach the way they experienced school. And it is very hard to change that. And people have studied this. And it’s very hard to change that. Because it worked for us. And we have an n of 1, and it worked for us. Now, remember, there were a whole bunch of other kids in the class that it may not have worked for. And we chose to be in school the rest of our lives, and some of your peers did not choose to be in school the rest of their lives. In fact, some of them hated school and found no redeeming qualities of their experience. So just because it worked for us in a case of one, n of 1, doesn’t mean it worked for all of the kids, or even the majority of them.

Eric Cross (29:57):

Very well said. It’s that, what is that, the survivor bias? Survivorship bias? Where you were the one that made it. But you don’t think about all the other folks. ‘Cause we’re thinking about ourselves.

Douglas Fisher (30:05):

That’s right.

Eric Cross (30:06):

Great case for empathy too, is thinking about the people left and right. Because my friends are like, “I hated science.” And I say, “Who hurt you? Like, what did they do? It’s so amazing, so much fun!”

Douglas Fisher (30:16):

“What happened to you? Science is the coolest. Right? It’s so amazing!”

Eric Cross (30:21):

But I also had a unique experience in seventh grade with my teacher who did some of these things, and made it accessible for so many of us, in opening opportunities that I wouldn’t have had otherwise. But you’re absolutely right. That was my story. That wasn’t the story of everybody that was around me. And I think that’s really important. Now, I know this is also a big one for you, but I wanna talk about writing. What are the opportunities that you see in terms of writing specifically?

Douglas Fisher (30:51):

So would love it if science teachers had short and longer writing tasks in the science time. Of course, you can integrate some of the science writing, the longer ones, in the English language arts time, especially if you’re the elementary teacher and you can have control of the whole day. But I said this earlier; I’ll say it again. Writing is thinking. While you are writing, there’s nothing else you can do but think about what you are writing. Your brain cannot do something else. So if a science teacher wants to know, do their students really understand the concepts? Have them write. Now some of the shorter ones, I like something called “given word” or “generative sentences”: “I’m gonna give you a word: CELL. C-e-l-l. We’re in science. I want you to write the word ‘cell,’ c-e-l-l, in the third position of a sentence. So it’s gonna go word, word, cell, and then more words.” You could also say, “I want the sentence longer than seven words,” or whatever. But the key is, I’m telling you where I want the word. You will know instantly if your students have a sense of what the word “cell” means in the context of science. If they write “my cell phone,” they don’t get it. If they write about spreadsheet cells or jail cells or whatever, they didn’t get it. But if they talk to you about plant cells and animal cells and the components of those cells, and then once they have that sentence down, you can say to them, “Now write three or four more sentences that connect to that sentence.” It’s super simple. So whatever concepts you’re teaching, put ’em in a specific position. Now you don’t have to only put it in the third position. You can say the first position, the fifth position, the fourth position. But it forces them to think about what they know about the word and then how to construct a sentence for you. That’s a very simple way to get some writing from your students that helps you think about what they understand. Other kinds of writing, you can have quick writes, you can have exit-slip writes. There’s something in the research space called the muddiest part, where halfway through the lesson you have them write so far what has been the least understood or the most confusing part of this lesson. And they do a quick write, right there, at the muddiest part. And as a teacher, you flip through these and you start to say, “Oh, these are the points that are confusing to my students.” So if 80% of them all have the same thing, I gotta reteach that. If these five got, “This is the muddiest part,” If these five thought, “This is the muddiest part,” these seven, “I thought this was the muddiest part,” what do I need to do? Because it’s gonna be hard to move forward if this is their area of confusion. There are also all kinds of writing prompts that have a little bit longer. My favorite one is RAFT. What’s your Role? Who’s your Audience? What’s the Format? And what’s the Topic we’re writing about? Super flexible writing prompt. When you teach something, we don’t want students to only think they write to their teacher. So your role is an atom. You are writing to the other atoms. What do you wanna write about? What’s the topic? What’s the format of it? Is it a love letter? Is it a text message? Is it … so we, we mix it up with students in saying, how do they show some knowledge through a prompt that we give them? And then of course, longer pieces as they get older. More opinion pieces through fifth grade. More claims and arguments starting in sixth grade. So that they’re starting to see, “I have to use the evidence from things I’ve learned, read, listened to, watched, and construct something: an opinion, an argument where I back it up with reasons or evidence.” And those longer pieces, you know, less frequently. The shorter pieces, pretty regularly. So the teacher sees the thinking of the students.

Eric Cross (34:29):

When you were speaking about these really creative writing prompts, there were specific students coming into mind, that were coming into mind … they’re, they’re great science students, but they also have this really strong artsy side drawing, creative writing, and things like that. And when you said something about atoms talking to each other, it elicited, in my brain, certain students that would really love this aspect of creativity in the sciences. And it’s not how we’re typically trained as science teachers, to kind of incorporate this, like you said. A book of props. But I’m imagining, like, as a science teacher, if I took this, this would be a great way to reach more students to be able to show what they know, in a way that might resonate with their own intrinsic “Oh, I get to write creatively!” So I was kind of writing furiously as you were sharing all that information there.

Douglas Fisher (35:12):

So here, I’ll give you another example for elementary people. Again, with RAFT. There’s a book called Water Dance. It’s a pretty popular book for elementary teachers. It’s really about the life cycle of water. For example, you are a single drop of water. You are writing to the land. The format is a letter. And you’re explaining your journey. Now, if they can do this, they’re essentially explaining to you the cycle of water. But you got it in a way that people are now, “Oh, I’m a drop of water. So it’s me. My perspective. Where do I go from? Where do I start?” Because you can start anywhere in the cycle, right? My drop could have started in the clouds. My drop could have started in the ground. My drop could have started in the lake. But it has to show you the journey. So there are many ways of showing you the right answers.

Eric Cross (36:02):

And that’s using the RAFT protocol.

Douglas Fisher (36:04):

That’s RAFT: Role, Audience, Format, Topic. It’s been around 20 or 30 years.

Eric Cross (36:09):

You just gave the name to something a teacher shared in our podcast community, Science Connections: The Community, on Facebook. Teacher shared a Google slide deck and on it were just three slides. And the role that the student had to have is they had to show, then tell, the story of a journey of a piece of salmon being eaten, a piece of starch from pasta being eaten, and then an air molecule in a child’s bedroom. And they had to give the path of travel and the experience from the mouth and then breaking down into protein and all those kinds of things. And this teacher shared it and I wish I knew the teacher’s name because I wanna give ’em credit, but they shared it. And so I used it with my students and then had ’em read aloud their stories and dramatize it. And they were so into it!

Douglas Fisher (36:49):

So cool.

Eric Cross (36:50):

But through it, I was able to see that they understood different parts of the body. They understood cell respiration. The whole thing. And it was fun! To watch them get so into this creative writing. And now I know the name of it. That’s been 30 years they were using RAFT. So you just talked a bit about complex texts and writing. And before we go, I wanted to circle back to something that you said, because I think it’s important, and if you could elaborate on it a little bit, about the value of struggle. Can you talk more about that?

Douglas Fisher (37:21):

Sure. I do believe in a lot of the U.S. we’re in an anti-struggle era of education. And it predates Covid. I think it made it worse during Covid. We front load too much. We pre-teach too much. We reduce struggle. We quote, “over-differentiate” for students. And there’s value in struggle. The phrase, “productive struggle” — if you haven’t heard it, Google productive struggle — it’s an interesting concept, that we actually learn more when we engage in this productive struggle. Now, productive struggle originally came from the math world, and it was this idea that it’s worth struggling through things to learn from it, that you’re likely to get it wrong, and then there was productive success. And there are times when we want students to experience success and we make sure we put things in place for productive success. But there are times where we want them to struggle through a concept. ‘Cause it feels pretty amazing when you get on the other side, when you know you struggled and you get to the other side. If you think about the things, listeners, think about the things in your life where you struggled through it and you are most proud of what you accomplished. I want students to have that. I don’t wanna eliminate scaffolding, eliminate differentiation. But I do want some regular doses of struggle. So if you look at the scaffolding, we have a couple choices. We have front-end scaffolds, distributed scaffolds, and back-end scaffolds. Right now we mostly use front-end scaffolds: We pre-teach, we tell students words in advance, that kind of stuff. But what if we refrained from only using front-end scaffolds, and we use more distributed scaffolds, when they encounter. So there’s a difference between “just in case” and “just in time” support for students. So we tend to plan on the “in advance, here are all the things we’re gonna do to remove the struggle before students encounter the struggle.” What if instead we said, “Let them encounter some struggle. Here’s the supports we’re gonna provide. We’re gonna watch; we’re gonna remove those scaffolds, and allow them to have an experience of success, where they realize, ‘I did it. I got it.’” Every science teacher I’ve ever worked with, when they do an experiment or a lab or simulation, they are looking for productive struggle. They don’t tell the answers in advance. They don’t tell if the answers are right. That’s your data. What does your data tell you? I mean, this is what you do. But then the other part of your day when you move into, like, reading, you don’t do that. You fall into the trap of removing struggle. And so allow them to grapple with ideas. Allow them to wonder what words mean. Allow them to say, “I’m not getting this, teacher! It’s really frustrating!” And you say, “Yeah, this is really hard. This is why we’re doing it at school. ‘Cause it’s really hard. If it was easy, I’d have you do it at home. But we’re doing it here, ’cause it’s really hard and it’s OK not to get it at first.” And create a place where errors are seen as opportunities to learn, and struggling through ideas and clarifying your own thinking and arguing with other people to reach an agreement or reach a place where we agree to disagree is part of the power of learning.

Eric Cross (40:38):

There’s a teacher, who I took this from. My master teacher when I was student teaching. And she said that there’s no such thing as failure in science, just data. And I took that same mantra. And I resonate with what you said about how science teachers, all of us, hold onto that productive struggle, because it’s part of being a scientist. It’s part of the experiments. That genuine “aha” moment. Or it didn’t work out? That’s great! That’s totally fine! Let’s write about it and let’s take photos and let’s publish it and let’s be scientists. That’s totally true. As we wrap up, Dr. Fisher, is there any final message that you have to listeners about bringing science and literacy together? I know you speak everywhere, but for everyone that’s listening, if you can put out your encouragement or message or suggestion … you’ve given so many great tips and practical applications. But, any final thoughts on the subject?

Douglas Fisher (41:32):

I think many science teachers are intimidated because they think they have to be reading teachers. And there’s a knowledge base to reading. And some teachers are reading teachers and science teachers, and I don’t wanna dismiss that. But it’s not that you have to become a reading specialist to integrate literacy into science. It’s how our brains work. And so as you think about the way in which you are learning and the ways in which you want your students to learn, what role does language play? What role does speaking, listening, reading, writing, viewing, play in your class? And then provide opportunities for students to do those five things each time you meet with them.

Eric Cross (42:12):

Dr. Fisher, thank you so much for being here and for your encouragement, and sharing your wisdom and experience. And then personally serving my city, here in San Diego, and my students, when they make it to your high school and ultimately the alma mater of San Diego State University.

Douglas Fisher (42:30):

That’s right.

Eric Cross (42:31):

Yeah. We really, really appreciate you in serving all kids and lifting the bar and making things more equitable for all students. And encouraging teachers. So thank you.

Douglas Fisher (42:39):

Thank you very much.

Eric Cross (42:42):

Thanks so much for listening to my conversation with Dr. Douglas Fisher, Professor and Chair of Educational Leadership at San Diego State University. Check out the show notes for links to some of Doug’s work, including the book he co-authored titled Reading and Writing in Science: Tools to Develop Disciplinary Literacy. Please remember to subscribe to Science Connections so that you can catch every episode in this exciting third season. And while you’re there, we’d really appreciate it if you can leave us a review. It’ll help more listeners to find the show. Also, if you haven’t already, please be sure to join our Facebook group, Science Connections: The Community. Next time on the show, we’re going to continue exploring the happy marriage between science and literacy instruction.

Speaker  (43:26):

I had this moment of realization I felt a few months ago: I’m like, if I don’t teach them how to use the AI as a tool, as a collaborator, then they’re gonna graduate into a world where they lose out to people who do know how to do that.

Eric Cross (43:39):

That’s next time on Science Connections. Thanks so much for listening.

Stay connected!

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We’ll also share new and exciting free resources for your classroom every month!

What Dr. Douglas Fisher says about science

“There are really cool opportunities when teachers come together and realize we can work together to improve the literacy and learning of all our students.”

– Dr. Doug Fisher

Professor and Chair of Educational Leadership, San Diego State University

Meet the guest

Douglas Fisher, Ph.D., is professor and chair of Educational Leadership at San Diego State University and a leader at Health Sciences High & Middle College having been an early intervention teacher and elementary school educator. He is the recipient of an International Reading Association William S. Grey citation of merit, an Exemplary Leader award from the Conference on English Leadership of NCTE, as well as a Christa McAuliffe award for excellence in teacher education. He has published numerous articles on reading and literacy, differentiated instruction, and curriculum design as well as books, such as The Restorative Practices PlaybookPLC+: Better Decisions and Greater Impact by DesignBuilding Equity, and Better Learning Through Structured Teaching.

A middle-aged man with short light brown hair and glasses, wearing a white shirt and dark blazer, in a circular frame with a green accent and simple graphic elements.
A laptop screen displays the “Science Connections: The Community” private group page, with science-themed icons decorating the background and edges.

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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A closer look at grades 6–8

Amplify Science California is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

In the 6–8 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.

Is your school implementing the domain model? Click here.

Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
A four-step process diagram with icons: spark a real-world problem, explore sources, explain and elaborate, and evaluate claims, all linking to engage with 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, 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 California to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the California NGSS in fewer lessons than other programs.

Scope and sequence

Every year our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45-minutes, though teachers can expand or contract the timing to meet their needs.

Chart displaying educational science topics for grades 6 to 8, categorized by grade level, duration in days, and number of classes. Includes subjects like microbiome, geology, and natural selection.

Unit types

Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

In grades 6–8, there are three types of units:

  • One unit is a launch unit.
  • Three units are core units.
  • Two units are engineering internships.
Launch units

Launch units are the first units taught in each year of Amplify Science California. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

Core units

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

Engineering Internship units

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Units at a glance

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.
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.
Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

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

Download unit guide

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

Download unit guide

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

Download unit guide

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.
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
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.  

Download unit guide

An illustration from the Earth's Changing Climate unit
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.  

Download unit guide

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

Download unit guide

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

Download unit guide

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.
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

Download unit guide

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

An illustration from the Chemical Reactions unit
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.  

Download unit guide

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

Download unit guide

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

Download unit guide

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

Download unit guide

Green geometric graphic featuring icons: a baby, thermometer, layers, medical alert, and a flame.
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 roller coaster filled with people, hands raised, going down a steep track against a bright blue sky with clouds.
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
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.

Download unit guide

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

Download unit guide

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.
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.  

Download unit guide

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

Download unit guide

Resources

Two middle school girls use a Student Investigation Notebook to take on the role of scientists and engineers

Pilot support brochure for 6–8 (Integrated)

See how we customized our instructional sequence to fully support the Utah SEEd…

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

Unit phenomena for 6–8

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

A laptop screen displays a simulation about Earth's energy system, with surrounding images showing diagrams and energy flow models.

Classroom Slides for 6–8

Your new hands-free TG is coming soon! These PowerPoints for every lesson make t…

A child wearing safety goggles closely examines an object through a magnifying glass in a classroom setting.

What’s so phenomenal about phenomena?

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

A student reviews a science textbook and looks at a laptop in a classroom, while other students work together on their science projects in the background.

Active reading in 6–8

Learn how we support students in learning how to interact with scientific texts….

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.

Investigations for 6–8

Explore the types of investigations that take place in middle school classrooms….

A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

Sims for 4–8

Two students sit at desks writing in notebooks and using laptops in a classroom setting.

Approaches to assessment in 6–8

Learn about our middle school embedded assessments.

A science education kit includes goggles, measuring cups, books on ecosystems and fuel burning, seeds, a jar, game pieces, and soil. Authored by The Lawrence Hall of Science.

Program component list for 6–8 (Integrated)

Explore the components that come with each unit.

A closer look at grades 6–8 (domain)

Amplify Science California is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

In the 6–8 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.

Is your school implementing the integrated model? Click here.

Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
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, 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 California to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the California NGSS in fewer lessons than other programs.

Scope and sequence

Every year of our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45 minutes, though teachers can expand or contract the timing to meet their needs.

A grid of educational icons, each representing a different science topic, such as earth and space science, life science, and physical science, with titles and lesson counts.

Unit types

Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

In grades 6–8, there are three types of units:

  • One unit is a launch unit.
  • Three units are core units.
  • Two units are engineering internships.
Launch units

Launch units are the first units taught in each year of Amplify Science California. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to actively read in all subsequent units.

Core units

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

Engineering Internship units

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Units at a glance

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

Download unit guide

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

Domain: Earth and Space Science

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.
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.    

Download unit guide

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

Domain: Earth and Space Science

Unit type: Core

Student role: Astronomers

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

Download unit guide

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.
Ocean, Atmosphere, and Climate

Domain: Earth and Space Science

Unit type: Core

Student role: Climatologists

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

Ilustración de un pueblo con casas, campos y montañas bajo un cielo nublado con olas de viento o lluvia.
Weather Patterns

Domain: Earth and Space Science

Unit type: Core

Student role: Forensic meteorologists

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

Download unit guide

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.
Earth’s Changing Climate

Domain: Earth and Space Science

Unit type: Core

Student role: Climatologists

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

Download unit guide

Abstract geometric design in shades of blue and purple featuring a hexagon with icons of a building, wrench, molecules, sun, paint can, and screwdriver.
Earth’s Changing Climate Engineering Internship

Domain: Earth and Space Science

Unit type: Engineering internship

Student role: Civil engineers

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

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.
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.
Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

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

Download unit guide

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

Domain: Life Science

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.
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.    

Download unit guide

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

Domain: Life Science

Unit type: Core

Student role: Biologists

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

Download unit guide

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

Domain: Life Science

Unit type: Core

Student role: Ecologists

Phenomenon: What caused the mysterious crash of a biodome ecosystem?    

Download unit guide

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.
Natural Selection

Domain: Life Science

Unit type: Core

Student role: Biologists

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

Download unit guide

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

Domain: 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.
Evolutionary History

Domain: Life Science

Unit type: Core

Student role: Paleontologists

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

Download unit guide

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

Domain: Physical Science

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.
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.    

Download unit guide

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

Domain: 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.
Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

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

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

Download unit guide

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.
Phase Change

Domain: Physical 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.    

Download unit guide

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

Domain: 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.    

Obra de arte digital abstracta que presenta numerosos círculos rojos y grises superpuestos sobre un fondo dividido de azul y violeta claro, creando una composición dinámica y enérgica.
Chemical Reactions

Domain: Physical Science

Unit type: Core

Student role: Forensic chemists

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

Download unit guide

An illustration from the Light Waves unit
Light Waves

Domain: Physical Science

Unit type: Core

Student role: Spectroscopists

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

Download unit guide

Resources

Pilot support brochure for 6–8 (Domain)

See how we customized our instructional sequence to fully support the Utah SEEd…

Unit phenomena for 6–8(Domain)

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

What’s so phenomenal about phenomena?

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

Un maestro se encuentra al frente de un salón de clases, explicando una lección que se muestra en una pantalla. Los estudiantes se sientan en sus escritorios y algunos levantan la mano.

Planning Guide for grades 6–8 (Domain)

Check out these tips for planning to teach.

Active reading in 6–8

Learn how we support students in learning how to interact with scientific texts….

Investigations for 6–8(Domain)

Explore the types of investigations that take place in middle school classrooms….

A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

Sims for 4–8

Take a closer look at the digital simulations included at each grade level.

Approaches to assessment in 6–8

Learn about our middle school embedded assessments.

Elementary literacy

Science of reading resources

What does the “science of reading” really mean? How can you apply it in the classroom? We’ve created resources to help you get started

A girl in an orange dress runs through a green meadow, flying a colorful kite streaming words like letters, words, and sounds against a cloudy sky.

What is science reading?

The “science of reading,” or “structured literacy,” refers to the wealth of research findings on how students learn to read. 

At its heart is what experts call the Simple View of Reading, which describes the two fundamental skills required for people to read with comprehension: 

  • Decoding—the ability to recognize written words
  • Language comprehension—understanding what words mean

Decoding x Language Comprehension = Reading Comprehension

Without both decoding and language comprehension, reading comprehension cannot occur.

A group of diverse children attentively looking upwards with expressions of curiosity and interest.
Logo with the text built on the science of reading, featuring an open book icon above phonetic symbols on a bubbly orange background.

