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Customer Privacy Policy

Last Modified: January 23, 2026 | Update History

Most recent update: This Privacy Policy has been updated to address additional rights for individuals in the European Union/UK.

We advise you to read this Privacy Policy in its entirety, including the jurisdiction-specific provisions in the appendix. Click here to review Our U.S. Notice At Collection.

Customer Privacy Policy: K–12 Schools

Who We Are

Amplify Education, Inc. (“Amplify”) is leading the way in next-generation curriculum and assessment. Amplify’s programs provide teachers with powerful tools that help them understand and respond to the needs of each student and use data in a way that is safe, secure, and effective.

Our Products and Services

Amplify’s products support classroom instruction and learning and include Amplify CKLA, Amplify ELA, Amplify Caminos, Amplify Science, Amplify Desmos Math, Boost Reading, Boost Math, mCLASS, Mathigon, associated professional development and tutoring services, and services at classroom.amplify.com (for creating and assigning activities) and student.amplify.com (for use of the activities or curricula as directed by an instructor), and any other product or service that links to this Privacy Policy (together, the “Products”).

Our Approach to Student Data Privacy 

In the course of providing the Products to Schools and their Authorized School Users, Amplify collects, receives, generates, or has access to Student Data (defined below). We consider Student Data to be confidential and we collect and use Student Data solely for educational purposes in connection with providing our Products to, or on behalf of the School as described in this Privacy Policy and our Agreements (defined below). We work to maintain the security and confidentiality of Student Data that we collect or store, and we enable Schools to control the use, access, sharing, and retention of Student Data.

Our Products are geared towards K–12 students (“Students”), and the educators, agents and staff members who use the Products as authorized by their School (“Educators”). Information that directly relates to an identifiable Student (“Student Data”) is owned and controlled by the School, and Amplify receives Student Data as a “school official” under Section 99.31 of the Family Educational Rights and Privacy Act of 1974 (“FERPA”) for the purpose of providing the Products hereunder. In addition, we rely on the School acknowledging that it is acting as the parent’s agent and consenting on the parent’s behalf to process personal information of Students under the age of 13 (“Child Users”) in accordance with the Children’s Online Privacy Protection Act (“COPPA”).

Our collection and use of Student Data is governed by our Agreements with Schools, including this Privacy Policy (“Privacy Policy”), and applicable laws which may include FERPA, COPPA, the Protection of Pupil Rights Amendment (“PPRA”), as well as other applicable federal, state, and local privacy laws and regulations (“Applicable Laws”). As noted above, with respect to FERPA, Amplify receives Student Data as a “school official” under Section 99.31 of FERPA for the purpose of providing its Products, and such Student Data is owned and controlled by the School.

Schools may provide authorization in two ways:

  1. by the School agreeing to our Customer Terms and Conditions located at amplify.com/customer-terms or another written agreement between Amplify and the School, as applicable; or
  2. by an Educator agreeing to the Acceptable Use Policy located at amplify.com/acceptable-use-policy/ (“AUP”) on behalf of the School as outlined in the AUP.

In each case, we collect Student Data and provide these Products solely for the use and benefit of the School and for no other commercial purpose. We require all Schools to review this Privacy Policy, available at amplify.com/customer-privacy, and to make a copy of the Privacy Policy available to the parents or guardians of Child Users.

We also provide limited opportunities for individual users to sign up for an account for use of our Products at-home or otherwise outside of the authorization of a School (“Home Users”). See the Appendix–Supplemental Disclosures for additional information that applies to our Home Users.

What This Privacy Policy Covers 

This Customer Privacy Policy (“Privacy Policy”) describes how Amplify collects, uses, and discloses personal information through the provision of Products.

For purposes of this Privacy Policy, “you” and “your” means Authorized Users (defined below).

This Privacy Policy does not apply to Amplify’s handling of:

  • information collected from users of Amplify’s company website, which is governed by our Website Privacy Policy.
  • job applicant data that we process in accordance with our applicant privacy notice.

There may be different contractual terms or privacy policies in place with some Schools. Such other terms or policies supersede this Privacy Policy for information collected or released under those terms. If you have any questions as to which legal agreement or privacy policy controls the collection and use of your personal information, please contact us using the information provided below. Unless expressly superseded, this Privacy Policy is incorporated into and is subject to the Agreement that governs your use of the Products.