Download the Science of Reading Toolkit

Find out why foundational skills must start with sounds and the crucial role of background knowledge.

Get the kit now!

Amplify literacy programs built on the science of reading

Amplify’s suite of instruction, assessment, and intervention is based on the science of reading. Developed with experts, our highly-regarded programs for elementary core curriculum (Amplify Core Knowledge Language Arts), assessment, (mCLASS ®) and intervention and differentiated instruction (Amplify Reading and mCLASS ® Intervention) are a comprehensively aligned system based on the latest research.

Teacher in an orange sweater gestures while speaking to attentive students seated at desks in a classroom with educational posters on the walls.

Core instruction

Rated “all green” by EdReports.org, Amplify Core Knowledge Language Arts (CKLA) is an English language arts program for preK–5 offering explicit, systematic foundational skills and deep knowledge-building in real-world, relevant topics that kids love to learn about.

Learn more here >>

high quality informational materials five fundamentals
A teacher interacts with three young students in a classroom, showing them something on a smartphone.

Universal and dyslexia screening

Valid, reliable data is at the center of a science of reading-based literacy system. Built from the ground up on the science of reading, mCLASS, Amplify’s literacy assessment for K–6, identifies risk of reading difficulties, including dyslexia, at the earliest levels.

As the only licensed digital provider of DIBELS® 8th Edition, mCLASS’s predictive, teacher-administered, one-minute measures generate actionable data on skills, risk levels, and level of support needed. Teachers receive targeted instruction for small groups and individual students.

Learn more here >

Remediation and enrichment

Amplify Reading, K–5 Edition, is an adaptive digital program that extends the learning from core instruction, giving students deep, differentiated practice in foundational skills, comprehension processes, and vocabulary—all while exploring narrative worlds designed to appeal to kids at each grade band. Part of Amplify’s integrated literacy suite, it syncs with mCLASS, using students’ assessment profiles to start them at the right place in the learning progression.

Learn more here >

A split image with a vibrant market scene on the left and a cozy bookstore scene on the right, featuring colorful characters and items.
high quality informational materials five fundamentals

Structured, staff-led intervention

For students below grade level, mCLASS Intervention for K–6 integrates with mCLASS screening and progress-monitoring to provide the analytical tools and resources educators need to make targeted, staff-led intervention a daily reality throughout the school year. Specifically, it groups students with similar needs and provides explicit, systematic foundational skills lessons for each group.

Learn more here >

Getting Started Resources

Cover image of the book Science of Reading: A Primer, Part One by Amplify, showing a person flying a kite with multicolored ribbons in a green landscape with trees and clouds.

Science of reading: Volume 2

Cover of Science of Reading: The Primer Part Two by Amplify, featuring an illustration of a person standing atop a large stair pyramid holding a staff with a glowing symbol, with trees and clouds in the background.

Science of reading: Volume 2

Illustration of a girl holding a kite with colorful tails labeled with reading skills. Text: Toolkit: Science of reading. Five insights you can start using today. Amplify logo in top left.

Science of reading Getting started..

A laptop screen displaying a webpage for Science of Reading: The Podcast, offering listening options and an illustration of a person running with colorful ribbons. Options include Apple Podcasts and Spotify.

Science of reading: The Podcast

Join us for an informative new episode featuring a new special guest every two w…

What would you like to do next?

Talk to product experts Stay up to date on new science of reading resources and podcasts

A closer look at grades 6–8

Amplify Science is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

In the 6–8 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.

Is your school implementing the domain model? Click here.

Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
A four-step process diagram: Spark intrigue, Explore evidence, Explain and elaborate, and Evaluate claims, connected by arrows, with an engagement statement below.

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 teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the NGSS in fewer lessons than other programs.

Scope and sequence

Every year our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45-minutes, though teachers can expand or contract the timing to meet their needs.

A grid of educational icons, each representing a different science topic, such as earth and space science, life science, and physical science, with titles and lesson counts.

Unit types

Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

In grades 6–8, there are three types of units:

  • One unit is a launch unit.
  • Three units are core units.
  • Two units are engineering internships.
Launch units

Launch units are the first units taught in each year of Amplify Science. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

Core units

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

Engineering Internship units

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Units at a glance

Abstract digital artwork featuring a yellow human figure, red shapes, and a blue-toned screen, with vibrant, multicolored patterns and textures in the background.
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.  

An abstract illustration of a person receiving an oral examination, with colorful geometric shapes and an eye chart in the background.
Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

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

Abstract orange background with geometric shapes, featuring icons of a vest, bar chart, leaf, beaker, fruit, medical stethoscope, and an envelope within a hexagonal frame.
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.  

Six spiders with varying body colors (brown, yellow, blue, and red) and patterns are arranged on a dark, textured background, seemingly in a diagram or chart formation.
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 with closed eyes in a red winter coat and hat, surrounded by falling snow and orange circles on a dark background.
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 illustration of a sun with blue and orange rays over a colorful landscape featuring green hills and a vibrant sky.
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.  

Illustration of clouds above a small town and farmland, with wind currents depicted swirling through the landscape under a blue sky.
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.  

A polar bear stands on a small floating ice sheet in the ocean, surrounded by melting ice, with a red sun in the sky.
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.  

A purple hexagonal graphic with icons including a building, wrench, screwdriver, sun, molecules, paint bucket, and tiles on a geometric patterned background.
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 robotic rover sits on a hill in a rocky, reddish landscape, with visible tracks in the dust leading to its current position under a hazy sky.
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 green prehistoric reptiles with long snouts are near the shore; one is on land while the other swims in blue water, with plants, rocks, and an island in the background.
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.  

A purple geometric background featuring a hexagonal badge with a telescope, mountain, audio wave, and star symbols inside.
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 showing an ocean, forest, and mountains with a smoking volcano, plus a cross-section of underground tectonic plates.
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.  

Four stages of an orange popsicle melting on a stick, from fully frozen on the left to completely melted on the right, against a plain background.
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 background with an outlined hexagon containing icons: a parachute, ruler, letter "A," bandage, stacked blocks, and a folded corner paper.
Force and Motion 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. Domains: Engineering Design, Physical Science

Abstract illustration showing red and blue circles on a split blue and light background, representing molecular movement across a membrane or barrier.
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 underwater scene with a large whale surrounded by turtles, jellyfish, and various fish swimming in different directions.
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 digital illustration of a fox hunting a rabbit in a forest with pine trees, mushrooms, mountains, and the sun in the background. Another rabbit sits near the trees.
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 climb over rocks filled with electronic devices; inset illustrations show a boot, a belt of batteries, and a radio.
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 spacecraft approaches and docks with a modular space station featuring large blue solar panels, set against a black space background.
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 graphic with hexagonal emblem showing an infant, a thermometer, layered materials, a medical symbol, and a flame icon.
Force and Motion Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Chemical 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 car with passengers raising their arms as they descend a steep track against a blue sky with clouds.
Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

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

Illustration of the Earth with arrows representing radiation or energy entering the atmosphere from space, focused on the Asia-Pacific region.
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 illuminated windows, a large full moon, stars in the sky, and a bridge visible on the left side.
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 polygonal dinosaurs walking in a row, three green and one yellow, each with a rock and purple spikes on their backs, set against a grassy background with a blue sky.
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 featuring a hexagonal emblem with icons of a world map, mosquito, DNA strand, bar chart, and interconnected blocks.
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 tortoises with long necks are by a river; one is browsing leaves from a bush while the other is walking near the water's edge.
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

Pilot support brochure for 6–8 (Integrated)

Unit phenomena for 6–8

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

Classroom Slides for 6–8

Your new hands-free TG is coming soon! These PowerPoints for every lesson make t…

What’s so phenomenal about phenomena?

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

Active reading in 6–8

Scientists read and write with purpose too.

Investigations for 6–8

Explore the types of investigations that take place in middle school classrooms….

A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

Sims for 4–8

Approaches to assessment in 6–8

Learn about our middle school embedded assessments.

Supporting multilingual & English language learners

Multilingual/English learners (ML/ELs) bring unique strengths to classrooms, enriching the learning experiences for all.

At Amplify, we empower educators with tools that honor the strengths and capabilities of ML/ELs. Our curriculum and assessments meet students where they are and help them develop their skills, propelling them on their learning journeys.

Amplify supports ML/ELs across all subjects, from English language arts to math and science. For students who speak Spanish, we also provide a comprehensive biliteracy suite.

Four vibrant illustrations feature a goat, greeting phrases in Spanish and English, a map with an animal icon, and a fox with rabbits in a forest—perfect for engaging multilanguage & English language learners.
Illustration of a robot character, nine book covers above, and a tablet displaying an e-book page. A pink character stands on a stool holding a book, promoting a reading program for English language learners. Stars decorate the background.

Amplify CKLA core literacy curriculum for grades K–5

Amplify Core Knowledge Language Arts (CKLA) is a K–5 core curriculum built on the science of how students learn to read and write. Amplify CKLA supports ML/ELs in a variety of ways.

Image of a lesson page titled "Introducing the Read-Aloud," focused on speaking and listening skills. The highlighted section emphasizes "Speaking and Listening," seamlessly integrating into the literacy curriculum to support multilanguage & English language learners.

Scaffolding at five levels of proficiency

In addition to core instruction, Amplify CKLA provides lesson supports for Entering/Emerging, Transitioning/ Expanding, and Bridging levels.

An open workbook on writing skills, featuring instructions on creating paragraphs and checking understanding for literacy curriculum, with icons and a

Lesson differentiation

Lessons include Support and Challenge suggestions that provide assistance or opportunities for more advanced work toward the goal of the lesson. These resources are suitable for all learners, including ML/ELs.

A computer screen displays a multilanguage phonics learning app, ideal for English language learners, featuring an astronaut illustration and a play button for the sound "/a/".

Phonological awareness and phonics supports

The digital Sound Library easily facilitates sound development through videos showing mouth movements and songs that help students practice articulating new sounds with catchy lyrics.

A group of young children, including multilanguage and English language learners, sit cross-legged on a classroom floor, some with hands raised, appearing engaged and attentive.

Frequent oral language development opportunities

Amplify CKLA boosts language development with complex read-alouds, interactive discussion, writing activities, and explicit teaching of academic and domain vocabulary.

Amplify CKLA pairs with Amplify Caminos, its companion K–5 Spanish literacy program that supports biliteracy instruction.

Language Studio, an English Language Development companion program for Amplify CKLA

Language Studio, Amplify CKLA’s dedicated K–5 English language development companion program, offers daily 30-minute lessons to help ML/ELs practice reading, writing, speaking, and listening skills. Aligned to the World-Class Instructional Design and Assessment (WIDA) framework, Language Studio previews and reinforces language and content from core instruction, so that ML/ELs of all proficiency levels are able to access grade-level content as they develop academic English.

Four illustrated educational book covers are shown, each with different cultural and historical themes, titled "Language Studio Volumes 1-4" from Amplify Core Knowledge Language Arts—perfect for multilanguage and English language learners.
A young girl sits at a desk reading a book, while two other children are in the background—one using a laptop. The scene supports multilanguage and English language learners as they engage with different resources.

Interactive language development

Language Studio provides opportunities for classroom discussions, oral presentations, and writing tasks, promoting comprehension and learning by connecting with students’ cultural and linguistic backgrounds.

A worksheet labeled "Features of Academic Language," ideal for multilanguage and English language learners, with highlighted text: "Draw and Write," "Offer and Support Opinion," and "Tier 3 Domain-specific words.

Explicit vocabulary instruction

Interactive vocabulary and academic language support is provided before each lesson to deepen students’ understanding of text.

Two schoolgirls in green uniforms, English language learners, look at a notebook together in a multilanguage classroom—one holding a pencil box and pointing at the book.

Multimodal comprehension support

Students can preview content, interact with physical materials, compare text types, receive explicit grammar instruction, and have access to extensive vocabulary exercises.

A language proficiency assessment chart for multilanguage and English language learners, listing evaluation criteria and descriptors across five proficiency levels from entering to bridging.

Skill proficiency monitoring

Language Studio facilitates evaluation with an understanding of what students should produce at each level.

A person holds a tablet displaying educational progress, featuring profile images of two students labeled

mCLASS DIBELS 8th Edition literacy assessment for grades K–8

mCLASS® is an all-in-one system for Science of Reading-based universal screening, dyslexia screening, and progress monitoring for grades K–8. Powered by DIBELS 8th Edition, mCLASS provides valuable data on your ML/ELs’ literacy in English, helping you build a robust system of tiered supports. With a single tool, you can access the data and instructional support you need for each student’s literacy development, from phonics to comprehension, catering to all readers, from beginner to advanced.

A laptop screen displays a table showing the beginning-of-year assessment scores for four Grade 1 multilanguage and English language learners across three goal areas: Composite, LNF, and PSF.

Screening and reporting

mCLASS’s one-minute measures and dyslexia screening identify risk as early as possible, providing you with the right data to make informed decisions.

A laptop screen displays an educational platform with a lesson plan on decoding complex word patterns for Grade 3 English language learners under the "Instruction" tab, supporting multilanguage development.

Language considerations

mCLASS provides specific language guidance, offers ML/EL instructional strategies, and considers each student’s unique language background, never penalizing for language variety, accent, or articulation, and extending this understanding into small-group practices.

A computer screen displays a dashboard with student assessment data, including charts and tables comparing performance across different benchmarks for multilanguage and English language learners.

Performance and reporting transparency

Understand student performance through direct observation and detailed reports which offer growth insights, including district-wide student achievement data that can be filtered by EL status, Home Language, or English Proficiency status.

mCLASS pairs with mCLASS Lectura, an authentic Spanish literacy assessment for K–8 that measures key foundational skills and supports Spanish-speaking bilingual students.

mCLASS Intervention for grades K–6

mCLASS Intervention is our K–6 reading intervention program, designed to support you in providing effective Tier 2 and 3 instruction and getting readers on track. mCLASS Intervention does the heavy lifting of data analysis and lesson planning for you. This lets you focus on what you do best: teaching the skills each student needs to become a confident reader.

Infographic showing a 10-day cycle: measure skills, group multilanguage and English language learners, generate lessons, teach students, and provide practice, all arranged in a circular flow.
A worksheet page titled "Introduce a" with instructional text, a letter grid activity, support tips, and a section labeled “Challenge,” overlaid by the text “Multimodal learner resources” for multilanguage and English language learners.

Effective lessons with built-in support

Lessons are equipped with best practices and guidance targeting language and literacy development for ML/ELs. The program also includes materials and resources that make content accessible to Spanish-speaking students.

A lesson plan shows students, skills, and Day 1 activities for a 10-day Blending and Regular Words set—ideal for multilanguage and English language learners—involving sounding out, blends, and a word race game.

Structured small groups

Once groups are formed, mCLASS Intervention determines the ideal focus for each group and automatically prepares two weeks of targeted lessons.

A line graph showing Emma Ashley's letter sounds scores: 20 in August, 74 in December (benchmark), and projected to reach 90 in May—demonstrating strong progress for multilanguage and English language learners.

Keeps you updated on student progress

Track student growth with reliable progress-monitoring tools and reporting that provides a clear view of each student’s progress.

A young girl with headphones uses a laptop, sitting in front of a colorful, illustrated background with trees, clouds, a bird, and Science of Reading and ESSA Evidence badges—perfect for multilanguage and English language learners.

Boost Reading personalized reading program for grades K–5

A key component of Amplify’s early literacy suite, Boost Reading is a personalized learning program for K–5 that offers comprehensive targeted practice, built-in benchmark assessments, and powerful reporting. Boost Reading provides practice in the full progression of key phonics and comprehension skills critical to literacy development.

Boost Reading works. Results of a year-long study show that students in grades K–5—including ML/ELs—who used Boost Reading for 30 minutes a week significantly outperformed their peers.

A computer screen displays a sentence highlighting the words "Mateo" and "he," with arrows connecting them—helpful for multilanguage and English language learners. A "Done" button and an illustrated face are also visible.

Systematic instruction in foundational skills and comprehension

Reinforce core instruction with explicit practice in phonics and phonological awareness. Boost Reading is the only program that focuses on comprehension processes—what readers do while reading that allows them to make sense of text—which is especially beneficial for ML/EL students.

A laptop screen displays a cartoon mouth, a person’s face above it, and four toast-shaped buttons below—ideal for multilanguage practice and engaging English language learners.

Mouth formation modeling for articulation support

Boost Reading includes specific scaffolds and supports—such as a modeling of mouth formations for articulation—that are proven to be beneficial for ML/ELs.

A colorful educational game screen supports English language learners and multilanguage skills, showing a creature on a log labeled "stamp" with four word choices: sand, stand, stamp, and champ. A waterfall and plants are in the background.

Vocabulary practice

Targeted morphology practice for independent vocabulary building and explicit instruction with Tier 2 vocabulary words are proven to be supportive for ML/ELs.

Boost Reading pairs with Boost Lectura, a Spanish literacy program for K–2 that provides students with personalized practice to develop Spanish literacy skills.

Want to learn more about Amplify’s elementary biliteracy suite?

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Amplify ELA core literacy curriculum for grades 6–8

With Amplify ELA, students learn to tackle any complex text and make observations, grapple with interesting ideas, and find relevance for themselves. Amplify ELA is a grade 6–8 English language arts program designed to bridge language gaps and enhance learning for ML/ELs. With integrated supports in every lesson, Amplify ELA empowers educators to deliver grade-level content while maintaining rigorous standards, thus reducing barriers to language acquisition and boosting student success.

A tablet showcases an educational lesson interface about butterflies, alongside a book titled "Amplify ELA: Summer of the Mariposas," surrounded by illustrated butterflies, enriching the literacy curriculum and engaging multilanguage & English language learners.
A tablet screen displays a digital reading and writing assignment with text excerpts on the left and character trait questions on the right, designed to support multilanguage and English language learners.

Built-in scaffolds

Background documents (in English and Spanish) establish context and support comprehension before students begin to read. Features such as audio assessments, read-aloud, and Reveal words ensure that all students have the opportunity to engage with and understand grade-level materials.

A worksheet with a writing prompt about "Summer of the Mariposas," designed to support multilanguage and English language learners as they describe a character and explain her traits using evidence from the story.

Differentiated writing prompts

Simplified language, sentence starters, word banks, and visual cues offer the necessary levels of support to help students meet their writing goals.

A book titled "Mysteries & Investigation Multi-Language Glossary" with glossary cards for English-French and English-Vietnamese translations of the phrase "a wealth of," ideal for multilanguage study and English language learners.

Multi-language glossaries

Available in 11 languages—English, Arabic, Chinese, French, Haitian Creole, Portuguese, Russian, Spanish, Tagalog, Urdu, and Vietnamese—these glossaries support vocabulary development and comprehension.

Amplify Desmos Math core curriculum for grades K–12

Amplify Desmos Math is a curiosity-driven K–12 program that builds students’ lifelong math proficiency. Every lesson in Amplify Desmos Math includes opportunities for all students to develop mathematical language as they experience the content, while providing intentional support for ML/ELs. We purposefully progress language development from lesson to lesson and across units by supporting students in making their arguments and explanations stronger, clearer, and more precise.

A text box suggests encouraging multilanguage and English language learners to paraphrase peers’ ideas, building connections and using unit vocabulary, with an emphasis on speaking and listening skills.

Multilingual/English learner support

Supports for ML/ELs are called out at intentional points within each lesson. These specific, targeted suggestions support ML/ELs with modifications that increase access to a task, or through development of contextual or mathematical language (both of which can be supportive of all learners). ML/EL supports may also be attached to Math Language Routines.

A text box explaining MLR7: Compare and Connect, with prompts for students—including multilanguage and English language learners—to analyze, compare, and connect different problem-solving strategies.

Math Language Routines (MLRs)

Math Language Routines are used within lessons to highlight student-developed language and ideas, cultivate conversation, support mathematical sense-making, and promote metacognition. Tips for facilitating MLRs are included when they would be helpful within lessons.

A white box lists today’s goals for a lesson on parallelograms, including area calculation and encouraging multilanguage & English language learners to use mathematical language in writing, speaking, and listening.

Language goals and vocabulary

Language goals attend to the mathematics students are learning, and are written through the lens of one (or more) of four language modalities: reading, writing, speaking, and listening. Units and lessons start by surfacing students’ language for new concepts, then building connections between their language and the new vocabulary for that unit. This honors the language assets that students bring into their learning.

Amplify Science core curriculum for grades
K–8

Amplify Science is a curiosity-driven science curriculum that empowers students to Do, Talk, Read, Write, and Visualize like scientists. Through phenomena-based, literacy-rich, and interactive learning experiences, it develops students into critical thinkers who will gain the skills they need to solve real problems in their communities and the world. For students who need additional support, Amplify Science provides specialized instructional approaches, activities, and resources that take into account English learners’ level of language proficiency.

A teacher and three children, all English language learners, interact enthusiastically around a table with a colorful project in a classroom setting. The lively discussion enhances their literacy curriculum experience, fostering both creativity and understanding.
A document page titled "Patterns of Earth and Sky" is shown, with a highlighted overlay listing printable resources for multilanguage and English language learners, such as objectives, compilations, and glossaries.

Instructional design built on five key principles

Amplify Science leverages background knowledge, capitalizes on student knowledge of language, provides explicit instruction about the language of science, gives students opportunities with scaffolded practice, and enables students to access science content and express science knowledge through a multimodal approach.

A blue square with two arrows forming a loop, next to the words: Do, Talk, Read, Write, Visualize—ideal for multilanguage and English language learners.

Do, Talk, Read, Write, Visualize instructional model

Our multimodal instructional approach caters to diverse learning needs and promotes active engagement for all learners.

A webpage section titled "Differentiation" discusses teaching strategies for diverse learners, including multilanguage and English language learners, with a sidebar listing various digital resources and lesson materials.

Honoring multilingualism

Amplify Science honors multilingualism as students are invited to share in their native language at strategic points in instruction. Teacher-led instruction on cognates and a multilingual glossary in 10 languages offer additional support.

Cover of a Spanish-language science booklet titled "Patrones de la Tierra y del cielo," ideal for multilanguage and English language learners, featuring a space illustration and an orange "Cuaderno de investigación" button at the bottom.

Spanish instructional materials

Carefully translated materials use academic Spanish, with attention to consistency and grade-level appropriate language, to support language development.

A biliteracy suite grounded in the Science of Reading

Discover a suite of Spanish literacy curriculum and assessment programs designed to build confident readers with Amplify CaminosmCLASS Lectura, and Boost Lectura. Amplify’s biliteracy suite includes assessment, core instruction, and personalized learning built on the Science of Reading.

Explore more programs in Amplify’s literacy and biliteracy suites.

All of the programs in our literacy suite and our biliteracy suite are designed to support and complement each other. Learn more about our related programs:

Amplify Caminos

Amplify Caminos is a K–5 Spanish language arts program and curriculum designed t…

Boost Reading

Boost Reading is a Science of Reading K–5 personalized reading program that&#821…

mCLASS

Amplify’s mCLASS is the gold-standard universal and dyslexia screener grou…

See All Programs

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

Amplify Science is a proven effective core curriculum designed for three-dimensional, phenomena-based learning that provides an immersive experience for science students. Amplify Science was developed in partnership with the science education experts at UC Berkeley’s Lawrence Hall of Science.

image of Amplify Science and science classroom materials for science teachers

What is Amplify Science?

Amplify Science is a curiosity-driven science curriculum that empowers students to Do, Talk, Read, Write, and Visualize like scientists. Through phenomena-based, literacy-rich, and interactive learning experiences, students develop as critical thinkers who will gain the skills they need to solve real problems in their communities and the world.

Each unit of Amplify Science engages students in a relevant, real-world problem where they investigate scientific phenomena, engage in collaboration and discussion, and develop models or explanations in order to arrive at solutions.

Grounded in research

Developed by the science education experts at UC Berkeley’s Lawrence Hall of Science in partnership with the digital learning team at Amplify, our program features:

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

See more of our research.

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.
Two boys sit at a desk using a laptop in a classroom. Insets show a close-up of sewing, and a child in rain boots splashing in water.

Instructional model

The Amplify Science program is rooted in the research-based proven effective pedagogy of Do, Talk, Read, Write, Visualize.

Here’s how each element works:

Do

Learners engage with scientific phenomena by conducting student-centered investigations.

Talk

Students engage in collaborative and inquisitive discussions and scientific argumentation.

Read

Reading scientific texts is an act of inquiry: Students ask questions, gather evidence, and make connections through literacy.

Write

Students write to share what they have learned and apply new evidence to strengthen written arguments and explanations.

Visualize

Students gather evidence through simulations, physical models, and modeling tools, allowing them to see and investigate complex, microscopic, or otherwise unobservable phenomena.

What’s included

Flexible resources that work seamlessly together

Four children gather around a desk, engaged in a hands-on activity. Two illustrations frame the main image: a storm cloud on the left and a sea turtle on the right.

Grades K–5 materials

A stack of educational science books, ideal for the curious mind of a science student, with titles like "What My Sister Taught Me About Magnets" and "Made of Matter." Perfectly aligned with any science curriculum to inspire young learners in the classroom.

Student Books

Age-appropriate Student Books allow students to:

  • engage with content-rich texts
  • obtain evidence
  • develop research and close-reading skills
  • construct arguments and explanations
Three science notebooks ideal for the science student, titled "Balancing Forces," "History of Earth and Sky," and "Properties of Matter." Each features colorful illustrated covers that enhance three-dimensional learning in the classroom.

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
A digital illustration displays a laptop with screens showcasing environmental graphics, including plants and diagrams, perfect for a science student exploring rich science resources.

Simulations and practice tools (grades 2+)

Developed exclusively for the Amplify Science program, these engaging digital tools:

  • serve as venues for exploration
  • enable data collection
  • allow students to explore scientific concepts
  • show what might be impossible to see with the naked eye


A laptop displaying a web page titled "Spinning Earth" sits next to a book on investigation, ideal for the science student delving into valuable science resources.

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 pegboard with pegs, a small solar panel with clips, and three containers with different powdered substances are perfect science resources for enhancing your science curriculum.

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.)

Grades 6–8 materials

A laptop displays a diagram about jellyfish population explosion; next to it is a magazine page featuring a scientist who preserves artwork.

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.

Four Amplify Science investigation notebooks are displayed, perfectly enhancing any science classroom with their covers showcasing diverse scientific topics.

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
Images of data visualization tools displayed on a laptop, showcasing graphs, maps, and analytical data—essential resources for any science student looking to enhance their understanding through interactive learning.

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 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.

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 pegboard with pegs, a small solar panel with clips, and three containers with different powdered substances are perfect science resources for enhancing your science curriculum.

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.)
Collage of four images: a hairdryer testing a paper structure in a science classroom, a cartoon monkey on a vine, two kids interacting with a wall activity emblematic of three-dimensional learning, and a hand displaying dinosaur-topped pencils with math cards.

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 multimodal 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.

A chart lists science topics by grade, from Kindergarten to Grade 5, covering subjects like plants, animals, forces, materials, weather, and Earth systems.
A list of science curriculum topics for Grades 6, 7, and 8, organized under each grade with bullet points for subjects like microbiome, geology, energy, and natural selection.

Indiana science resources to support your review

Illustration of Indiana’s outline with a star, surrounded by corn, a barn, a basketball hoop, a blue car, and a pink flower—perfect for inspiring any science student or classrooms focused on three dimensional learning.

K–5 Science Resources

6–8 Science Resources

Contact us

Support is always available. Our team is committed to helping you every step of the way. Contact your dedicated Indiana representative here for program access, samples, and additional information.

A woman with long brown hair and a white top smiles at the camera in front of an orange background, showcasing her passion for the Science of Reading and dedication to Indiana middle school education.

Elizabeth Sillies Callahan

Southern IN
(513) 407-5801

A woman with long brown hair and blue eyes smiles gently at the camera. The background is a light purple circle, reflecting her passion for the Science of Reading and dedication to Indiana middle school education.

Jody Kammer

Central IN
(310) 402-7837

Woman with long brown hair, large black glasses, and a nose ring, wearing a striped shirt and dark blazer, posing in front of a neutral background—professional style suited for the Indiana Department of Education.

Amanda Knipper

Northern IN
(260) 894-5123

A woman with wavy red hair and blue eyes, dressed in a purple turtleneck, smiles at the camera against a dark background—reflecting the approachable spirit of Indiana middle school teachers.

Paige Lawrence

District enrollment below 1200
(980) 421-2608

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.

Transform literacy in Indiana with intentional knowledge building and systematic skills instruction.

Amplify Core Knowledge Language Arts (CKLA) is a core literacy resource aligned with the Indiana Academic Standards for English/Language Arts that empowers Indiana grades K–5 students. Developed in partnership with the Core Knowledge Foundation, Amplify CKLA was specifically designed to enable teachers to implement proven, evidence-based instructional practices.

Looking for core instruction for Grades 6–8? Click here.

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Diagram displaying the "knowledge matters campaign" with connections between "core knowledge language arts comprehension," "skills word recognition," and "amplify ckla skilled reading.

Recognized quality

Amplify CKLA stands out as one of only a few high-quality, knowledge-building literacy programs recognized by the Knowledge Matters Campaign. Our shared message: Background knowledge is essential to literacy and learning.

Collage showing "Knowledge Matters Campaign All-Star" badge, cartoon illustrations of children reading, four colorful educational book covers, and a nod to CKLA and other top literacy resources.

Independently and rigorously reviewed

Amplify CKLA not only received an all-green rating from the rigorous evaluators at EdReports, but it was also recognized by the Knowledge Matters Campaign as a literacy program that excels in building knowledge.

Read our EdReports review

Read our Knowledge Matters Campaign review

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Intentional knowledge building

The Science of Reading reveals knowledge as an essential pillar of reading comprehension and lifelong literacy. Hear from author Natalie Wexler and Amplify CKLA customers on edWebinar about the importance of knowledge building in reading instruction.

Hear from Natalie Wexler

edWebinar Links

Program overview

Amplify CKLA is a core ELA program for Grades K–5 that delivers:

  • A unique research-based approach truly built on the Science of Reading.
  • A combination of explicit foundational skills with meaningful knowledge building.
  • Embedded support and differentiation that gets all students reading grade-level texts together.
  • Opportunities for students to see the strengths and experiences that all people share while also celebrating each others’ unique identities and experiences.
  • Authentic Spanish language arts instruction with Amplify Caminos.
Colorful, curved lines intersect and converge on a black background, forming an abstract pattern with blue, yellow, orange and red hues.

How it works

Amplify CKLA teaches both foundational skills and background knowledge in Grades K–2 and combines them in Grades 3–5, in alignment with the Science of Reading.

  • In grades K–2, students complete one full lesson that builds foundational reading skills, as well as one full lesson that builds background knowledge.
  • In grades 3–5, students complete one integrated lesson that combines skills and knowledge with increasingly complex texts, close reading, and a greater writing emphasis.
Program Guide

Rich topics

Amplify CKLA builds knowledge coherently across subjects and grades.

Students make connections from year to year by exploring 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.

Illustration of a bearded man holding black clouds, a three-headed dog, Greek columns, and a background with waves and ancient Greek figures—perfect for CKLA or other literacy curriculum visual resources.

Units by grade

Take a closer look at the topics students explore.

Knowledge Research Units

Explore our newly added Knowledge Research units.

Skills by grade

Take a closer look at the skills students develop.

Three students study together with books and a laptop in front of a whiteboard displaying a science diagram and notes.

Science of Reading resources

Watching students learn to read? Magic. Knowing how they get there? Science.

As you consider your next core ELA program, it’s critically important to understand what the Science of Reading really means—and what it tells us about how to teach more effectively. Unlike other programs, Amplify CKLA was built upon these insights and practices, making it easier for teachers to implement this proven approach.

Explore resources

Indiana CKLA resources for your review

Illustration of Indiana’s outline with a star, surrounded by a basketball hoop, a barn, a car, a flower, and an ear of corn—perfect for Indiana middle school classrooms or middle school teachers meeting Indiana Academic Standards.

Contact us

Support is always available. Our team is committed to helping you every step of the way. Contact your dedicated Indiana representative here for program access, samples, and additional information.

A woman with long brown hair and a white top smiles at the camera in front of an orange background, showcasing her passion for the Science of Reading and dedication to Indiana middle school education.

Elizabeth Sillies Callahan

Southern IN
(513) 407-5801

A woman with long brown hair and blue eyes smiles gently at the camera. The background is a light purple circle, reflecting her passion for the Science of Reading and dedication to Indiana middle school education.

Jody Kammer

Central IN
(310) 402-7837

Woman with long brown hair, large black glasses, and a nose ring, wearing a striped shirt and dark blazer, posing in front of a neutral background—professional style suited for the Indiana Department of Education.

Amanda Knipper

Northern IN
(260) 894-5123

A woman with wavy red hair and blue eyes, dressed in a purple turtleneck, smiles at the camera against a dark background—reflecting the approachable spirit of Indiana middle school teachers.

Paige Lawrence

District enrollment below 1200
(980) 421-2608

Welcome to Amplify Science for grades K–5!

On this site, you’ll find resources to guide you in your review.

When you’re ready to explore full units in the digital Teacher’s Guide, click the “Review” button at the bottom of this page.

Two young girls sit together and look at a laptop, surrounded by illustrations of animals and plants, including an elephant, turtle, sloth, and mushrooms.

About the program

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.

The program is built from the ground up for new science standards and three-dimensional learning. The Next Generation Science Standards have raised the bar in science education. We set out to create a science program that educators can leverage to bring three-dimensional learning to life for their students.

A boy reads a book with an illustrated background featuring a dinosaur skull, the Earth, trees, clouds, and water.

Hear from educators like you

Hear from teachers, administrators, and students across the country who are using Amplify Science in their classrooms right now.

Resources to support your review

Download the resources below before you review the program to better understand the program structure, components, real-world phenomena, digital resources, and more.

Three Amplify Science curriculum book covers for grades 6-8 featuring program structure, hands-on investigations, and digital simulations with relevant images and graphics.

Walkthrough video

Before you explore the program, watch this video overview and get familiar with the digital Teacher’s Guide and where to find resources for you and your students online.

Start your review

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.

2020 Math Leadership Summit logo with geometric shapes and text; "sponsored by Amplify" appears in orange.

Join us!

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March 2–4

The US Grant Hotel, San Diego

Register now

About the event

Join us for two days of interactive and inspirational talks with math education leaders from around the country to discuss where math education is headed. Meet like-minded K–12 leaders as well as change-makers from major universities, EdTech companies, and professional learning organizations dedicated to improving teacher experiences and student outcomes in mathematics. 

We’re hosting an optional pre-conference workshop featuring Patrick Callahan and Chris Weber on Monday, March 2. The pre-conference starts at 12 p.m.

What to expect:

  • Two full days of keynote and breakout sessions covering a variety of K–12 math topics
  • Sessions led by district leaders sharing their work to raise math achievement
  • Evening networking events
  • Engaging speakers with a variety of expertise
  • Insights you can put to use in your district immediately
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Meet a few of our speakers

Use this version when there are multiple presenters.

Jason Zimba

Founding Partner of Student Achievement Partners

Lead writer of the Common Core State Standards for Mathematics

Sunil Singh

Founding Partner of Student Achievement Partners

Lead writer of the Common Core State Standards for Mathematics

Christina Lincoln-Moore

Founding Partner of Student Achievement Partners

Lead writer of the Common Core State Standards for Mathematics

Use this version when there is only one presenter, rather than many.

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Natalie Wexler

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Event agenda

Monday, March 2

Arrivals

Pre-conference workshop featuring Chris Weber and Patrick Callahan

Sessions begin at 1 p.m. Pacific and include:

  • Adult and Student Mindsets and Math Supports
  • Enhanced Mathematics

3:00 p.m. Hotel check-in available

6:00 p.m. Welcome reception and dinner

Tuesday, March 3

8:30 a.m. Sessions begin

Sessions include:

  • Math milestones with Jason Zimba
  • Unfinished learning with Phil Daro
  • Powerful moments in math class with Mike Flynn
  • Utilizing math history to embrace equity, failure, and authentic problem-solving in leadership communities with Sunil Singh
  • Radical change in high school mathematics: Addressing wicked problems of tracking, acceleration, and curricular change with Mike Steele

6:30 p.m. Evening event

Wednesday, March 4

8:30 a.m. Sessions begin

Sessions include:

  • Embedding problem-solving into your curriculum with Fawn Nguyen
  • Writing in mathematics: The power of mathematics explanations with Jessica Balli
  • Talk Number 2 Me: Mathematics and mindfulness with Christina Lincoln-Moore
  • Writing in mathematics: The power of mathematical explanations with Patrick Callahan

4:00 p.m. Departures

Submit the form to register for the event!

Note: this is a Hubspot form but, when this page is used, we will be using Gravity forms. I put in an HS form now since the CSS has not been added.

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The fine print

While we’ve made every effort to ensure that this invitation is consistent with the gift and ethics rules adopted by most jurisdictions, we recognize that many public officials are subject to rules that do not permit acceptance of this offer or require approval of other officials at your agency. If you do plan to attend our event, please ensure that acceptance of our invitation is fully compliant with your local rules regarding travel, lodging, and meals for events with vendors. Please let us know if we can provide any additional information to support your determination.

Welcome, reviewers, to Amplify California Language Arts!

Please select your program below. On each site, you will find detailed information about the program’s development, a comprehensive overview of reviewer materials, and instructions for digital access.

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Select the program you are reviewing:

Program 1:

Basic ELA (K–8)
Program 1

Program 2:

Basic ELA/ELD (K–8)
Program 2

Program 3:

Basic Biliteracy (K–6)
Program 3

Program 6.1:

Basic ELA TK
Program 6.1

Welcome, New York City Educators!

Welcome! This site contains supporting resources for the New York City Department of Education’s Amplify Science adoption for grades K–8.

What’s new?

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NYC Resources

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Getting Started

Login support, materials lists, program overviews, and more!

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Implementation Planning and Instruc…

NYC companion lessons, planning and implementation guides, and more!

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NYC Spotlight

Access monthly newsletters and nominate a fellow educator!

Professional Learning Resources

Professional learning resources to support New York City educators. Interested in attending training? Contact your instructional lead for next steps.

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Screenshot of the amplify science video collection webpage showing an interface with various educational program options and video categories.

PD Library

Learn more about Amplify Science through short, engaging video collections.

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Program Hub

Features learning resources, training videos, and Hands-on Investigation Videos….

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

PD Recording

Access recordings of previous PD sessions for NYC.

Assessment Videos for Leaders

See overview of the new Amplify NYC Benchmarks here.

Archived PD Supports

Professional learning recordings

  • Click here to access the professional learning recordings and materials.
  • Would you like to purchase school based professional learning? Contact Michael Kasloff and Carly Kriss at mkasloff@amplify.com and ckriss@amplify.com.

Archived professional learning resources

Responsive Classroom Resources

Amplify Science supports creating a responsive classroom environment. Click below to explore resources to help aid your responsive launch.

Welcome, Florida educators!

Welcome to Amplify Desmos Math Florida! Below, you’ll find links to sample lessons and more information about our Amplify Desmos Math Florida program.

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Preview Lessons.

Check out the links below to explore our interactive sample lessons. 

Preview lessons

Register to learn more about Amplify Desmos Math Florida.

Join us as we sit down with math experts and educators to explore how to support both students and teachers in math classrooms across Florida. This free professional learning series is designed to deliver collaborative, effective, and engaging math practices, as well as free activities to use right away. 

Register now
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A structured approach to problem-based learning

Amplify Desmos Math combines and connects conceptual understanding, procedural fluency, and application. Lessons are designed with the Proficiency Progression™, a model that provides teachers with clear instructional moves to build from students’ prior knowledge to grade-level learning.

Student thinking is valuable and can be made evident.

We believe that math class is a place where teachers can elicit, celebrate, and build on their students’ interesting ideas. Those ideas fuel meaningful classroom conversations and drive the learning process.

Three students sit at a table in a classroom, smiling and looking at a laptop together, with notebooks and papers in front of them.
A laptop screen displays a math question with a scatter plot about staff and wait times; a worksheet with a similar graph is shown in the background.

Robust assessments that drive learning and inform instruction

A variety of performance data in Amplify Desmos Math Florida provides evidence of student learning, while helping students bolster their skills. With explicit guidance on what to look for and how to respond, teachers can effectively support students as they develop their understanding.

Reporting and insights

Teachers and administrators have visibility into what students know about grade-level math with a variety of data reports. By evaluating not only what students know about grade-level math but also providing insight into how they think, teachers can confidently plan whole-class instruction and targeted intervention.

A digital dashboard displays student names and their performance levels in a grid, with a score distribution summary for assessment items shown in an overlay—ideal for tracking progress within the core curriculum or Desmos Math programs.

Access to grade-level math for every student, every day

Amplify Desmos Math Florida provides teachers with lessons, strategies, and resources to eliminate barriers and increase access to grade-level-content without reducing the mathematical demand of tasksall while supporting students in building strong number sense, fluency, and conceptual understanding.

Differentiation when and where it matters most

Teachers are provided with clear student actions to look for, matched with immediately usable suggestions for how to respond to student thinking. Each lesson also includes recommendations for resources to use with students to support, strengthen, and stretch their understanding of the lesson goal.