Our Role

Amplify as a processor/service provider: Our School customers are the controllers of Student Data (as well as certain other Educator personal information to the extent required by law or Amplify’s agreement with the School) (together “School Data”).

Amplify acts as a processor/service provider for our School customers with respect to School Data, which means when we use School Data, we do so solely on the instruction of the School. School Data is subject to the School’s privacy policies; therefore, you will need to contact the School directly if you have any questions or would like to exercise your rights with respect to School Data.

Amplify as a controller: We are the controller of all other personal information we collect from non-Student Authorized Users (“Amplify Data”) and can be reached by email at privacy@amplify.com or by mail at Amplify Education, Inc., 55 Washington St.#800, Brooklyn, NY, 11201.

Policy

1. Definitions

Capitalized terms not defined in this section or elsewhere in this Privacy Policy will have the meaning set forth by Applicable Laws.

Agreement” means the underlying contractual agreement between Amplify and the School.

Authorized Users” means all users of our Products, including Authorized School Users, parents and legal guardians, and Home Users.

Authorized School Users” means Students and Educators.

Local Education Authority” means a local education agency or authority, school district, school network, independent school, or other regional education system.

Non-Student Data” means information that is linked or linkable to Authorized Users who are not Students.

School” means the Local Education Authority or State Agency.

State Agency” means the educational agency primarily responsible for the supervision of public elementary and secondary schools in any of the 50 states, the Commonwealth of Puerto Rico, the District of Columbia, or other territories and possessions of the United States, as well as a national or regional ministry or department of education in other countries, as applicable.

2. What personal information do we collect?

When you access or use our Products, you may choose to provide us with personal information, including Student Data. This information may be provided to us directly (e.g. when an account is created or through communications with us) or through your interactions with our Products.

Student Data. Below is a list of the categories of Student Data that may be collected by Amplify or its Products, either directly or through the Authorized School User’s use of the various features and configurations of the Products:

  • Identifier and Enrollment Data, such as name, email, school / state ID number, username and password, grade level, homeroom, courses, teacher names.
    • Why? Most of Amplify’s Products require some basic information about who is in a classroom and who teaches the class—Student or teacher Identifier and Enrollment data. This information is provided to Amplify by the School, either directly from the School’s student information system or via a third party with whom the School contracts to provide that information.
  • Demographic Data, such as date of birth, socioeconomic status, race, national origin, and preferred or primary language.
    • Why? To support school instructional and reporting requirements, Amplify’s Products allow Schools to view reports and analyze data using Demographic Data. Generally, Demographic Data is provided on a voluntary basis by the School. For example, a School may wish to analyze Student literacy assessment results based on English Language Learner status to better tailor classroom instruction, and in that case, the School may provide Demographic Data to enable that reporting.
  • School Records, such as grades, attendance, assessment results, and whether an Individualized Education Plan (IEP or local equivalent) is in place.
    • Why? Some of our Products support grading assignments and administering formative, diagnostic, and curriculum-based assessments. Teachers use that information to support Students’ progress in the program or help with instructional decisions. We do not collect specific details from an IEP, nor do we collect protected health information or other sensitive information.
  • Schoolwork and Student Generated Content, which includes any information contained in Student assignments and assessments, including information in response to instructional activities and participation in collaborative or interactive features of our Products, such as Student responses to academic questions and Student-written essays, as well as images, video, and audio recordings.
    • Why? As part of the digital learning experience, some of our Products may enable Students to write text and create and upload images, video, and audio recordings. For example, in Amplify ELA, students may write essays or submit short-form responses in our platform as part of a lesson on literature. As another example, in Boost Reading, student interactions with reading skills games are recorded to keep track of the student’s progress to level up in the program and to provide visibility to teachers on how students are mastering the skills.
  • Teacher Comments and Feedback, such as scores, written comments, or other feedback that Educators may provide about Student responses or student course performance.
    • Why? To enable teachers to track the performance and provide feedback to their students.
  • Non-Student Data. We may collect the following types of personal information from all other Authorized Users:
    • Contact Information, such as name and email address, as well as grade level taught, school name and school location, whether you are an Educator or Home User that creates an account or uses our Products or communicates with us.
    • Account Information, such as user login and password, for account creation and access purposes.
    • Survey Responses, which you provide in response to surveys or questionnaires.
  • Device and Usage Data. Depending on the Product, we may collect certain information about the device used to connect to our Product, such as device type and model, browser configurations, and persistent identifiers, such as IP addresses and unique device identifiers. We may collect device diagnostic information, such as battery level, usage logs, and error logs, as well as usage, viewing, and technical information (e.g., email open rates), such as the number of requests a device makes, to ensure proper system capacity for all Authorized Users. We may collect IP addresses and use that information to approximate device location to support operation of the Product. To the extent that we collect this information, this data is solely used to support operation of the Product and is not linked to Student Data. For purposes of clarity, Amplify does not use Student Data for marketing or advertising purposes (see section 6 of this Privacy Policy for more information about our commitments regarding Student Data).
    • Why? We use this information to remember returning users and facilitate ease of login, to customize the function and appearance of the Products, and to improve the learning experience. This information also helps us track product usage for various purposes, including website optimization, to ensure proper system capacity, troubleshoot and fix errors, provide technical assistance and customer support, provide and monitor the effectiveness of our Products, monitor and address security concerns, and compile analytics for product improvement and other internal purposes.
    • How? Cookies and Similar Technologies. We collect device and usage data through “cookies,” Web beacons, HTML5 local storage, and other similar technologies, which are used in some of our Products solely to support operation of the Products as described above. While we may use third party cookies and similar technologies for advertising and marketing purposes on our website (in accordance with our Website Privacy Policy), we do not permit such tracking technologies to be present on Student-facing portions of the Products. In particular, we only use the following types of cookies in our Products:
      • Strictly necessary cookies – These are cookies that are required for the operation of our websites and applications that host our Products. They include, for example, cookies that enable you to log into secure areas of our Products. These cookies are not generally stored beyond the browser session and are less likely to include personal information. This category of cookies cannot be disabled.
      • Functionality Cookies – We use these cookies so that we recognize you on the websites and apps that host our Products and remember your previously selected preferences. These cookies are stored on your device between browsing sessions but expire after a pre-defined period. These cookies enable us to “recognize” you when you use our Products, including your preferences such as your preferred language, time, and location. A mix of first party (placed by us) and third-party cookies (placed by third parties) are used.
      • Performance Cookies – These cookies help us and service providers acting on our behalf compile statistics and analytics about users of our Products that are accessed via websites and apps, including Device and Usage Information.
    • Learn how to opt out of cookies and similar technologies by reading the “What Rights and Choices Do You Have?” section of this Privacy Policy below.

3. How do we use personal information?

Student Data. Amplify uses Student Data for educational purposes, to provide the Products, and to ensure secure and effective operation of our Products, including:

  • to provide and improve our educational Products;
  • to support School and Authorized School Users’ activities;
  • to ensure secure and effective operation of our Products;
  • for purposes requested or authorized by the School or Authorized School User or as otherwise permitted by Applicable Laws;
  • for customer support purposes, to respond to the inquiries and fulfill the requests of the School and their Authorized School Users;
  • to enforce Product access and security controls; and
  • to conduct system audits and improve protections against the misuse of our Products, or to detect and prevent fraud and other harmful activities.
  • to enable the adaptive and personalized learning features of the Products.

Non-Student Data. Amplify may use Non-Student Data for the purposes for which Student Data is used as set forth above. In addition, Amplify may use Non-Student Data to provide customized content, advertising and marketing in limited circumstances (e.g. to periodically send newsletters and other promotional materials) directed to Educators and Home Users. For sake of clarity, we do not use Student Data for marketing purposes and we do not direct marketing to Students. Amplify may also use Non-Student Data for internal research and analytics, including generating insights on the use of our Products by Educators in certain Schools so that we can better serve those communities. We will also use Non-Student Data as otherwise required or permitted by law, or as we may notify you at the time of collection. Learn how to opt out of these communications by reading the “What Rights and Choices Do You Have?” section of this Privacy Policy below.

Amplify may use aggregate or de-identified data as described in the Aggregate/De-identified Data section below.