Boost Personalized Learning

Boost Personalized Learning activities in Amplify Desmos Math Florida target a skill or concept aligned to the day’s core lesson, with each student receiving personalized scaffolds based on what they already know. Designed to build fluency in mathematics, these activities adapt to each student’s unique needs and support skill-based growth.

Intervention Mini-Lessons aligned to core instruction

Amplify Desmos Math Florida Mini-Lessons are aligned to the most critical topics throughout a unit and provide targeted intervention for small groups of students who need additional support or more time.

A teacher sits at a table with two students, using small objects and a workbook to provide individualized instruction during a Boost Math lesson in a classroom with large windows.

Boost Math

Boost Math is a K–8 personalized learning and intervention program that provides Learning Pathways to ensure that every student succeeds. Our system supports all aspects of a strong Multi-Tiered System of Supports (MTSS) through learning progressions that connect foundational skills directly to core instruction.

Explore Boost Math

Contact us

Support is always available. Our team is dedicated to helping you every step of the way. Contact your dedicated Florida representative for program access, samples, and additional information.

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Jeff Rutter

Field Manager
jrutter@amplify.com

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Kamilah Simpson

Account Executive
ksimpson@amplify.com

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Thomas Gantt

District Manager
tgantt@amplify.com

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!

Bar chart compares percentage growth above or well above average from BOY to MOY across grades K–5 between students who used and did not use Amplify Reading.
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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.

A graphic showing the adaptivity of Boost Reading.
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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.

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.
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.

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.

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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
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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
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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.)
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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 to Amplify Science!

This site contains supporting resources designed for the San Diego Unified School District Amplify Science adoption for grades 6–8.

Click the button below to preview the digital Teacher’s Guide, and check back for exciting updates to this site!

Teacher’s Guide
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Program introduction

Onboarding: What to expect

Welcome to Amplify Science! To help you prepare for what’s coming next, we created the following visual that outlines the steps of the onboarding process. 

Icons representing educational preparation tasks: reviewing a checklist, attending a workshop, logging into a guide, exploring curriculum, and rechecking tools for grades 6-8.

Learn more about the program

Click the buttons below to explore the Amplify Science California Program Guide. You can access the full digital Teacher’s Guide from the Program Guide to explore the program.

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, you’ll find a video of the first unit in the Scope and Sequence, and we’ll show you how to unpack kits for all units.

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NGSS Benchmark Assessments

Amplify’s Next Generation Science Standards (NGSS) Benchmark Assessments give you insight into how your students are progressing toward mastery of the three dimensions and performance expectations of the NGSS ahead of high-stakes end-of-year assessments. Developed by Amplify, the NGSS Benchmark Assessments are given three or four times per year, depending on the grade level, and are delivered after specific units in the recommended Amplify Science Scope and Sequence. Amplify’s NGSS Benchmark Assessments can be accessed through Illuminate.

Learn more

Looking for help?

Our chat agents are standing by to assist you!
Simply log in at learning.amplify.com and click the orange button in the bottom right corner to chat live with our support team.

Important to Note
Our support hours are Monday through Friday, 4 a.m. to 4 p.m. PT. Please check our status page if you are experiencing issues.

Don’t have a login yet?
Email us: help@amplify.com
Call us: +1 (800) 823-1969

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Monthly customer newsletters

Each month our newsletter features the information you need to know about upcoming events, tips for the classroom, educator spotlights, and more. If you missed something from a previous newsletter, you can access all previous newsletters through the following website, where you can view and search by program and also nominate a fellow educator—or yourself!—for a spotlight in a future newsletter.

Welcome to Amplify Science!

This site contains supporting resources designed for LAUSD Amplify Science for grades TK–8. Check back for exciting updates!

Sync Grades to Schoology – Amplify Classwork

Navigate to the Amplify Science Program Hub (video walk-through)

Share the The Caregiver Hub (Eng/Span)

ES Science Teachers

MS (6-8) Unpacking the Unit Videos

Upcoming Amplify Science PDs:

  • ES (K-5) – Refer to MyPLN: (Search Amplify 24)
  • MS (6-8) – Refer to MyPLN
  • Click here to go back to the LAUSD homepage.
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Program Introduction

Learn more about Amplify Science

Click the buttons below to explore the Amplify Science California Program Guide. You can access the full digital Teacher’s Guide from the Program Guide to explore the program.

Transitional Kindergarten
Grades K–8 (Integrated)
Grades 6–8 (Discipline specific)

2024-2025 Session Materials

Unit 2 Deep Dives:

November 2nd Elementary Onsite:

Unit 3 Deep Dives (G 3-5)

January 25th Elementary Onsite

Unit 3 Deep Dives (GK-2)

March 15th Elementary Onsite

Supplemental Materials

2026-2027 LAUSD Planning Calendars

Middle School Curriculum Maps

Misc. Planning Resources

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

New Teachers – Start Here

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.

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.

Looking for help?

Technical, program and pedagogical support

Our technical, program and pedagogical support is available from 7 a.m. to 7 p.m. ET, Monday through Friday.

For your most urgent questions (immediate help during the school day):

  • Use our live chat within your program
  • Call (800) 823-1969
  • Email help@amplify.com

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:

Welcome, Amplify Science families!

We’re excited to welcome you and your student to the Amplify Science program for the new school year, and to provide your student with exceptional learning opportunities through our program. 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.

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What is Amplify Science?

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Amplify Science is an engaging curriculum for grades K–8 designed by experts at UC Berkeley’s Lawrence Hall of Science. As you look through the program, you may notice that it looks different from any science curriculum you’ve seen before. That’s because, in recent years, science teaching has moved away from fact-based lessons, such as those that require memorization, and toward deep learning, where students actively investigate and figure out real-world problems. This shift in science teaching and learning is reflected in new national science standards (the Next Generation Science Standards) and in—you guessed it—Amplify Science.

Getting started

While Amplify Science lessons are designed to be completed in the classroom with peers, there are some activities that students can work on at home with your support. Prior to beginning that work, we recommend reviewing this Protecting Kids Online article by the Federal Trade Commission addressing digital safety.

Materials overview

Amplify Science integrates the latest best practices in science teaching and learning. Students will have numerous opportunities to use hands-on materials, engage with readings, develop evidence-based scientific written arguments, and explore digital applications.

Watch this video for a brief overview of the Amplify Science approach and program structure.

A powerful partnership

Amplify Science is the result of a collaboration between Amplify and the science education experts at UC Berkeley’s Lawrence Hall of Science. The team of science, math, engineering, and literacy experts at the Lawrence developed the content of the program, while Amplify’s team of designers and engineers developed the tools and components that bring the lessons to life for students.

Click here for more information on the Lawrence.

Explore grade-level resources

Elementary school (K–5) Middle school (6–8)

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.

Welcome back to Amplify Science!

On this page, you’ll find helpful resources, for returning educators, to support you and your students to ensure you have a successful year with Amplify. Let’s dig in.

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Professional learning resources

Amplify Science K-5

When you’re ready to log in to learning.amplify.com and get started, begin by watching the navigation video for grades K–5 to familiarize you with the digital organization of materials. Visit the PD Library to learn how to find everything you need to teach with this video about navigating Amplify Science. Note: login required!

Amplify Science 6-8

When you are ready to log in to learning.amplify.com and get startedbegin by watching the navigation video for grades 6–8 to familiarize yourself with the digital organization of materials. Visit the PD Library to learn how to find everything you need to teach with this video about navigating Amplify Science. Note: login required!

Program Hub

Access self-study professional resources on our Amplify Science program hub (log-in required). Here you will find resources and videos on:

  • Remote learning resources
  • Training videos
  • Hands-on Investigation Videos

Professional Development Library

The Professional Development Library is a space for educators to learn more about Amplify Science through short, engaging video collections. The PD Library can be located on the Program & Apps menu when logged into the program. Watch the training videos based on your grade band to learn more about pacing, planning, and teaching Science!

Level up learning webinars

Level up your Amplify Science experience with our We Are Scientists webinars! We showcased expert classroom teaching strategies and offered educator tips and tricks on how to get creative with learning with your students.

Admin tools

Elementary school resources (grades K–5)

For a refresher on navigating and locating resources in the digital Teacher’s Guide, access the page for new users for mini on-boarding videos.

What’s new for 2024-25?
Amplify Science is launching exciting new and updated features for the upcoming school year. Click here to check out improvements designed to save you time, extend your reach, and support your efforts to deliver the rigorous and riveting learning experiences your students deserve.

Have a question? Here is where you can look to find the answer..

Planning guides
Planning guides for grades K–5 walk you through strategies for planning for a unit, including which resources to locate in either the print or digital Teacher’s Guide to most effectively plan:

Additional resources
If you’re interested in learning more about each unit’s anchor phenomena, the Student Books in each unit, and more program features, download the resources below:

Middle school resources (grades 6–8)

For a refresher on navigating and locating resources in the digital Teacher’s Guide, access the page for new users for mini on-boarding videos.

What’s new for 2024-25?
Amplify Science is launching exciting new and updated features for the upcoming school year. Click here to check out improvements designed to save you time, extend your reach, and support your efforts to deliver the rigorous and riveting learning experiences your students deserve.

Have a question? Here is where you can look to find the answer…

Planning guide
Our planning guide walks you through strategies for planning for a unit, including which resources to locate in either the print or digital Teacher’s Guide to most effectively plan. Click here to download.

Additional resources
If you’re interested in learning more about each unit’s anchor phenomena, the Student Books in each unit, and more program features, download the resources below:

Ready to dig a little deeper?

Revisiting coherence flowcharts

Take another look (or look for the first time) at the coherence flowcharts for your unit (found in the printable resources section of the unit guide).

Sample Coherence Flowchart: First Grade: Plant and Animal Defenses

Sample Coherence Flowchart: Fourth Grade: Energy Conversions

Sample Coherence Flowchart: Seventh Grade: Plate Motion

Enhance your discourse routines 

Productive Discourse Routines

Discourse Routines in K-5

Using Phenomena in NGSS

Looking for help?

Timely technical, program, and pedagogical support
Our technical and program support is included and available from 8 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. As a part our support, Amplify also has an Educational Support Team of former teachers and administrators who provide instructional support for every Amplify curriculum, assessment, and intervention program.

For your most urgent questions:

  • Use our live chat within your program
  • Call our toll-free number: 1 888 850 0945

For less urgent questions:

Reach out to our support team at: help@amplify.com

Email support

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

Amplify Science is an engaging K–8 core curriculum designed for three-dimensional and phenomena-based learning.

View the Tulsa Selection Rubric with evidence from Amplify Science.

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21st Century Science for Oklahoma

Click your grade-level for a one-stop review resource:

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Grade K

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Grade 1

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Grade 2

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Grade 3

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Grade 4

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Grade 5

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Grade 6

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Grade 7

Two students engaged in a science experiment with a textbook, microscope, and laptop on their desk, under the heading "instructional.

Grade 8

Topic-specific resources to support your review

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

What comes with the program?

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.

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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
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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
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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.)
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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

Spanish resources

All Spanish materials have parity with their English counterparts and are of the highest quality. The Amplify Science curriculum was not only based on the latest research and approaches to teaching and learning, but was extensively field tested throughout the country prior to release.  The same rigor in terms of scientific accuracy, rich content and language, and literacy development was used in the creation of the Amplify Science Spanish materials. Furthermore, the Spanish instructional materials were carefully translated using academic Spanish, paying particular attention to consistency and the use of grade-level appropriate language in order to support language development.

In Amplify Science, each unit’s glossary contains all content-area vocabulary words in Spanish, French, Portuguese, Russian, Mandarin, Vietnamese, Haitian-Creole, Tagalog, Arabic, and Urdu. In addition, Spanish materials that are available in three useful formats:

  • First, the Teacher Spanish license gives teachers access to a button that enables them to toggle back and forth between seeing Spanish and English in their Amplify Science accounts. When in Spanish mode, teachers can:
    • Download PDFs of all classroom wall materials, copymasters, assessments, and more 
    • Use Spanish projections in class 
    • See all model teacher talk in Spanish
    • Access digital versions of the student books and articles in Spanish 
  • Second, Spanish Print Kits provide hard-copy, translated versions of all student-facing materials such as student books, copymasters, print materials, assessments, and notebooks.
  •  Last, Student Spanish Licenses are available. These allow students to access Spanish versions of all student resources including lesson instructions, science articles, vocabulary, assessments, and simulations. Audio in videos, as well as in the read aloud functionality of articles and assessments, is also translated. When their students have the Spanish licenses, teachers can assign students to a particular language, or they can choose to give students the ability to toggle between English and Spanish as needed. 

Family and caregiver resources

Learn more about how Amplify Science supports families and caregivers by visiting our Hubs:

English

Spanish

Remote and hybrid learning support

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.

Explore the full curriculum

When you’re ready to review, click the orange button below and use the following login credentials to access the Amplify Science Digital Teacher’s Guide.

Username: t.okscience@tryamplify.net
Password: Amplify1okscience

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 Tulsa representative:
Meghan Ramsey
Strategic Accounts Specialist
mramsey@amplify.com
(940) 595-1601

Inspiring the next generation of St. Tammany scientists, engineers, and curious citizens

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Welcome, New York City Educators!

Welcome! This site contains supporting resources for the New York City Public Schools Amplify Science implementation for grades K–8.

Resources for Getting Started

Click here for support for getting started with Amplify Science for New York City — including login support, materials lists, program overviews and more!

What’s new?

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NYC Resources

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Getting Started

Login support, materials lists, program overviews, and more!

Teacher looking at tablet with student

Implementation Planning and Instruc…

NYC companion lessons, planning and implementation guides, and more!

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Monthly Round Up

Access monthly updates to Amplify Science and timely resources!

Professional Learning Resources

Professional learning resources to support New York City educators. Interested in attending training? Contact your instructional lead for next steps.

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Screenshot of the amplify science video collection webpage showing an interface with various educational program options and video categories.

PD Library

Learn more about Amplify Science through short, engaging video collections.

Screenshot of the amplify science program hub website showing resource sections like pd library, professional learning resources, and additional unit materials.

Program Hub

Features learning resources, training videos, and Hands-on Investigation Videos….

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

PD Recording

Access recordings of previous PD sessions for NYC.

Assessment Videos for Leaders

See overview of the new Amplify NYC Benchmarks here.

Archived PD Supports

Professional learning recordings

  • Click here to access the professional learning recordings and materials.
  • Would you like to purchase school based professional learning? Contact Michael Kasloff and Carly Kriss at mkasloff@amplify.com and ckriss@amplify.com.

Archived professional learning resources

Responsive Classroom Resources

Amplify Science supports creating a responsive classroom environment. Click below to explore resources to help aid your responsive launch.

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Amplify CKLA 3rd Edition Pilot Packs

Beginning-of-year pilot

We know it can be overwhelming to start a new curriculum, but we’re here to help every step of the way! Within this site, you’ll find resources to help you get started before your implementation training, including a materials checklist, unit and domain summaries, support videos, and more. These tools will support your core literacy instruction with Amplify CKLA during your pilot period. We hope this site is helpful in getting you started.

Beginning-of-year pilot
Get started

To get started with your new pilot of Amplify CKLA 3rd Edition, you’ll first want to review the following:

You may also find the resources below helpful as you begin your pilot:

Access key materials designed to support your review of Amplify CKLA 3rd Edition.

Amplify CKLA’s all-in-one digital platform offers essential tools that streamline instruction for teachers and engage students with meaningful content. Teachers can plan and deliver lessons efficiently, while students can access assignments, assessments, and fun practice games.

Presentation Screens
Deliver interactive lessons with ready-made, customizable slides for every lesson.

Auto-scored digital assessments
Assess vocabulary, comprehension, and knowledge development at the end of each K–2 Knowledge and 3–5 Integrated Unit.

Standards-based reports
Identify strengths and growth areas for individuals or your entire class. Interactive dashboards offer detailed results from assessments and activities.

Skill-building practice games
Engage students with interactive games that reinforce concepts and make learning fun. Powered by Boost Reading™, these games align with lessons and provide real-time feedback.

eReader
Students access texts, take notes, and use audio-enabled eReaders to enhance their reading experience.

Sound Library
Students watch articulation videos and listen to songs for each sound to support phonological awareness.

Two computer screens display educational assessment interfaces, with reports and questions on charting world geography and sentence usage.
Three book covers: "Stories" with animals, "Poetry" with butterflies, and "Knights" with a knight on horseback, linked by colorful lines and shapes.

Beginning-of-year Pilot Pack materials

Below are the components of your Amplify CKLA Pilot Pack, organized by grade level and teacher/student materials. Please click on your grade level to review the teacher and student materials listed and verify that all items have been received.

Amplify CKLA Kindergarten Skills 1 Teacher Guide cover with a large number 1, a cat, insects, a hat, a table, and speech sound symbols on a pink background.

Teacher materials

Skills Unit 1 Teacher Guide
Book cover titled "Skills 2 Teacher Guide" with a large white number 2. Includes illustrations of a cat, insects, a hat, and phonetic symbols. Red background with "Amplify CKLA" label.

Teacher materials

Skills Unit 2 Teacher Guide
Cover of "Skills 3" Teacher Guide by Amplify CKLA for Kindergarten featuring large number 3, phonetic symbols, a cat, insects, and a bowl on a pink background.

Teacher materials

Skills Unit 3 Teacher Guide
Cover of "Skills 4" teacher guide with a large number 4, cat, insects, and speech sound symbols on a pink background. Top left shows "Amplify CKLA" and "Grade K.

Teacher materials

Skills Unit 4 Teacher Guide
Cover of "Amplify CKLA Skills 5 Teacher Guide." Features a large number 5, a cat, a hat, a stand, insects, and speech balloons with phonetic symbols on a pink background.

Teacher materials

Skills Unit 5 Teacher Guide
Illustration of three characters standing by a white fence. A man and two dressed animals observe chickens and chicks in the foreground, with a barn and tree in the background.

Teacher materials

Skills Unit 4 Big Book
Illustrated book cover titled "Ox and Man" shows an ox and three children running through a colorful landscape with hills and trees under a blue sky with clouds.

Teacher materials

Skills Unit 5 Big Book
Red educational card cover with "Small Letter Cards" for Grade K. Features illustrations of a cat, insects, table with an apple, and a hat. Speech bubbles showing phonetic sounds.

Teacher materials

Small Letter Card Set
Red cover with illustrations of a cat, insects, fruit bowl, and hat. Label reads "Skills Large Letter Cards" for Grade K. Various phonetic symbols and patterns are scattered around.

Teacher materials

Large Letter Card Set
Red educational poster with phonetic symbols. Includes illustrations of a cat, a table with an apple, and insects. Labeled "Amplify CKLA" and "Grade K" with "Skills Sound Posters" at the bottom.

Teacher materials

Sound Posters Sample
Cover of Amplify CKLA Grade K Skills Sound Cards with a bowl, cat, hat, and insects on a pink background. ISBN and barcode displayed.

Teacher materials

Sound Cards Sample
Cover of a book titled "Assessment Guide: Check-Point Assessments" with images of a cat, dragonfly, bugs, and a hat on a red background.

Teacher materials

Skills Assessment Guide (Black Line Master)
Book cover for "Star Light, Star Bright: Nursery Rhymes and Fables, Teacher Guide." Features illustrations of animals, a house, and a garden. Amplify CKLA logo is visible.

Teacher materials

Knowledge 1 Teacher Guide
Children and adults engaging in various outdoor activities, such as playing instruments and picnicking, in a park; cover of "See, Hear, Smell, Taste, Touch: The Five Senses" teacher guide.

Teacher materials

Knowledge 2 Teacher Guide
Children's book cover depicting a boy playing a violin outdoors with animals and trees, titled "Underdogs and Heroes: Stories.

Teacher materials

Knowledge 3 Teacher Guide
Book cover depicting a child sitting in a garden with trees and plants, picking flowers. The title reads "See How They Grow: Plants.

Teacher materials

Knowledge 4 Teacher Guide
A whimsical book cover featuring a countryside cottage with a red door and vibrant garden. Illustrations of Mother Goose, a tortoise, a hare, and clouds are scattered around. Title: "Nursery Rhymes and Fables.

Teacher materials

Knowledge 1 Image Cards
A diverse group of people enjoying a park, with children playing, a person playing guitar, others cooking on a barbecue, and a person petting a dog. A small ice cream stand is nearby.

Teacher materials

Knowledge 2 Image Cards
Illustration of a child playing a violin in a forest clearing, surrounded by animals including chickens, a sheep, and a bear. A large pink boot-shaped house is in the background.

Teacher materials

Knowledge 3 Image Cards
Children's book cover: a child in a hat tends a garden with trees, flowers, and a squirrel. Text reads "See How They Grow: Plants" for Grade K.

Teacher materials

Knowledge 4 Image Cards
A screenshot of a cell phone.

Student materials

Skills 1–5 Activity Book Sample
Red educational cover with illustrations of a cat, insects, a hat, and phonetic symbols. Text reads: "Amplify CKLA Skills Chaining Folder Sample For Review Purposes Only.

Student materials

Chaining Folder
Red book cover titled "Skills Picture Reader." Features illustrations of a cat, table, insects, dragonfly, and a hat with speech bubbles containing vowels. Designed for kindergarten.

Student materials

Picture Reader Sample
Cover of Amplify CKLA Activity Book for Kindergarten, featuring a red design, a globe, sunflowers, and a list of topics including the five senses and geography.

Student materials

Knowledge 1–4 Activity Book Sample
Cover of "Skills 1" teacher guide from Amplify CKLA. Features a large number one, knight, frog, coins, and phonetic symbols on a yellow background.

Teacher materials

Skills Unit 1 Teacher Guide
Yellow book cover titled "Skills 2: Teacher Guide" from Amplify CKLA. Features a large number "2," a frog, a knight, coins, phonetic symbols, and a moon.

Teacher materials

Skills Unit 2 Teacher Guide
Yellow book cover titled "Skills 3 Teacher Guide" with illustrations of coins, a knight, a grasshopper, and phonetic symbols. Amplify CKLA logo at top.

Teacher materials

Skills Unit 3 Teacher Guide
Illustration of two children posing with a bagpiper dressed in traditional Scottish attire; text below reads "Snap Shots.

Teacher materials

Skills Unit 1 Big Book
Illustration of a family hugging under a tree, with a house in the background. The word "Gran" is at the top of the image.

Teacher materials

Skills Unit 2 Big Book
Illustrated book cover titled "Fables" shows a fox sitting on a stump, reading aloud to a rabbit and a bird, surrounded by mushrooms and grass under tall trees.

Teacher materials

Skills Unit 3 Big Book
Screenshot of a language learning webpage focusing on English consonants, including sounds such as /g/, /ch/, /j/, /v/, /s/, and /f/, displayed with example words and visual cues.

Teacher materials

Code Poster Set
Cover of "Skills Spelling Cards" by Amplify CKLA, featuring a knight, frog, moon, and sound symbols on a yellow background.

Teacher materials

Spelling Card Set
Orange card with "Amplify CKLA Grade 1" and "Skills Large Letter Cards." Features a moon, knight, frog, coins, and phonetic symbols.

Teacher materials

Large Letter Card Set
Yellow book cover titled "Assessment Guide: Check-Point Assessments" with images of a knight, coins, a frog, and a planet. Text includes "Amplify CKLA" and "Skills.

Teacher materials

Skills Assessment Guide (Black Line Master)
Book cover with a spider web in the foreground. A red house, animals, and trees are in the background. Title reads "The Moral of the Story: Fables and Tales.

Teacher materials

Knowledge 1 Teacher Guide
Book cover titled "From Nose to Toes: How Your Body Works" featuring X-ray images of body parts.

Teacher materials

Knowledge 2 Teacher Guide
Cover of "Common Threads: Different Lands, Similar Stories" by Amplify CKLA. Features illustrations of children sitting on a red mushroom and standing near a large flower.

Teacher materials

Knowledge 3 Teacher Guide
Book cover titled "Reach for the Stars: Astronomy" featuring an astronaut, a spaceship, Earth, and Saturn in space. Part of the Amplify CKLA series, Grade 4, Unit 1, Teacher Guide.

Teacher materials

Knowledge 4 Teacher Guide
Illustration of a rural scene with a red house, cow, cat, woman, muddy path, and a spider on a web. The text reads: "The Moral of the Story: Fables and Tales, Grade 1.

Teacher materials

Knowledge 1 Image Cards
Educational book cover titled "From Nose to Toes: How Your Body Works" featuring X-ray images and illustrations of human anatomy.

Teacher materials

Knowledge 2 Image Cards
Children exploring a whimsical forest scene with oversized mushrooms and a snail shell. Text on the cover reads "Common Threads: Different Lands, Similar Stories, Grade 1, Image Cards.

Teacher materials

Knowledge 3 Image Cards
Illustrated cover of a Grade 1 astronomy book titled "Reach for the Stars," featuring a space scene with an astronaut, Earth, Saturn, and shooting stars.

Teacher materials

Knowledge 4 Image Cards
Cover of "Activity Book: Volume 1" featuring coins, a knight, and a grasshopper on a yellow background with phonetic symbols and a globe.

Student materials

Skills 1–3 Activity Book
Illustration of two children posing with a bagpiper. The background is filled with doodles, and "Snap Shots" is written at the bottom of the image.

Student materials

Skills Unit 1 Reader
Illustration of a family hugging under a tree, with a house in the background. The word "Gran" is at the top of the image.

Student materials

Skills Unit 2 Reader
Illustrated book cover titled "Fables" shows a fox sitting on a stump, reading aloud to a rabbit and a bird, surrounded by mushrooms and grass under tall trees.

Student materials

Skills Unit 3 Reader
Yellow cover of an activity book titled "Amplify CKLA Grade 1" featuring images of a map, a child with a hat, a shuttle, and a forest path. "Knowledge" sections listed on the cover.

Student materials

Knowledge 1-4 Activity Book Sample
Cover of "Skills 1" teacher guide from Amplify CKLA, featuring a large number 1, a crow, acorn, pencil, and glove clipart on a green background.

Teacher materials

Skills Unit 1 Teacher Guide
Green book cover titled "Skills 2" with illustrations of a bird, acorn, pencil, mittens, and speech symbols. Includes "Amplify CKLA" and "Grade 2 - Teacher Guide" text.

Teacher materials

Skills Unit 2 Teacher Guide
Green book cover titled "Skills 3" for Grade 2, featuring a large number 3, a crow, an acorn, a pencil, and a mitten.

Teacher materials

Skills Unit 3 Teacher Guide
Vowels chart displaying various vowel sounds with example words in boxes on a green and white background.

Teacher materials

Code Posters
Textbook cover titled "Skills Spelling Cards" with a green background, pencil, crow, acorn, mitten, and phonetic symbols. Banner reads "Amplify CKLA, Grade 2.

Teacher materials

Spelling Card Set
Green book cover titled "Assessment Guide: Check-Point Assessments" with images of a crow, acorn, and pencil. Grade 2 is noted in the corner.

Teacher materials

Skills Assessment Guide (Black Line Master)
Book cover titled "Fortunes and Feats: Fairy Tales and Tall Tales" shows a giant boot, train, waterfall, fisherman with a fish, and a person on a giant's hand.

Teacher materials

Knowledge 1 Teacher Guide
Textbook cover reads "Amplify CKLA, Knowledge 2: The Birthplace of Democracy: Ancient Greece, Teacher Guide." Illustration depicts an ancient Greek scene with a building and people in togas.

Teacher materials

Knowledge 2 Teacher Guide
Cover of "Legends and Heroes: Greek Myths" Teacher Guide, depicting classical Greek statues, ancient ruins, and mythological figures against a marble backdrop.

Teacher materials

Knowledge 3 Teacher Guide
A book cover titled "Our Planet: Cycles in Nature," featuring a pond scene with a frog, lily pads, fish, and plants, labeled "Knowledge 4" and "Teacher Guide," by Amplify CKLA.

Teacher materials

Knowledge 4 Teacher Guide
Illustration of ancient Greece with people under tents, classical buildings, columns, and a mountainous backdrop. Text on image reads: "The Birthplace of Democracy: Ancient Greece, Grade 2.

Teacher materials

Knowledge 2 Image Cards
Cover of a book titled "Legends and Heroes: Greek Myths" featuring an ancient Greek statue, ruins, amphora, and flying birds against a sunset landscape. Grade 2 indicated.

Teacher materials

Knowledge 3 Image Cards
Book cover for "Our Planet: Cycles in Nature" by Amplify CKLA, Grade 2. Features a pond with a frog, lily pads, and flowers. ISBN and barcode visible at the bottom.

Teacher materials

Knowledge 4 Image Cards
Cover of a book titled "Amplify CKLA, Units 2-3, Activity Book." The green background features a crow, acorn, pencil, gloves, and phonetic symbols.

Student materials

Skills 1–3 Activity Book Sample
Illustration of an anthropomorphic cat dressed as a cowboy, holding a bag of gold coins, standing beside a treasure chest. Text reads "The Cat Bandit.

Student materials

Skills Unit 1 Reader
Illustration of a bearded man sitting on a bed, reading to a boy and girl. The book cover reads "Bedtime Tales" with a colorful, patterned background.

Student materials

Skills Unit 2 Reader
Illustration of children engaging in outdoor sports activities, with text "Kids Excel" above them against a backdrop of trees and a bridge.

Student materials

Skills Unit 3 Reader
Green cover of an activity book titled "Amplify CKLA," featuring a hot air balloon and a medieval castle illustration. Text includes various learning topics.

Student materials

Knowledge 1-4 Activity Book Sample
Cover of a book titled "Classics Tales: Student Edition" from Amplify, featuring a cross-section of a tree with underground rooms and a scene above of a person walking.

Teacher materials

Unit 1 Teacher Guide
The image shows the cover of a book titled "Fur, Fins, and Feathers: Animal Classification." It features illustrations of various animals and a pond surrounded by lush greenery.

Teacher materials

Unit 2 Teacher Guide
Book cover of "Amplify CKLA Teacher Guide: Rhythm and Rhyme: Poetry Unit 3" featuring butterflies, lily pads, and flowers in a pond scene.

Teacher materials

Unit 3 Teacher Guide
Illustration of Ancient Rome with people in togas, Colosseum, aqueduct, hills, and buildings. Text reads "Amplify CKLA, Unit 4, Rise and Fall: Ancient Rome, Teacher Guide.

Teacher materials

Unit 4 Teacher Guide
Cover of Amplify CKLA Grade 3 unit titled "Timeless Tales: Classic Stories" showing a cross-section of underground animal homes and a rider on a horse above ground.

Teacher materials

Unit 1 Image Cards
Cover of a poetry image cards book titled "Rhythm and Rhyme: Poetry," featuring butterflies and lily pads on a pond with a landscape background.

Teacher materials

Unit 3 Image Cards
Cover image of a textbook titled "Rise and Fall: Ancient Rome" featuring the Colosseum and ancient Roman architecture with people in historical attire and distant hills.

Teacher materials

Unit 4 Image Cards
Blue cover with geometric patterns, labeled "Amplify CKLA" at the top and "Spelling Cards" at the bottom, featuring a "Grade 3" badge.

Teacher materials

Spelling Card Set
Cover of an Amplify CKLA Grade 3 Activity Book showing two units: "Classic Stories" with an underground scene, and "Animal Classification" with a pond scene.

Student materials

Unit 1–2 Activity Book
Book cover of "Rhythm and Rhyme: Poetry," Unit 3, Grade 3, featuring a scenic illustration with a turtle, butterflies, lily pads, and flowers by a pond.

Student materials

Unit 3 Poet’s Journal
Cover of "Amplify CKLA" Grade 3 Activity Book Unit 4, featuring an illustration of Ancient Rome, including the Colosseum and Roman structures against a painted sky background.

Student materials

Unit 4 Activity Book
Book cover titled "Classic Stories" from Amplify CKLA. Illustrations show a cross-section of animals in underground homes and a landscape above with a tree, cyclist, and bridge.

Student materials

Unit 1 Reader
Children's book cover titled "Unit 2: Rattenborough's Guide to Animals" featuring jungle scenery with various animals, including a monkey, jaguar, parrots, and a crocodile.

Student materials

Unit 2 Reader
Illustrated book cover titled "Stories of Ancient Rome" by Amplify CKLA, featuring Roman architecture and people in ancient attire with hills and aqueducts in the background.

Student materials

Unit 4 Reader
Blue book cover titled "Amplify CKLA Skills 1" featuring a large number 1, a deer, a slice of cake, a comb, and trophy icons.

Teacher materials

Skills Unit 1 Teacher Guide (supplemental)
Blue "Skills 2" book cover with number 2, a deer, a comb, cakes, trophies, and phonetic symbols. Labeled "Amplify CKLA Teacher Guide.

Teacher materials

Skills Unit 2 Teacher Guide (supplemental)
Blue "Skills Assessment Guide: Unit Assessments" book cover with geometric patterns, labeled "Amplify CKLA" Edition 3 in the top left corner.

Teacher materials

Skills Assessment Guide Black Line Master (supplemental)
Blue book cover titled "Skills Activity Book: Volume 1" with images of a comb, trophies, cake, and a deer. It includes the Amplify CKLA logo at the top left corner.

Student materials

Skills Activity Book: Unit 1–2 Black Line Master (supplemental)
Textbook cover titled "Personal Narratives" with spiral binding, featuring images of an accordion, bike, windmill, chocolate milkshake, and crayons. Angle of view shows part of a rotary phone.

Teacher materials

Unit 1 Teacher Guide
Book cover featuring two knights on horses with flags, in a medieval setting. Title: "Medieval Knights and Castle Life: Europe’s Middle Ages.” Grade 4, Unit 2.

Teacher materials

Unit 2 Teacher Guide
Amplify CKLA Grade 4 book cover titled "Meaning and Metaphor: Poetry" features an illustration of a bookshelf with colorful books, a tree, and mythical creatures.

Teacher materials

Unit 3 Teacher Guide
Cover of "Amplify CKLA: Eureka! Student Inventor, Teacher Guide" featuring illustrated presenters at podiums, with a colorful wheel displaying various icons.

Teacher materials

Unit 4 Teacher Guide
Cover of an activity book titled "Amplify CKLA," with images depicting "Personal Narratives" and "Europe's Middle Ages" against a meadow background. Grade 4 indicated at the top.

Student materials

Unit 1–2 Activity Book
Book cover for "Meaning and Metaphor: Poetry" showing a tree, a book, and a horse silhouette, with colorful elements like leaves and stars on a bookshelf. Grade 4, Unit 3, Amplify CKLA.

Student materials

Unit 3 Poet’s Journal
Cover of "Inventor's Notebook," Amplify CKLA, Grade 4, Unit 4. Features a green, spiral-bound notebook with a doodle on a colorful geometric background.

Student materials

Unit 4 Inventor’s Notebook
Textbook cover titled "Personal Narratives" with spiral binding, featuring images of an accordion, bike, windmill, chocolate milkshake, and crayons. Angle of view shows part of a rotary phone.

Student materials

Unit 1 Reader
Book cover featuring two knights on horses with flags, in a medieval setting. Title: "Medieval Knights and Castle Life: Europe’s Middle Ages.” Grade 4, Unit 2.

Student materials

Unit 2 Reader
A book cover titled "Grade 4 Unit 4: Eureka! Files, Reader" with pencils and colorful tabs.

Student materials

Unit 4 Reader
Cover of an educational book titled "In My Own Words: Personal Narratives" from Amplify CKLA. It features images of bicycles, a building in Washington D.C., and an old bus in Montgomery, AL.

Teacher materials

Unit 1 Teacher Guide
Book cover featuring illustrations of ancient structures, landscapes, and plants with the title "Early Americas: Maya, Aztec, and Inca" on top.

Teacher materials

Unit 2 Teacher Guide
Cover of "Amplify CKLA" Grade 5, Unit 3: Visions in Verse; Poetry. Features a colorful landscape with trees, birds, a pond, and flowers. Labeled as a Teacher Guide.

Teacher materials

Unit 3 Teacher Guide
Illustration of Don Quixote on a horse, pointing at windmills in a field. Cover text reads, "A Knight's Tale: Don Quixote, Teacher Guide, Unit 4, Amplify CKLA.

Teacher materials

Unit 4 Teacher Guide
Cover of the Amplify CKLA Grade 5 Activity Book featuring Unit 1, Personal Narratives, and Unit 2, Maya, Aztec, and Inca topics, against a blue background with marine imagery.

Student materials

Unit 1–2 Activity Book
Book cover titled "Visions in Verse: Poetry" with birds, a snake, and varied fruit near a pond.

Student materials

Poet’s Journal
Cover of "Don Quixote" activity book, featuring a circular illustration of Don Quixote tilting at windmills, with a blue background and marine-themed border.

Student materials

Unit 4 Activity Book
Cover of "Personal Narratives" reader for Grade 5, featuring images of a bicycle, postcards from Miami, Montgomery bus, U.S. Capitol, and a space shuttle. Colorful stationery surrounds the book.

Student materials

Unit 1 Reader
Textbook cover titled "Early Americas: Civilizations and Empires" with images of a pyramid, a landscape, and plants. Part of a Grade 5 curriculum by Amplify CKLA.

Student materials

Unit 2 Reader
Cover of "Adventures of Don Quixote" shows a man in armor on a horse facing a windmill. It's labeled as a Dover Children's Thrift Classic, with easy-to-read type and by Argentine Palacios.

Student materials

Unit 4 Reader

Access the Amplify CKLA all-in-one digital platform

Teachers and students piloting CKLA 3rd Edition will receive login information to access the digital platform.

If you have not received your login information please contact your administrative team. If you are in charge of licensing and enrollment for your school/district and have not received login information please reach out to your account representative or help@amplify.com.

Contact us

Contact your account executive to sign up for implementation training.

Welcome, Arizona educators!

Dear Arizona educator,

Thank you for your interest in Amplify’s core, assessment, intervention, and supplemental programs. Amplify’s resources are different to make a difference—and the results are undeniable. Explore our unique, research-based approaches built right into our high-quality instructional materials. If you have any questions, please don’t hesitate to reach out.

With great respect for what you do,

The Arizona Amplify team

Simple illustration of Arizona with a star marking a location, two green cacti, sun, and clouds in the background.

Early Literacy Suite

Based on 20 years of experience with the Science of Reading, Amplify’s early literacy suite combines the crucial elements of core curriculum, intervention, and personalized learning. Our programs ensure that all educators have what they need to support every student within an aligned system based on research and effective practices. Amplify CKLA received all-green ratings from EdReports. Read the review on EdReports.

Explore K–5 Literacy Suite
Illustration of a bear on a rock overlooking a campsite in a valley with mountains, trees, tents, and people; includes an EdReports review badge in the lower right corner.
Collage image featuring a girl with a crown looking at a sunset, a boy reading about the Amplify ELA program, and the "read the report review year 2020 edreports" logo

Amplify ELA

Amplify ELA is a blended curriculum designed specifically for grades 6–8. At the heart of every lesson is the text. We enable teachers to teach skills texts and develop their students’ muscles for building meaning through reading. With Amplify ELA, students learn to attack any complex text and make observations, grapple with interesting ideas, and find relevance for themselves. Rated all green by EdReports, Amplify ELA earned perfect scores across all gateways. Read the review on EdReports.

Explore 6–8 Amplify ELA

Amplify Science

Amplify Science empowers students to think, read, and write like real scientists and engineers. Amplify Science K–8 received all-green ratings in EdReports’ review of national middle-school science curricula. Read the review on EdReports.

Explore K–8 Amplify Science
Two students wearing safety goggles conduct a science experiment together, pouring liquid between plastic cups over a blue tray on a classroom table.
A laptop displaying a graph on a webpage labeled "Robots" sits next to two textbooks titled "Amplify Desmos Math," one being the teacher edition and the other for grade 6, exemplifying student-centered instruction through math technology.

Amplify Desmos Math

Meet Amplify Desmos Math. Our structured approach to problem-based learning systematically builds on students’ curiosity to develop lasting grade-level understanding.

Explore Amplify Desmos Math

Contact us

Support is always available. Our team is dedicated to helping you and can be reached at any time by emailing or calling us directly.

A man with a beard and short hair, wearing a striped suit, blue shirt, and orange tie, poses against a plain white background.

Eastern, Western, Southern AZ

Tommy Gearhart

Senior Account Executive

(505) 206-7661

tgearhart@amplify.com

A woman with long, wavy brown hair, wearing a dark blazer and a bright pink blouse, smiles at the camera against a plain gray background.

Northern & Central AZ

Yvonne Rohde

Senior Account Executive

(480) 673-0019

yrohde@amplify.com

A woman with straight dark brown hair and light skin smiles at the camera, wearing a black top and gold earrings, in front of a white brick wall.

Districts below 3,500

Laina Armbruster

Account Executive

(602) 791-4135

larmbruster@amplify.com

Welcome, New York City educators!