4. To whom do we disclose personal information?

Student Data. We disclose Student Data to third parties only as needed to provide the Products under the Agreement, as directed or permitted by the School or Authorized School User, and as required by law. Such disclosures may include but are not limited to the following:

  • to other Authorized School Users of the School entitled to access such data in connection with the Products;
  • to our service providers, subprocessors, or vendors who have a legitimate need to access such data in order to assist us in providing or supporting our Products, such as platform, infrastructure, and application software. We contractually bind such parties to protect Student Data in a manner consistent with those practices set forth in this Privacy Policy and in accordance with Applicable Laws. A list of Amplify subprocessors is available at https://www.amplify.com/subprocessors;
  • to comply with the law, respond to requests in legal or government enforcement proceedings (such as complying with a subpoena), protect our rights in a legal dispute, or seek assistance of law enforcement in the event of a threat to our rights, security, or property or that of our affiliates, customers, Authorized Users, or others;
  • in the event Amplify or all or part of its assets are acquired or transferred to another party, including in connection with any bankruptcy or similar proceedings, provided that successor entity will be required to comply with the privacy protections in this Privacy Policy with respect to information collected under this Privacy Policy, or we will provide the School with notice and an opportunity to opt out of the transfer of such data prior to the transfer; and
  • except as restricted by Applicable Laws or contracts with the School, we may also share Student Data with Amplify’s affiliated education companies, provided that such disclosure is solely for the purposes of providing Products and at all times is subject to this Policy.

Non-Student Data. Amplify discloses Non-Student Data for the purposes for which Student Data is used as set forth above. Amplify may also disclose Non-Student Data as otherwise required or permitted, or as disclosed at the time of collection. Please note that we do not share mobile information or opt-in consent with third parties / affiliates for their own marketing or promotional purposes.

5. Aggregate/De-identified data

Amplify may use de-identified or aggregate data for purposes allowed under FERPA and other Applicable Laws, to research, develop, and improve educational sites, services, and applications and to demonstrate the effectiveness of the Amplify Products. Amplify will not attempt to re-identify de-identified data. We may use aggregate information (which is information that has been collected in summary form such that the data cannot be associated with any individual) for analytics and reports. For example, our promotional materials may note the total number of students served by our programs in the prior year, but that information cannot be used to identify any one student. We may also share de-identified or aggregate data with research partners to help us analyze the information for product improvement and development purposes.

Records and information are de-identified when all personal information has been removed or obscured, such that the remaining information does not reasonably identify a specific individual. We de-identify Student Data in compliance with Applicable Laws and in accordance with the guidelines of NIST SP 800-122. Amplify has implemented internal procedures and controls to protect against the re-identification of de-identified Student Data. Amplify does not disclose de-identified data to its research partners unless that party has agreed in writing not to attempt to re-identify such data.

6. Data prohibitions, Advertising, Advertising limitations

Amplify will not:

  • sell Student Data to third parties;
  • use or disclose Student Data to inform, influence, or enable targeted advertising to a Student based on Student Data or information or data inferred over time from the Student’s usage of the Products;
  • use Student Data to develop a profile of a Student for any purpose other than providing the Products to a School or Authorized School User, or as authorized by a parent or legal guardian;
  • use Student Data for any commercial purpose other than to provide the Products to the School or Authorized School User, or as permitted by Applicable Laws.

7. External third-party services

This Privacy Policy applies solely to Amplify’s Products and practices. Schools and other Authorized Users may choose to connect or use our Products in conjunction with third-party services and Products. Additionally, our sites and Products may contain links to third-party websites or services . This Privacy Policy does not address, and Amplify is not responsible for, the privacy, information, or other practices of such third parties. Schools should carefully consider which third-party applications to include among the Products and services they provide to Students and vet the privacy and data security standards of those providers.

Authorized Users may be able to log in to our Products using third-party sign-in services such as Clever, ClassLink or Google. These services authenticate your identity and provide you with the option to share certain personal information with us, including your name and email address, to pre-populate our account sign-up form. If you choose to enable a third party to share your third-party account credentials with Amplify, we may obtain personal information via that mechanism. You may configure your accounts on these third-party platform services to control what information they share.

8. Security

Amplify maintains a comprehensive information security program and uses industry standard administrative, technical, operational, and physical measures to safeguard Student Data in its possession against loss, theft and unauthorized use, disclosure, or modification. Amplify performs periodic risk assessments of its information security program and prioritizes the remediation of identified security vulnerabilities. Please see https://amplify.com/security for a detailed description of Amplify’s security program.