To view this protected page, enter the password below:



Welcome to Transitional Kindergarten

BACK TO MAIN TK–5 PAGE

Amplify Science California jump-starts a lifelong love of science with developmentally and pedagogically appropriate instruction featuring:

  • Real-world problems and scientific phenomena.
  • An experiential approach with lots of hands-on.
  • Explicit support for building oral language and early literacy skills.
A collage of four images: children doing a science experiment, a tree in a park, stacked building blocks and toys, and a child splashing water near a storm drain.

What students learn

Our program is comprised of three units: one life science, one physical science, one Earth science.

As students take on the role of a scientist or engineer to figure out real-world phenomenon, each unit:

  • Sparks curiosity and engagement.
  • Encourages students to wonder, think, and talk.
  • Builds a solid foundation for future success with science.

Look below for a summary of each unit.

A person helps a child with a ponytail. Another child examines a yellow flower using a magnifying glass. Caption reads Story of the Noisy Tree and describes children's curiosity and exploration.
Unit 1
Illustration of a vibrant park with a winding path, lush trees, and animals like squirrels and birds in a large tree.

Unit: Wondering About Noises in Trees

Student role: Life scientists

Phenomenon: Strange noises appear to be coming from the trees outside.

Unit 2
Colorful 3d illustration of various imaginative structures built with blocks, rings, and other toy components on a grassy area with a blue sky and clouds background.

Unit: Wondering About Buildings

Student role: Building engineers

Phenomenon: One class made a play city. Some of the buildings stayed up, while others fell down.

Unit 3
A child in yellow shirt and orange boots skipping over a puddle on a sidewalk next to a grassy area and a stream.

Unit: Wondering About Puddles

Student role: Weather scientists

Phenomenon: Puddles exist in some places but not in other places along a girl’s walk to school

Program structure

To meet the unique needs of little learners, our program follows a unique structure.

Each unit:

  • Begins with an Introductory Activity that
    introduces the phenomenon.
  • Includes a series of three Explorations that are comprised of a Kickoff Discussion, four activities, and a Shared Drawing and Discussion.
  • Ends with a Culminating Activity that consolidates students’ understanding.

Each activity is designed to span 15 minutes. Depending on how the program is implemented, an entire unit generally takes 4–6 weeks.

Diagram of tk curriculum structure, including life science, physical science, and earth science units, with detailed breakdowns of unit and exploration structures.

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, scroll down to take a closer look at sample resources.

Cover of a transitional kindergarten teacher guide for a life science module titled "wondering about noises in trees," featuring an illustrated scene with trees and animals.

Printed Teacher’s Guide

Our unit-specific Teacher’s Guides are chock full of helpful resources, including scientific background knowledge, planning information and resources, detailed lesson plans, tips for delivering instruction, differentiation strategies, additional classroom resources, and copymasters.

Teacher’s Guide

Girl listening to a tree trunk, book cover titled the noisy tree by ashley chose, with an orange background.

Big Books

Big Books contain vivid photographs and are used to introduce topics, facilitate group discussions, and support students’ firsthand investigations. Each Big Book is an integral part of instruction and is used multiple times for multiple purposes across a unit.

Big Book

Stack of white papers with a primary visible one labeled science question 1: why are so many noises coming from the tree? in black text.

Science Questions

Each unit includes three printed Science Question cards, one for each Exploration of the unit. The cards can be posted on classroom walls and support the class as they are introduced to and revisit the focus of their investigations over the course of an Exploration and, ultimately, the unit.

Two magazine cover mockups with the word scientist on the left and a tree photo on the right, both against a white background.

Vocabulary and Picture Cards

Each unit includes six or seven printed Vocabulary Cards and a set of colorful Picture Cards that can be posted on classroom word walls and concept walls. Cards are used for a variety of purposes, including gathering evidence, building background knowledge, and introducing the focal phenomenon.

Resources

A large tree with red fruit stands beside a curved path in a grassy field. Various animals, including a raccoon, owl, squirrel, and bird, are in and around the tree.

Preview a TG and Big Book

Preview an Amplify Science TK Teacher’s Guide and a Big Book.

Two children in a lab setting engage in a science experiment with test tubes and a tablet. One child wears safety goggles, while an adult’s hand assists.

Program guide for TK

Learn more about this level of the program by exploring our detailed program gui…

A group of young children sit around a table in a classroom, engaging in an activity with colorful geometric blocks and paper.

FAQs for TK

Get a big picture overview of this unit with an at-a-glance view of each chapter…

A collection of Amplify Science educational materials, including a teacher's guide, a book titled "The Noisy Tree," science question cards, vocabulary cards, and tree-related images.

Program components for TK

Take a closer look at the unit-specific resources that support learning.

Two women sitting at a table working on a laptop and documents, surrounded by colorful posters on the walls.

Standards Alignment for TK

See how our program fully prepares students for meeting NGSS standards in kinder…

Welcome to Grade 7

BACK TO MAIN 6–8 PAGE

Amplify Science California is so effective you can cover 100% of the NGSS in fewer lessons than other programs.
 
Plus, you can breathe a sigh of relief knowing we give you enough materials to support 200 students. In fact, our material kits:

  • Support small groups of 4-5 students.
  • Make organization and finding materials easy.
  • Last longer with only one of the nine kits requiring refills.
A collage showing a rocky landscape, a forest with foxes, two kids doing a science experiment, and hands tending to seedlings in a plastic container.

What students learn

Lauren Learner loves science. Watch this video to find out what she learns in seventh grade. >

When you’re ready:

  • Find a summary of each unit below including each unit’s student role and anchor phenomenon.
  • 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.
A barren, rocky desert landscape with rover tracks leading to a distant vehicle on a hill under a hazy sky.

Unit 1

Geology on Mars

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.

Unit 2

Plate Motion

Student role: Geologists

Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean.

See how this unit works

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

Unit 3

Plate Motion 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.

Unit 4

Rock Transformations

Student role: Geologists


Phenomenon: Rock samples from different U.S. regions look different, but have similar mineral compositions.

See how this unit works

Illustration showing the stages of melting an orange popsicle: whole, partially melted, more melted, and almost completely melted, with wooden sticks, on a purple background.

Unit 5

Phase Change

Student role: Chemists

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

See how this unit works

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

Unit 6

Phase Change Engineering Internship

Student role: Chemical engineering interns

Phenomenon: Designing portable baby incubators with different phase change materials helps keep babies’ temperatures healthy.

Abstract digital artwork featuring numerous red and gray circles overlapping a split background of blue and light purple, creating a dynamic and energetic composition.

Unit 7

Chemical Reactions

Student role: Forensic chemists

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

See how this unit works

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

Unit 8

Populations and Resources

Student role: Biologists

Phenomenon: The size of the moon jelly population in the fictional Glacier Sea has experienced a puzzling increase.

See how this unit works

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

Unit 9

Matter and Energy in Ecosystems

Student role: Ecologists

Phenomenon: A sealed biodome built by a group of Econauts mysteriously crashed despite following the advice of experts.

See how this unit works

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:

  • Scroll down and take a closer look at your classroom resources.
  • Click on the orange links below each component to see grade-specific samples.
A laptop displays a PowerPoint presentation in presenter view, with slides about observing objects in plastic containers and related sensory instructions.

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

A printed teacher’s guide labeled “Plate Motion: Mystery of the Mesosaurus Fossils” is displayed next to a laptop showing the same curriculum’s digital interface.

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.

Login to platform below to access

Assorted craft supplies including a bottle of rubbing alcohol, plastic containers, colorful beads, small dropper bottles, plastic cups, and clear plastic spoons on a white background.

Materials Kits

Our kits include enough non-consumable materials to support 200 student uses. In other words, you have enough materials to support all five periods and small groups of 4-5 students each. 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

A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

Simulations and Practice Tools

Our digital Simulations and Practice Tools are powerful resources for exploration, data collection, and student collaboration. They allow students the ability to explore scientific concepts that might otherwise be invisible or impossible to see with the naked eye.

Video overview of digital tools

List of digital tools by unit

Device calendars by unit

Two science textbooks, one in Spanish and one in English, titled "Movimento de placas" and "Plate Motion," both featuring an illustrated Mesosaurus fossil on the cover.

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)

Cover of a science textbook showing a girl doing an experiment, surrounded by animals, jellyfish, a rocket, and scientific symbols, with the title "Amplify Science.

Student Edition Hardcover

This durable Student Edition is grade-level specific and contains all of the articles that students refer to throughout the year. Districts may choose to pair these traditional student texts with our digital student experience or new 2-volume consumable notebook set.

A person with headphones works on a laptop; a line from their head transforms into a rocket, symbolizing imagination, innovation, and the foundational skills essential for multilingual learners.

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

Watch this video showing you how to navigate our digital platform. Then following the instructions below. >

  • Click the orange button below to access the platform.
  • Choose the resources you’d like to review.
  • Pick your grade level from the drop-down menu.
  • Scroll down to find additional grade-level resources.
Access the digital platform now

Navigating a Launch Unit

Launch units are the first units taught in each year of the program. The goal of a Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year.

Navigating an Engineering Internship

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. In the process, they apply and deepen their learning from Core units.

Navigating a Core Unit

Core units introduce a real-world problem and support students as they figure out the anchoring phenomenon and gain an understanding of the unit’s DCIs, SEPs, and CCCs.

Navigating Classwork and Reporting

Classwork is our new online grading tool that gives you quick and easy access to unreviewed work, student portfolios of work, and automatically generated differentiation groups.

Welcome to Grade 1

BACK TO MAIN TK–5 PAGE

Amplify Science California is so effective you can cover 100% of the NGSS in half the time of other programs.

You can breathe a sigh of relief knowing all you need is:

  • 66 days per year
  • 2 lessons per week
  • 45 minutes per lesson
A collage shows children demonstrating Earth's rotation with a globe, an Earth-sun diagram, a hand holding a spiked ball, and a light experiment with a lamp, paper, and a screen.

What students learn

Lauren Learner loves science. Watch this video to find out what she learns in firstgrade. >

When you’re ready:

  • Find a summary of each unit below including each unit’s student role and anchor phenomenon.
  • 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.
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.

See how this unit works

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.

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.

See how this unit works

Illustration showing an urban landscape divided into night on the left with a moon and stars, and day on the right with a sun, clouds, and an airplane.

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.

See how this unit works

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:

  • Scroll down and take a closer look at your classroom resources.
  • Click on the orange links below each component to see grade-specific samples.
A laptop displays a PowerPoint presentation in presenter view, with slides about observing objects in plastic containers and related sensory instructions.
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.

A spiral-bound teacher’s guide and a laptop displaying an online curriculum titled “Matter and Energy in Ecosystems: Biodome Collapse” from Amplify Science.
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.

Login to platform below to access

Assorted party supplies including tissue paper, plastic cups, poker chips, metal rings, black brushes, toothpicks, pink candy, and a black napkin holder arranged on a white surface.
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.

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.
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.

Two science workbooks, one in Spanish and one in English, titled "Animal and Plant Defenses," featuring illustrated animals with spikes and shells on the covers.
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.

A man wearing glasses and a maroon shirt smiles at the camera on a laptop screen with the words "MYSTERY doug" and a speech bubble saying "Doug.
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

A person with headphones works on a laptop; a line from their head transforms into a rocket, symbolizing imagination, innovation, and the foundational skills essential for multilingual learners.
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

Watch this video showing you how to navigate our digital platform. Then following the instructions below. >

  • Click the orange button below to access the platform.
  • Choose the resources you’d like to review.
  • Pick your grade level from the drop-down menu.
  • Scroll down to find additional grade-level resources.
Access the digital platform now
A woman sits at a desk in a classroom, working on a laptop with an open binder and papers in front of her.

[VIDEO] TG Walkthrough

Watch this video to get familiar with the organization of our printed TG.

A digital resource titled "Animal and Plant Defenses: Spikes, Shells, and Camouflage" is displayed on a tablet and a laptop, showing educational chapters and illustrations.

[Grade 1] Animal and Plant Defenses

Get a big picture overview of this unit with an at-a-glance view of each chapter…

A printed teacher’s guide and a laptop display both show the “Light and Sound: Puppet-Theater Engineers” curriculum from Amplify Science.

[Grade 1] Light and Sound

Get a big picture overview of this unit with an at-a-glance view of each chapter…

A spiral-bound teacher's guide and a laptop screen both display "Spinning Earth: Investigating Patterns in the Sky" educational materials with illustrated covers and chapter thumbnails.

[Grade 1] Spinning Earth

Get a big picture overview of this unit with an at-a-glance view of each chapter…

A collection of science learning materials including books, balloons, seeds, windmill parts, and other educational tools arranged on a white surface.

[Grade 1] English components

Take a closer look at our grade 1 print components.

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.

[Grade 1] Spanish components

Learn more about what components are available in Spanish.

Two children stand indoors; one holds a globe while the other points at it. A drawing of a sun is taped to the wall in the background.

[Grade 5] NGSS Alignment

See how our program addresses 100% of the NGSS Standards.

Una mujer adulta está ayudando a un niño con sus tareas escolares en un escritorio en un salón de clases.

[Grades K–2] Pilot support brochure

Welcome to Earth and Space Science

BACK TO MAIN 6–8 PAGE

Amplify Science California is so effective you can cover 100% of the NGSS in fewer lessons than other programs.
 
Plus, you can breathe a sigh of relief knowing we give you enough materials to support 200 students. In fact, our material kits:

  • Support small groups of 4-5 students.
  • Make organization and finding materials easy.
  • Last longer with only one of the nine kits requiring refills.
A collage of images: top left, digital art of a desert scene; top right, three kids doing a science experiment; bottom left, a hand holding a jar and two others beside; bottom right, digital art of a person and child in a field.

What students learn

Lauren Learner loves science. Watch this video to find out what she learns in sixth grade. >

When you’re ready:

  • Find a summary of each unit below including each unit’s student role and anchor phenomenon.
  • 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.
A barren, rocky desert landscape with rover tracks leading to a distant vehicle on a hill under a hazy sky.

Unit 1

Geology on Mars

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.

Unit 2

Plate Motion

Student role: Geologists

Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean.

See how this unit works

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

Unit 3

Plate Motion 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.

Unit 4

Rock Transformations

Student role: Geologists


Phenomenon: Rock samples from different U.S. regions look different, but have similar mineral compositions.

See how this unit works

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

Unit 5

Earth, Moon, and Sun

Student role: Astronomers

Phenomenon: Pictures of specific features on the Moon can only be taken by an astrophotographer at certain times.

See how this unit works

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.

Unit 6

Ocean, Atmosphere, and Climate

Student role: Climatologists

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

Ilustración de un pueblo con casas, campos y montañas bajo un cielo nublado con olas de viento o lluvia.

Unit 7

Weather Patterns

Student role: Forensic meteorologists

Phenomenon: The strong storms in Galetown didn’t just begin. They have become more and more severe over the years.

See how this unit works

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.

Unit 8

Earth’s Changing Climate

Student role: Climatologists

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

See how this unit works

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

Unit 9

Earth’s Changing Climate Engineering Internship

Student role: Civil engineers

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

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:

  • Scroll down and take a closer look at your classroom resources.
  • Click on the orange links below each component to see grade-specific samples.
A laptop displays a PowerPoint presentation in presenter view, with slides about observing objects in plastic containers and related sensory instructions.
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

A printed teacher’s guide labeled “Plate Motion: Mystery of the Mesosaurus Fossils” is displayed next to a laptop showing the same curriculum’s digital interface.
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.

Login to platform below to access

Assorted rocks, plastic jars, stacks of clear plastic cups, wrapped candies, and scattered dice laid out on a white background.
Materials Kits

Our kits include enough non-consumable materials to support 200 student uses. In other words, you have enough materials to support all five periods and small groups of 4-5 students each. Plus, our unit-specific kits mean you just grab the tub you need and then put it all back with ease.

A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.
Simulations and Practice Tools

Our digital Simulations and Practice Tools are powerful resources for exploration, data collection, and student collaboration. They allow students the ability to explore scientific concepts that might otherwise be invisible or impossible to see with the naked eye.

Video overview of digital tools

Two booklets titled "El clima cambiante de la Tierra: la desaparición del hielo" and "Earth’s Changing Climate: Vanishing Ice" with landscape illustrations on the covers.
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.

Cover of the "Amplify Science" Grade 8 textbook featuring illustrations of space, insects, technology, crowds, and scientific diagrams.
Student Edition Hardcover

This durable Student Edition is grade-level specific and contains all of the articles that students refer to throughout the year. Districts may choose to pair these traditional student texts with our digital student experience or new 2-volume consumable notebook set.

A person with headphones works on a laptop; a line from their head transforms into a rocket, symbolizing imagination, innovation, and the foundational skills essential for multilingual learners.
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

Watch this video showing you how to navigate our digital platform. Then following the instructions below. >

  • Click the orange button below to access the platform.
  • Choose the resources you’d like to review.
  • Pick your grade level from the drop-down menu.
  • Scroll down to find additional grade-level resources.
Access the digital platform now

Navigating a Launch Unit

Launch units are the first units taught in each year of the program. The goal of a Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year.

Navigating an Engineering Internship

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. In the process, they apply and deepen their learning from Core units.

Navigating a Core Unit

Core units introduce a real-world problem and support students as they figure out the anchoring phenomenon and gain an understanding of the unit’s DCIs, SEPs, and CCCs.

Navigating Classwork and Reporting

Classwork is our new online grading tool that gives you quick and easy access to unreviewed work, student portfolios of work, and automatically generated differentiation groups.

Welcome, California Reviewers for 6–8!

BACK TO WELCOME PAGE

We’re so honored you’re considering Amplify Science California—the #1 most adopted NGSS curriculum across the state.

  • It meets 100% of the NGSS.
  • It has demonstrated effectiveness across all student groups.
  • It helps students make the shift from learning about to figuring out scientific concepts.
  • It empowers students to think, read, write, and argue like real scientists and engineers each and every day.
  • It can flexibly adapt to remote and hybrid learning scenarios.
A person wearing safety goggles examines a glass of water. The background includes illustrations of space exploration, a rocket, a polar bear, and weather symbols such as clouds and raindrops.

Overview

Developed by UC Berkeley’s Lawrence Hall of Science, 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.
  • 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. >

Classroom resources

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

Learn more about new product enhancements and resources to help you and your staff manage back to school 2020.

A spacecraft approaches a large modular space station with blue solar panels, orbiting in outer space against a black background.

Program structure for 6–8

Take a closer look at how the program is organized at 6–8.

A computer screen displays an educational simulation about Earth's energy system, with diagrams and explanatory text about energy entering and exiting the system.

New! Classroom Slides for 6–8

Learn more about the customizable PowerPoints that are being released for every lesson for the 2020-2021 school year.

Image of Grade 8 Amplify Science Spanish Materials kit. Includes lesson cards, vocabulary cards (e.g., "atributo," "población," "especie descendiente," "habitable"), and images of butterflies.

Spanish resources at K–8

Take a closer look at our Spanish components.

3-D teaching and learning

An adult sits on a couch using a laptop while a child next to them does homework in a notebook.

What’s so phenomenal about phenomena?

Learn more about the power of teaching science through phenomenon along with actionable strategies that will help you implement 3-D teaching and learning.

A spacecraft approaches a large modular space station with blue solar panels, orbiting in outer space against a black background.

Phenomena and storylines for 6–8

Read more about the real-world phenomena featured in each grade 6–8.

A computer screen displays an educational simulation about Earth's energy system, with diagrams and explanatory text about energy entering and exiting the system.

Integrating the 5Es at K–8

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

Hands-on

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 at 6–8

Watch these sixth-graders conduct hands-on investigations.

Two students sit at a table in a classroom, working on laptops and talking, with other students visible in the background.

[VIDEO] Using digital tools at 6–8

Watch how these sixth-graders find and observe substances that do and do not react when mixed together with the help of simulations and modeling tools.

A person wearing gloves looks into a microscope, with laboratory supplies and bottles on a tray beside them, against a plain blue background.

Summary of investigations at 6–8

Explore the types of investigations that students conduct at each grade 6–8.

Differentiation

Two boys wearing safety glasses sit at a table; one holds a cup with liquid while the other holds a pencil and notebook. Classroom materials are visible in the background.

English learners

Learn how we make learning accessible for English learners.

Two children in safety goggles conducting a science experiment with liquids in a classroom.

Students needing support

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

Two students sit at a classroom table working together with notebooks and a workbook, while other students work in the background.

Students ready for more

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

Literacy-rich

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 at 6–8

Watch these sixth-grade students read scientific articles, and then using writing prompts to create arguments using evidence.

A student reads about rock formations from a spiral-bound book while sitting at a table with a laptop; other students work together in the background.

Approach to literacy at 6–8

Explore our integrated, supportive, and literacy-rich instruction at 6–8.

Standards and assessment

Two students sit at desks, writing in notebooks while using laptops in a classroom setting.

Approach to assessment at 6–8

Learn about our embedded formative and summative assessments at 6–8.

Illustration of the Earth with arrows representing radiation or energy entering the atmosphere from space over the Asia-Pacific region.

NGSS alignment for 6–8

See how our program addresses 100% of the NGSS standards for 6–8.

Four low-poly dinosaurs, three green and one yellow, are walking in a row on grass with rocks and red spots on their bodies under a blue sky.

TIME Rubric for 6–8

See how our program fully addresses the NextGen TIME Rubric criteria for 6–8.

Explore your grade

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

Select a grade level below to learn more about how we make rich learning accessible to all students at every grade.

Grades 6–8 Integrated

Grades 6–8 Domain
Grade 6
Earth and Space Science
Grade 7
Life Science
Grade 8
Physical Science

Amplify Math for PXU

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S1-09: Supporting K–8 science students in the digital world: Ricky Mason

Podcast cover for "Science Connections," Season 1, Episode 9, featuring "Ricky Mason" discussing K–8 science education. Includes a globe illustration and decorative science-themed elements.

In this episode, Eric sits down with Ricky Mason, chief executive officer of BrainSTEM. Ricky shares his passion for inspiring students into science careers, and his path from an engineering career with organizations like the Department of Defense, National Aeronautics and Space Administration, and the Central Intelligence Agency to starting BrainSTEM, an education program that develops creative digital tools to enable all teachers and students to dive deeper into STEM content. Ricky and Eric talk about representation in science classrooms and the importance of embedding fun within K–8 science content! Explore more from Science Connections by visiting our main page.

Download Transcript

Ricky Mason (00:00):

I feel like comfort is where dreams go to die. And I’m still dreaming every night. So I’ll wake up, chasing them.

Eric Cross (00:08):

Welcome to Science Connections. I’m your host, Eric Cross. My guest today is Ricky Mason. Ricky is an engineer whose career included lead roles at the Department of Defense, NASA, and the CIA. Ricky transitioned to education as an adjunct faculty at the University of Kentucky. And while there, he founded BrainSTEM, an edtech company that developed a 3D virtual reality metaverse for STEM education. Today, BrainSTEM serves public school districts, private schools, and nonprofits. And in this episode, we discuss what led Ricky to creating BrainSTEM Metaversity, and how he’s using the metaverse to transform STEM learning for students. And now please enjoy my conversation with Ricky Mason. How did you, so like maybe going back doing your origin story, maybe you can talk about it, but brother, you don’t sleep. Talk about keep making moves, your hashtag, I mean, I was looking at your LinkedIn profiles, looking at your details. You get after it. I was getting tired just reading it. I was like John Hopkins, electrical engineering, real estate, starting companies. You must have that gene where it’s like four hours of sleep and then you’re like, ready to go.

Ricky Mason (01:19):

Yeah, man. My mom told me if I didn’t stay busy, then I’m in trouble. So when I was about 14, she told me that. I said, well, Mama, I guess I’m gonna stay busy then. And yeah, man, that’s just been my life. I feel like if I don’t keep making moves, then I’m in trouble. So, feel like comfort is where dreams go to die and I’m still dreaming every night. So I’ll wake up chasing them.

Eric Cross (01:44):

I feel like a kindred spirit with you. So, were you always interested in STEM like, was there something like a moment or a year where you remember you were like, this is my jam. This is what I’m gonna get into.

Ricky Mason (01:57):

Yeah, man. When it really clicked for me was in the fifth grade. I was at a school assembly and an IBM engineer came in and he brought a robot and he programmed it with punch cards right on the stage. And I got the opportunity to come up andyou know, put one of the punch cards in the robot to program it. And I asked him, I’m like, what is your job? He said, I’m a robotics engineer. And I went home right after that assembly and I said, Mom, that’s what I wanna do, become a robotics engineer. And my mom would take me to the libraries. Well, I felt like I was getting outta bible study on Wednesdays by going to the library. So I went there and I started researching robots.

Ricky Mason (02:39):

And at the time the robots that were popular were all being sent to space. And it was the spiritless. It was being sent to Mars. And I said, Mom, well, I guess I gotta become an astronaut if I’m gonna be a robotics engineer. And that’s kind of what set me out on that dream. And my mom started trying to find outlets for me to get involved in STEM, but it was really tough to find those outlets, you know, especially in that fifth to eighth grade range here in Kentucky. So that was kind of where it started for me man, when I knew that yeah, engineering is what I wanna do.

Eric Cross (03:14):

What does an electrical engineer do? I imagine there’s different types of specialties, but like, was there something that you specialize in that you focused on or was it, is it just kind of like a generalist field?

Ricky Mason (03:23):

Yeah, so I would say, yeah, man, it’s a huge field. So you could be doing anything from, you know, power, like power coming into your house. So those large power systems all the way down to nanotechnology and microchips. I like to tell people I’m a real full stack engineer, so my wheelhouse is kind of from the PCD, the little green computer chips, all the way to the cloud. Over my career, I’ve had some pretty cool jobs. One of those things was I was a test engineer for the army. So I got to test weapons up at Aberdeen Proving Ground for the Army. So I got to drive those weapons and test them before they went to theater there. After that,I worked at United Launch Alliance down at Cape Canaveral where I launched five rockets.

Ricky Mason (04:07):

So I was a part of the electrical ground systems team there where we were responsible for all of the electrical systems on the rocket while it was on the pad. Somonitoring the temperature of the rocket, the fuel, the entire system for safety while it was on that pad. And then finally I worked at the CIA as a computer engineer building data centers and as a data center architect for some of our remote systems and virtualizing our systems. So kind of had a broad spectrum of things there. And then finally coming back to the University of Kentucky as a research engineer and faculty. I developed drone technology for monitoring crops. So flying drones over crops with LIDAR, just like self-driving cars with high-definition cameras to pull in data about those crops, to help farmers determine about pesticides fertilizers, and the overall health of their crops from a remote location.

Eric Cross (05:10):

It’s so neat to hear you talk about it and to see how this is all built up to what you do now with BrainSTEM. How would you explain what BrainSTEM is? I know that’s your, that’s kind of your baby right now and what you’ve been working on a few years.

Ricky Mason (05:23):

Yeah, man, we started BrainSTEM in 2019 officially, but I would say BrainSTEM has been almost 10 years in coming. While I was in undergrad, I played football at the University of Kentucky. But I got hurt going into my sophomore year and that kind of shattered my dreams of football. And that’s when I really got back into engineering. One of my professors asked me to come to a robotics competition and I saw these third graders and sixth graders programming robots. And I’m like, oh my God, they’re programming robots! And I had no idea how to code or what to do with these things. And where was this a when I was a kid? And so I immediately bought one of those robots and taught myself how to program it <laugh> and then we started a robotics team in Lexington,there at a church.

Ricky Mason (06:10):

And we got a sponsorship from Lexmark to start that team. And that was kind of my first leap into STEM and teaching STEM and creating programs for students in STEM. I did that in undergrad and like I said, fast forward 10 years later, I’m teaching at the University of Kentucky and we’re struggling to recruit STEM students. Why aren’t students going into STEM? I hear too many adults tell me, oh man, I wish I would’ve done engineering, or I started out in engineering, but I left engineering or I wish I could go back to school for engineering or learn to code. And I’m like, I asked them like, why didn’t you do this? What happened? And often it’s like, it was the math. It was, oh, I didn’t get into it until I was in college. And I’m like, well, that’s the key.

Ricky Mason (06:52):

I knew I wanted to do this in the fifth grade. And I started with a plan in the fifth grade to achieve these goals and dreams. And I started doing that research and realizing that the same problem existed that I had. There was no outlet for kids to get involved in STEM, and so many kids have an affinity for STEM an early age. So we started BrainSTEM to provide access to STEM education and exposure STEM careers, STEM professionals, and just to STEM fields as a whole, because too often kids may know about the term, engineer, or the term, scientists, but they don’t really know what those people do or have a strong connection with the field or have any hands-on projects that they kind of done around those things or met anyone like me.

Ricky Mason (07:42):

I didn’t meet an engineer until I was in college. So that has really been impactful for some of the students that we’ve been able to touch. I had a family reach out to me. They moved to Lexington from California and they were like, man, I really want my ninth-grade son to get involved in engineering. So we started a weekend program with that one student and it went amazing. Like we competed in science fairs, we applied for different college programs and things like that. So it became an entire like mentorship program. And I’m proud to say that a year ago, he actually graduated with his bachelor’s in electrical engineering from your side of town, UCSB. It was just awesome to actually see this come full circle. And that’s kind of one of the first things that we did before we actually formalized as BrainSTEM University.

Eric Cross (08:34):

What will be like your elevator pitch for a teacher? If you were gonna say, this is what BrainSTEM does. I have the luxury of going through it on the site, but since we’re on a podcast, how would you kind of pitch it to people letting them know, like what, what does it do? Who does it serve?

Ricky Mason (08:47):

Yeah. So BrainSTEM provides STEM curriculum and STEM magnets for schools and nonprofits looking to increase access to STEM for K through 12 students. We also have launched our BrainSTEM Metaversity, a metaverse product for teachers to take their 2D Google classroom and convert it into a 3D metaverse classroom where students can collaborate during a 3D class. So all of your students show up as their avatars that they can select from our inventory of 150 avatars, and enjoy class in a 3D gameified Minecraft like World.

Eric Cross (09:26):

So I made my avatar by the way. It’s kind of tight, I have to say, it’s kind of tight. Hey, I’m gonna share. So those of you in the podcasts I’ll share it so you can see it. You’re not gonna be able to see it right now, but since I have the man himself I gotta share it with him just so I can get a reaction. So can you see that?

Ricky Mason (09:43):

Yeah. <laugh> That’s so good.

Eric Cross (09:44):

I feel like I wanna look like him though. I want him in real life. Like I want be able to switch to looking like my avatar

Ricky Mason (09:52):

<Laugh>

Eric Cross (09:54):

That was the first thing that I jumped on, when I went on your site, was making the avatar and I had so much fun doing it. I actually took longer than I probably wanna admit cause I was like customizing everything

Ricky Mason (10:03):

Yeah, man. It’s so fun. And that’s exactly what, you know, when you can show up as the person you want, it changes your whole being. I’ve seen kids that are quiet in class. They show up as their avatar and they’re talkative, they’re asking questions, they’re moving around the room, interacting with other kids. I feel like it’s almost like a superpower just to put your avatar on.

Eric Cross (10:25):

So what is something that a teacher could have their students go and learn or do if they, if they signed up,

Ricky Mason (10:31):

Let’s kick it off. So how we started with the metaverses, was teaching coding. So our first class was Minecraft and Python coding in the metaverse. So students showed up in the metaverse with our virtual instructor, that instructor led a lecture in the metaverse and then those students could collaborate on their Python games. So, they created and built the game in Python. We shared those games in the metaverse and we have our leaderboards that are in the metaverse, as they’re completing these challenges, including these games, then sharing them back in the metaverse with other students and getting that feedback on their game. So we’ve seen huge excitement from students when I can come back in and see my friend’s work. Like too often, students don’t get to see their work and that’s motivation to do better when I’m like, Jim’s gonna see my work. It’s amazing to see that motivation when students are sharing their work with other kids and not just their parent or just them and the teacher or seeing their grades. It’s been really cool to see.

Eric Cross (11:33):

You have that genuine audience too. Like that real-time feedback. And then like an authentic audience for students that makes everything seem, it takes it up a notch.

Ricky Mason (11:42):

Yeah, man. And then as we have built on this platform, so like you said with that avatar, so think if you created a really cool looking avatar and other students wanted to be that avatar, we have a way of sharing that avatar back into the world and in the inventory so that other students could then be your avatar. Or, if you create a world, we could then share that world back into the inventory, so the teacher could have class in a world that you created.

Eric Cross (12:07):

They’re creating content, not just consuming it. They’re actually creating content that could be shared across like grade levels or students.

Ricky Mason (12:14):

Well, we’re gonna say right now it’s just within your classroom. Eventually yes, we want students to be able to share that across school districts. At least we think that data will be probably limited to those kinds of realms as far as schools go. But you’ll be able to share this across sixth grade. We’ll be able to see what everyone in the sixth grade is doing in their STEM class or their game development class or their history class, per se, even if they’re giving back a presentation or what we have here in JCPS is backpack skills of success, where students are presenting on things that they’re learning that relate back to core competencies that the district is focused on. And I think that sharing those in the metaverse and doing those in the 3D world will be an awesome experience for students.

Eric Cross (12:56):

Are you seeing anything else as far as those skills that we see that are needed in coding? Is there something that the VR adds that was distinct from maybe just a kid with a Chromebook in his class that it’s just him in isolation doing the coding? Was there any like aha moments or surprises when they’re in the VR world doing this?

Ricky Mason (13:13):

I think the biggest thing is we could actually show them real examples of code working in other ways. Sofor example, if we’re working through loops, we can show them something looping. We can relate these functions to real-world things happening in the VR world so that they can see and better relate the actual concept with visuals, if that makes sense. So, you’re in loop Allen the whole time you’re learning about loops. You’re immersed in that kind of world. What we’ve seen is students really start to, you know, they it pick up and it clicks a lot faster because some of these concepts are so abstract for students to understand, when we can relate them to things in that world that they see that are in front of them, that they can grasp before we go to okay, type in “while” “”parentheses” <laugh> they can thenrelate that and pick up on those clues a lot better after they’ve seen those things in the world.

Eric Cross (14:09):

So they can actually visualize it in the metaverse. Whereas outside of it, it’s more just, just text-based coding and they’re not isolated. Like the first thing I’m thinking about is how like, with my own students, when they’re learning Sratch or Python, it’s not easy to share back and forth because they all are on individual accounts and they’d have to go on a different computer, or we’d have to find some way to publish it. And then all the kids would have to access it. But it sounds like in the metaversity classrooms, it’s easy for students in that same class to see each other’s work. Am I getting that right?

Ricky Mason (14:37):

Yeah. So most of our classrooms are limited to 24 students and in some of our breakout classrooms, we limit them to about eight students. Everybody can share their screen, so students can share their screen in the metaverse. They can share their video in the metaverse. They can share documents in the metaverse. They can share their, like I said, their code or anything that they want to share with other students. They can kind of do that. So it’s been a really cool product, I think, for students to almost find independence to work within a group, in an online setting. As they’ve been working through these problems online and remote it’s been really cool to see how they use the metaverse and break out. Even in a class, they can go off into a section because it’s all spacial. If you walk away, I can’t hear your conversation. So they can go into a little section within a metaverse class and have their own breakout. And a teacher can walk over to them. Okay. You guys are working over here. Let me walk to my next group. Just like in class. So it’s been really cool to see those students use the metaverse like that.

Eric Cross (15:41):

Just listening to you talk about this. One of the exciting things about emerging technologies or taking what the private sector does, and someone with a mind like yourself, and go, how do I use this for education? Like, that’s something that like excites me and you’ve run with it. But I just thought about, you’re doing an hour of code, you’ve created this metaverse, and you can bring in somebody, a professional into the metaverse, but they’re in, you know, the Bay area, but they could be a software engineer for Tesla or Google or anybody. Could they move around the metaverse and take a look at different students’ work and interact in that way.

Ricky Mason (16:17):

Yeah, man, we get in there. We make metaverse selfies. I drop Lambos in the metaverse, we take picture with Lambos. We have scavenger hunts in the metaverse. It’s a really awesome experience. And that’s one of the big things I think that is so powerful, is like you said, we could have that engineer, that celebrity, we could have Travis Scott, you know, in the world meeting thousands of kids motivating them because they met their STEM goals. They met their, you know, their testing school goals or whatever. These are things that kids really care about. If I get the Travis Scott avatar or the Elon Musk avatar, because I completed the Elon Musk rocket challenge, like that’s huge for me to show up in class as that avatar, like it’s just like Fortnite and it’s bringing all of those mechanics into the classroom.

Eric Cross (17:07):

When I hear you talk about the metaverse and I hear you talk about the potential of where you want to go with it, I think about my own students, and I think about, how they would really have a genuine interest and desire to want to do this and probably be doing it when they don’t have to, like at home at night wanting to go back into it and interact. And, you’re also building this virtual community. I mean, are you seeing that like, cause I’m hearing that?

Ricky Mason (17:28):

Yeah, man, building that community is huge. And I often tell people all the time, I want the STEM community to be just like the basketball community, the football community. I want students to have that camaraderie built around them for learning STEM and participating in STEM activities and competitions. Because when you see students out there at a robotics, they have the same zeal, the same, you know, everything that you find at a football competition. So we just have to get behind them and back those events with the same enthusiasm that we back sports. And that’s the environment that I want to create for STEM students and for that STEM community, because I longed for that community when I was in school. And like I said, I had it in football, but I wanted both. I wanted the best of both worlds. I wanted my robotics guys and my football guys to show up together here at the competition and have a good time.

Eric Cross (18:23):

You’re absolutely right. Like robotics STEM, these things, community helps fuel like people’s interest and working together. And it brings people from the outside who are seeking that community. Like, hey, my friends are doing this, I wanna kind of check it out. That’s how we recruit a wider swath of our population into it. So it’s not this kind of very narrow channel of folks who are going into STEM.

Ricky Mason (18:45):

If you can’t find that community. I mean for me, I felt like I was the only one playing football who was interested in robotics. So I never told anybody because I didn’t feel like that related to anybody within my vicinity. So I kept that to myself and that’s the biggest thing. I think if we get these kids just talking more about their interests, because a lot of them are interested in robotics and space and these STEM topics, but they don’t have anyone that’s really nudging them or asking them or piquing their interest in those spaces and saying, hey man, it’s okay to, you know, learn about robots. It’s okay to geek out on space. <Laugh> So that’s been my goal and that’s kind of why I felt like this was the time in my career for me to kind of do this, be a face for STEM education and inspire kids to chase their goals and dreams. Over my career, I’ve had some really cool jobs, but I felt like I could keep doing cool jobs, but I’m like at the right age to still connect with those students and inspire them to chase their dreams. And that’s why I feel like right now, man, it’s just an opportune time to get these students involved in STEM.

Eric Cross (20:01):

We don’t get that. Oftentimes, when we’re solely doing the cool job or simply in the private sector, we don’t get those experiences as much as we do when we’re able to actually serve our community or students or take our passion, our skill set, and use it to serve another person. I hear that like, as you describe what you’re doing now is like, there’s something beyond just, you know, the using your skills and doing cool stuff, but there’s something I hear. That’s helping people and actually doing something you believe in that resonates deeply in you. And I can hear it as you talk about it.

Ricky Mason (20:30):

It’s been just amazing to actually chart out that journey. Like I said, and like tell kids, like, no man, I’m from right up the block from you, cause I mean, I’m building this back at home in my hometown. And that’s the reason why I kind of came back to kind of do that in my hometown, because I really want to, you know, relate to those students and inspire, you know, students here. Nobody thinks about technology coming out of Kentucky and that’s been a gift and a curse, I guess, with launching BrainSTEM in Kentucky. When I first started, I said, we’re a STEM education company, people are asking me what is STEM? So, that was where we started out with this in 2019, all the way to, you know, hey, in 2020, we’re gonna launch a metaverse. A metaverse! What is that? It’s been amazing to try to change the minds of not only Kentuckians about STEM and the importance of STEM, but the world that a metaverse company is coming outta Kentucky. <Laugh>

Eric Cross (21:31):

The work that you’re doing and, it exists beyond you and you probably know this, but as a Black science educator out here in San Diego … We don’t see people who look like all of us in this work often, and I saw that you had created something, a network group, network and chill. And that was one of the things, we had touched on community, but I thought that that was so huge because we need each other.

Ricky Mason (21:55):

I feel like that was the biggest thing for us in engineering. Like I showed up to my first internship and I’m like, I mean, my boss was cool. Everything else was cool, but I just didn’t feel like, hey, this is a community for me. And I almost changed my major because of that. But I’m glad that I didn’t, it’s huge to have more of us represented in, in these spaces.

Eric Cross (22:16):

And you know, in engineering, especially when we look at the disproportionate, you know, men versus women. Like it’s not, you know, it’s not just culture, but it’s, you know, gender, all of these different things. And if we’re gonna change it, I think a program like yours that gets exposure to all kids and then giving them choice. What advice would you give to students? Or what advice I should say, do you give to students now? When you see like your younger self in the different kind of K12 grades who are thinking about their futures or they’re thinking about STEM, what do you say to them?

Ricky Mason (22:46):

So my biggest advice, man is start now. Whatever that big thing is, that big dream is that you have, what is that now? You’re thinking about planes. You’re thinking about robots. You’re thinking about RC cars, whatever that is. Let’s start now. Let’s get your hands on an RC car. Let’s take it apart. Let’s start coding. Let’s start thinking about those problems now. But the biggest thing is, is getting kids used to solving tough problems. Typically, most students that have an affinity for, you know, STEM — and you just know that that kid’s gonna go into, STEM — they’re problem solvers. They’re typically looking and seeking those tough problems and seeking opportunities to learn. That’s where I feel like it’s parents’ jobs to provide that environment to foster, that zeal. A five-year-old kid, we started our STEM program with them at the beginning of this month.

Ricky Mason (23:39):

The first day I came in after I told him I was a rocket scientist. And now he’s like, well, I wanna be a pilot. I said, if you pay attention to this class, we’re gonna get you started on your way to being a pilot. And he knows all the parts of a rocket and he knows a rocket needs an oxidizer. And he knows the fuselage, the wings, the wing flaps. He knows all the different parts of the plane and how the forces, the drag, the lift, the weight, he knows how those are working cause we talked about those in class and he has so much more confidence and it came all to fruition when a kid said, wow, I thought it was gonna be really hard to be a robotics engineer. And I’m like, no, that’s not gonna be that hard. That is exactly what we set out to do when we started BrainSTEM, was to break down those barriers and those walls and build that confidence and say, look man, you can do this. It’s easy.

Eric Cross (24:26):

Society doesn’t help much either because one of our terms, right, if something’s really hard, or if something’s not hard, we say it’s not rocket science. That implies that rocket science is really hard and inaccessible. If kids would hear that it kind of instills in their brain, okay. It’s really hard, it’s probably too hard for me. To that point to parents, it sounds like a lot of just exposure, like giving students the opportunity to be able to be exposed to these things and letting them create wonder from it.

Ricky Mason (24:51):

Yeah, man. I often tell parents we’re gonna set kids up to go pro no matter what,

Eric Cross (24:56):

And those skill sets transfer, whether they decide to go into coding or they decide to manage a bank, you’re still gonna be dealing with people. You’re still gonna be problem-solving. You’re still gonna have to come up with creative solutions to things. It sounds like through a program like this, they learn those skills early.

Ricky Mason (25:12):

Yes. And I think that one thing that parents don’t think about … We talk about all the STEM and we want smart kids, but we need those soft skills also within STEM. So those competitions, getting them involved in those communities with STEM students is really huge in presenting their ideas because oftentimes, you know, our STEM guys, we’re in a lab working and that’s where we love and that’s where we wanna be because we haven’t, you know, been prepared to talk and present our ideas. So I think that’s a huge part of what we have to teach our STEM students. And we do that by providing that community and those opportunities for them to, you know, do that.

Eric Cross (25:47):

Thinking about where you are now, looking back on your K-12 education, were there any teachers that stood out to you or that inspired you as I even just say that, can you think of a particular teacher or one or two?

Ricky Mason (26:00):

When I think about my teachers, my teachers really taught me to solve those tough problems and those subjects that you don’t kinda like <laugh>, cause I was always a great student, but my teachers helped me to focus on those subjects that I didn’t so much, you know, enjoy. So I enjoyed math and science, but English social studies, like why do I have to be here? I had two teachers during my high school career that really supported me in that regard, and helping me to be the best student all aroundfrom like I said, STEM to English and social studies, and making me realize that I have to be a well-rounded student if I’m gonna be truly successful. As far as engineering, man, I would say one guy, my teacher, Nick Bazar up at John Hopkins. During my master’s there, I had a really cool project. I got to do data forensics on a real live murder case. <Laugh> That was really inspiring because I’m like, wow, this is real life where my coding skills are being used in a jury trial <laugh>. And so that was a really cool experience to partner with my professor to kind of do that. I mean, that was just mind blowing that I got to help with that and that, I mean, he was using his programming skills to help solve a murder case.

Eric Cross (27:22):

What’s the best way for people to connect with you and follow your journey? And if a teacher’s interested and they’re listening to this and they’re hearing, okay, this metaverse coding thing sounds awesome, I want to get involved, I wanna know more, where can people go? What steps should they take to be able to get connected to you and what you’re doing?

Ricky Mason (27:40):

Yeah. So you can check us out at brainSTEMu.com, that’s brainSTEM, the letter “u” dot com and on all social medias, we’re BrainSTEMu or BrainSTEM University. Teachers, right now, we are doing our free course for teachers. So sign up at brainstemu.com. You can sign up for your class to get into a free metaverse experience, just so you can kind of check it out and get your class into the metaverse and see how your students like the metaverse, how you like teaching in the metaverse and convert one of your 2D lessons from Google classroom into a metaverse classroom. For me, I’m Ricky Mason, 5 0 2 on all social media platforms. So you can just type that in Ricky Mason502 and get with me there.

Eric Cross (28:28):

Nice. Well Ricky, I wanna thank you for sharing your story and creating BrainSTEM. And then for, I know you’re a man of tremendous talents and skills and accomplishments, and you’re focusing all that on not only being back in your community, but also creating something for younger versions of you and opening up opportunities that they might not otherwise have, as you said, folks are like, what is STEM? And that is exactly where we need those seeds planted. So thank you for doing that.

Ricky Mason (28:55):

Oh man, this is awesome. I appreciate you, man for hosting this podcast and providing this platform and sharing the message of, you know, educators and people in the space.

Eric Cross (29:07):

Thanks so much for joining me and Ricky today. Make sure to support Science Connections by subscribing wherever you listen to podcasts. And you could hear more from Ricky in our Facebook group, Science Connections the community, where you can check out all the exclusive content. Until next time.

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What Ricky Mason says about science

“We just have to get behind [students] and back them with the same enthusiasm that we back sports…because I longed for that community when I was in school.”

– Ricky Mason

CEO, BrainSTEM

Meet the guest

Ricky Mason is the dynamic CEO and founder of BrainSTEM, an ed-tech company that developed a metaverse for education. His corporate career included lead engineer roles at the DoD, NASA, and CIA. Ricky transitioned to education as adjunct faculty at the University of Kentucky. While there, he started BrainSTEM to bring innovative technology and an inspirational curriculum to STEM education. Today, BrainSTEM serves public school districts, private schools, and nonprofits.

Follow Ricky on all social media @rickymason502

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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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Committed to reading equity

We believe that all students have the right to read complex texts and engage in rich classroom discussions. They should also see themselves reflected and experience new worlds through reading.

This commitment guides our text selection, unique artwork, and dedication to reaching every student where they are.

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Text selection

Texts in the Amplify ELA curriculum cover a wide range of topics, themes, and genres, with differentiated supports that ensure that all students can work through each reading and lesson. Taken as a whole, the texts show students a diverse picture of the world, while fostering a lifelong love of reading.

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In the Liberty & Equality unit, students reflect on the harrowing journeys and avenues to freedom that enslaved African-Americans were forced to forge.

Character & Conflict

Students read A Raisin in the Sun, a play that focuses on the impact of poverty and racial tensions on family relationships and identity within an African-American family.

Summer of the Mariposas

In the Summer of the Mariposas unit, students dive into a retelling of the Odyssey through a contemporary Hispanic lens as they explore sibling and extended-family relationships.

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In the Perspectives and Narrative unit, students explore a coming of age moment for an adolescent daughter of immigrant parents.

Red Scarf Girl

In the Red Scarf Girl and Narrative unit, students learn about a key historic moment in Asian and world history, while making connections to relatable themes like authority figures imposing rules on children, and family and peer loyalties standing at odds.

Mysteries & Investigations

In the Mysteries & Investigations unit, many of the texts present an ethnically and culturally diverse group of characters, including many pre-teen or teen protagonists rebelling against authority, navigating their relationships with their peers and families, and figuring out their unique identities.

Created with diverse perspectives

With our new illustrations, time spent in our classrooms will feel relevant and relatable to every student. We’ve brought together an art team with unique perspectives and visual styles so that their diversity can shine along with the
complex texts in our curriculum, and illuminate their relationship with our literature. Everyone deserves to see themselves as the hero of a story. It is our hope that our students will find themselves within our program, and will be ever more curious in their learning, and engaged in their reading.

https://youtu.be/_FLV_Le7Zoc
A person sits at a desk with art supplies, flowers, and plants, speaking on camera. An orange play button overlays the image, indicating a video. A colorful artwork hangs on the wall behind them.
Paige Womack

Dive into the world of Mysteries &
Investigations with Dr. Womack,
the illustrator who may have once
become a scientist…

A person sits on a couch in a room decorated with colorful artwork and a wooden sculpture; a play button icon is overlaid at the center.
Tre McClendon

Meet Tre, a seeker and traveller that became homies Fredrick Douglass through illustrating his narrative for our program…

A woman with long dark hair in a red top sits indoors near a window with yellow flowers and colorful decorations; a play button overlay is at the center.
Jackie Pierson

There’s no one way to be a maker, and Jackie certainly has made a lot of things. Check out the weird and mysterious world of her miniatures…

A person with curly hair and hoop earrings speaks indoors, with colorful posters and decorations visible in the background. An orange play button overlays the image.
Elizabeth Dantzler

She’s been drawing characters and comics ever since middle school. Now see the drama of Edel’s work in the mythos of the Greeks…

A woman stands in front of a wall covered with colorful artwork. An orange play button icon is overlaid on the center of the image.
Caroline Hadilaksono

Travel through countries and narratives with Caroline, as she shares her delicate watercolors for illustrating the hero’s journey…

A man with short brown hair and a beard sits at a desk near a window, with artwork displayed on the wall behind him. An orange play button is centered over the image.
Patrick Mahony

The haunting work that Patrick creates will leave you feeling a sense of melancholy and longing, but not without hope for the future…

A woman in a red blazer sits in an office with open books and art prints on the wall. An orange play button is overlaid in the center of the image.
Edel Ferri

She’s been drawing characters and comics ever since middle school. Now see the drama of Edel’s work in the mythos of the Greeks…

A man in a light blue shirt speaks while seated in a creative workspace with colorful artwork and sketches displayed on the wall behind him.
Eddie Pena

As a latino American, Eddie is an illustrator, a father, and a teacher. He is working in collaboration with Poetry in America to use his heritage as inspiration…

A woman sits in front of a wall covered with colorful educational posters, partially obscured by a large play button icon in the center.
Tory Novikova

Listen to a word from Tory, the Art Director at Amplify, on how the vision
was set for the project and how she brought the team together that would get to illustrate ELA…

Fanart

Here is a library of all the inspiring art that our beloved fans have submitted for our program. Do you or your students have a favorite literary character from our program? Send us your fanart to be shared with our community here!

Enter contest
A collage of various portrait illustrations and drawings, including stylized faces, historical figures, animals, and astronauts, in both color and black and white.

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, Atlanta reviewers!

To view this protected page, enter the password below:



¡El programa de Amplify Science da la bienvenida a las familias!

Nos complace darle la bienvenida a usted y a su estudiante al programa de Ciencias en el nuevo año escolar y brindar a su estudiante excelentes oportunidades educativas a través de nuestro programa.  A continuación incluimos una serie de recursos y guías útiles para ayudar a que su estudiante aproveche al máximo nuestra plataforma a lo largo del año. For English version, please click here.

¿Qué es Amplify Science?

Amplify Science es un currículo escolar estimulante para los grados K–8 que fue diseñado por expertos del Lawrence Hall of Science de UC Berkeley. A medida que usted explore el programa, notará que es diferente de cualquier otro currículo de ciencias que haya visto. Esto se debe a que en los últimos años, la enseñanza de las ciencias ha ido alejándose de las lecciones centradas en datos, tales como aquellas que requieren memorización, y actualmente favorece una modalidad enfocada en el aprendizaje en profundidad con actividades de investigación y resolución de problemas de la vida real. Este cambio en la enseñanza y el aprendizaje de ciencias está reflejado en los nuevos estándares nacionales de ciencias (Estándares de Ciencias para la Próxima Generación) y, como se lo imagina, en Amplify Science.

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Para comenzar

Si bien las lecciones de Amplify Science fueron diseñadas para su uso en el salón de clases con un grupo de alumnos, hay algunas actividades que los estudiantes pueden hacer en casa con su apoyo. Antes de dar inicio a dichas actividades, recomendamos que lea el artículo Proteja a los niños en internet de la Comisión Federal de Comercio sobre seguridad digital.

Resumen de los recursos

Amplify Science integra las mejores técnicas de enseñanza y aprendizaje de ciencias. Los estudiantes tendrán numerosas oportunidades de usar materiales para el aprendizaje práctico, participar en lecturas, redactar argumentos científicos respaldados por evidencia y explorar aplicaciones digitales.

Cuatro íconos etiquetados que representan diferentes actividades: "Amplify Science Español" con equipo científico, "lectura" con un libro, "redacción" con un bloc de notas y "aplic

Mire el siguiente video para ver una presentación breve del enfoque y la estructura del programa Amplify Science.

Una alianza poderosa

Amplify Science es el resultado del trabajo colaborativo de expertos en la enseñanza de ciencias de Amplify y del Lawrence Hall of Science (LHS) de UC Berkeley. El equipo de expertos en ciencias, matemáticas, ingeniería y lectoescritura de LHS desarrolló el contenido del programa, mientras que el equipo de diseñadores e ingenieros de Amplify creó las herramientas y componentes que dan vida a las lecciones.

Haciendo clic aquí verá más información sobre el Lawrence Hall of Science.

Explore los recursos del nivel escolar correspondiente

Escuela primaria (K–5) Escuela intermedia (6–8)

Sepa dónde encontrar ayuda

¡Nuestro compromiso es brindarle ayuda!

¿Tiene alguna pregunta sobre Amplify Science?

Ingrese a nuestra biblioteca de ayuda para encontrar artículos con las respuestas a sus preguntas sobre el programa. Si necesita ayuda adicional con el currículo, comuníquese con el maestro o la maestra de su estudiante.

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Technology integrations

Amplify creates products that work well in classrooms and save educators time. To do that, we support interoperable data standards that help our products integrate with a variety of systems used by schools and districts.

Integration partners

Learn more about our integration partners for rostering, Single Sign-On (SSO), Learning Management Systems, and more.

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Agilix Buzz

Teachers, students, and administrators can enjoy a more seamless experience through single sign-on by accessing Amplify directly through Agilix Buzz and by syncing grades from applicable Amplify products to Agilix Buzz.

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Canvas

Amplify provides single sign-on for direct access to our products through Canvas and enables grade sync from Amplify to Canvas for applicable products.

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Amplify programs work with ClassLink to provide rostering and single sign-on solutions.

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Clever

Amplify programs work with Clever to provide rostering and single sign-on solutions.

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D2L

Teachers, students, and administrators can enjoy a more seamless experience through single sign-on and by accessing Amplify directly through D2L.

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SchoolDay

Amplify programs work with SchoolDay to provide rostering and single sign-on solutions.

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Google

Amplify programs work with Google to provide rostering and single sign-on solutions. Additionally, our system integrations let teachers assign and share content from applicable Amplify programs to students in Google Classroom.

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Safari Montage

Teachers, students, and administrators can enjoy a more seamless experience through single sign-on and by accessing Amplify directly through Safari Montage.

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Schoology

Teachers, students, and administrators can enjoy a more seamless experience through single sign-on, by accessing Amplify products directly through Schoology, and by syncing grades from applicable Amplify products to Schoology.

Amplify supports these integrations in alignment with our Data Privacy and Security Practices.

Certifications

Amplify is proud to help improve interoperability across the edtech community as a contributing member of the 1EdTech Consortium. We have earned a variety of certifications that enable Amplify products to adhere to interoperable standards.

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1EdTech TrustEd Apps Certified logo featuring a circular arrow graphic above the certification text.
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Are you an Amplify customer?

For access to interoperability information, contact the customer care and support team or +1 (800) 823-1969.

Want to learn more? Reach out to Sales.

CONNECT WITH A PRODUCT EXPERT.

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

Amplify Science is a proven effective core curriculum designed for three-dimensional, phenomena based learning that provides an immersive experience for students.

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.

Grounded in Research

UC Berkeley’s Lawrence Hall of Science, the authors behind Amplify Science, developed the Do, Talk, Read, Write, Visualize approach, and gold standard research shows that it works. Our own efficacy research is pretty exciting, too.

See more of our research.

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 your local Arkansas Account Executive, Marty Pitts, mpitts@amplify.com.

Review now

Instructional samplers

Kindergarten

Grade 1

Grade 2

Grade 3

Grade 4

Grade 5

Grade 6

Grade 7

Grade 8

Resources to support your review

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.

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 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

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
  • Traits and Reproduction
  • Thermal Energy
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Earth’s Changing Climate Engineering Internship

Grade 7
  • Launch: Geology on Mars
  • Plate Motion
  • Plate Motion Engineering Internship
  • Rock Transformations
  • Phase Change
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems

Grade 8
  • Launch: Harnessing Human Energy
  • Force and Motion
  • Force and Motion Engineering Internship
  • Magnetic Fields
  • Light Waves
  • Earth, Moon and Sun
  • Natural Selection
  • Natural Selection Engineering Internship
  • Evolutionary History

Remote and hybrid learning support

Amplify provides a remote learning solution called Amplify Science @OnDemand. Intended to make extended remote learning and hybrid learning easier, Amplify Science @OnDemand includes two useful options for continuing instruction: @OnDemand Videos and @OnDemand Units. These videos also provide embedded professional development for teachers as well as opportunities for students to review a lesson, if needed.

Amplify Science @OnDemand 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@OnDemand Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @OnDemand Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. @OnDemand Units will be developed for all Amplify Science K–8 units. Each @OnDemand unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @OnDemand 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:

  • @OnDemand Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home.
  • Downloadable @OnDemand 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 your Arkansas representative:

Portrait of an elderly woman with white hair, smiling, wearing a black blazer against a light brown background.
Marty Pitts

Senior Account Executive
mpitts@amplify.com
(214) 945-5544

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Mark Ramos

Inside Account Executive
mramos@amplify.com
(737) 308-4822

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Careers

We’re looking for innovators and optimists to join us in developing next-generation curriculum and assessment programs for K–12 schools.

View open positions

Who we are

Remote first. Brooklyn based. In person sometimes. Amplify is powered by a collaborative team of education, technology, and creative professionals who develop next-generation programs that inspire teachers and students to do their best work.  Apply for one of our open positions.

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People and culture

Amplify is a purpose-driven community where cross-functional teams work together to create high-quality programs.

Share our view.

With headquarters in Brooklyn’s DUMBO neighborhood, we’re at the center of New York’s thriving tech and creative community.

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Get inspired.

We take an agile approach that enables us to adapt our programs to the needs of teachers and students. Collaboration helps us stay innovative.

Meet the team.

Our common purpose drives us to work across disciplines to develop next-generation solutions for the classroom. Meet some of our team members.

Meet the team
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Leadership

Amplify’s leadership includes executives and board members from the fields of education, technology, design, business, and media.

Our team

Hiring practices

We hire and develop people with the broadest range of talents, life stories, and experiences, and together we build a cohesive team. We follow fair hiring practices and create an environment where team members feel valued, empowered, and heard.

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Amplify workplace awards

Three people collaborate at a laptop. Text on image reads "Built In: The Best Places to Work, 2024 Winning Workplace!.

Best fully remote places to work

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The most transformational growth co…

Tech & Learning Awards of Excellence 2023 Back to School badge for Primary Education Winner.

Excellence in back to school 2023

100-Hybrid-award-logo

Top 100 companies hiring hybrid job…

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Inclusion is at the core of what we…

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Building a workplace that supports…

What we offer

Amplify employees report feeling engaged and eager to come to work every day. They’re motivated by our mission of improving the lives of teachers and students. And learning isn’t just for the students we serve—we are dedicated to providing our employees opportunities for ongoing growth. Explore our benefits in detail.

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Full benefits

Our health insurance options include health, dental, and vision coverage for spouses, domestic partners, and children—effective on your date of hire. We make a generous contribution to all employee HSA plans, which can be used to cover eligible health expenses. We offer unlimited paid time off, a 401(k) plan with an employer match, long- and short-term disability, and employer-sponsored employee life insurance. We offer paid parental leave, backup childcare and backup eldercare. On top of all that, we also provide our full-time employees with a robust voluntary benefits program that includes coverage options for everyone in the family, including pets.

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Opportunities for inspiration

Amplify believes in the importance of supporting charitable nonprofits in the communities where we live and work. We encourage employees to support organizations that promote the welfare of children and families in the areas of education, health, and social services. One way for employees to give back is through our Volunteer Time Off program, which allows employees to take 16 hours each year to contribute to an eligible charitable or nonprofit organization.

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Tuition reimbursement

Full-time employees who are enrolled in an accredited college or university course related to their areas of work are eligible to receive tuition reimbursement.

We’re hiring.

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