In the event Amplify discovers or is notified that Student Data within our possession or control was disclosed to, or acquired by, an unauthorized party, we will investigate the incident, take steps to mitigate the potential impact, and notify the School in accordance with Applicable Laws.

Non-Student Data

Outside of Student Data, Amplify uses commercially reasonable administrative, technical, personnel, and physical measures to safeguard personal information in its possession against loss, theft, and unauthorized use, disclosure or modification.

9. Data Storage and Transfers

We are a United States Company, and our servers are hosted, managed, and controlled by us in the United States. If you are outside of the United States, we use industry standards to protect your data when it leaves your country of residence and your data will always be protected in accordance with this Privacy Policy, Applicable Laws and our Agreement regardless of the storage location.

Additionally, where we transfer your personal information to service providers outside of the United Kingdom (UK), European Economic Area (EEA), or other region that offers similar protections, we use specific appropriate safeguards to contractually obligate such service providers to protect personal information in accordance with Amplify’s commitment to privacy and security and applicable data protection laws.

If you have questions or wish to obtain more information about the international transfer of your personal information or the implemented safeguards, please contact us using the contact information below.

10. Data Retention / Deletion

Student Data

Upon request, we provide the School the opportunity to review and delete the personal information collected from Students. We will retain Student Data for the period necessary to fulfill the purposes outlined in this Privacy Policy and our Agreement with the School. We do not knowingly retain Student Data beyond the time period required to support the School or Authorized School User’s educational purpose, unless authorized by the School or Authorized School User. Upon request, Amplify will return, delete, or destroy Student Data stored by Amplify in accordance with applicable law and customer requirements. We may not be able to delete all data in all circumstances, such as information retained in technical support records, customer service records, back-ups, and similar business records. All such information will be protected in accordance with this Privacy Policy and our Agreement until it has been permanently deleted. Unless otherwise notified by the School, we will delete or de-identify Student Data after termination of our Agreement with the School.

Non-Student Data

Outside of Student Data, we keep personal information as long as it is necessary or relevant for the practices described in this Privacy Policy or as otherwise required by our Agreement with the School, if applicable. We determine the appropriate retention period for personal information on the basis of the amount, nature and sensitivity of the personal information being processed, the potential risk of harm from unauthorized use or disclosure of the personal information, whether we can achieve the purposes of the processing through other means, and on the basis of applicable legal requirements (such as applicable statutes of limitations).

11. What rights and choices do you have?

What Choices Do You Have?

Marketing/Advertising

As noted above, we do not use Student Data for marketing purposes and we do not direct marketing to Students. Amplify does not use third party cookies and similar technologies for advertising and marketing purposes on Student-facing portions of the Products. The choices below apply to Non-Student Authorized Users.

Opt-out of Marketing Communications. If you want to stop receiving promotional materials from Amplify, you can follow the unsubscribe instructions at the bottom of each email or email us at privacy@amplify.com. Amplify does not send marketing communications to Students.

Opt-out of Cookies and Similar Tracking Technologies. With respect to cookies, you may be able to reject cookies through your browser or device controls. Note that you have to opt-out of cookies on each browser or device that you use. If you replace, change, or upgrade your browser or device, or delete your cookies, you may need to use these opt-out tools again. Please be aware that disabling cookies may negatively impact your experience as some features may not work properly. To learn more about browser cookies, including how to manage or delete them, check the “Help,” “Tools,” or similar section of your browser.

What Rights Do You Have?

Individuals in the U.S.

  • What Rights Do You Have With Respect to Student Data?
    • Review and Correction. FERPA requires schools to provide parents with access to their children’s education records, and parents may request that the school correct records that they believe to be inaccurate or misleading.
    • If you are a parent or guardian and would like to review, correct, or update your child’s data stored in our Products, contact your School. Amplify will work with your School to enable your access to and, if applicable, correction of your child’s education records.
    • If you have any questions about whom to contact or other questions about your child’s data, you may contact us using the information provided below.
    • Other Privacy Rights? Please see section 3 of our supplemental disclosures: “Additional U.S. State Privacy Law Rights” for more information about your U.S. privacy rights

Individuals in the EU/UK

Please see section 4 of our supplemental disclosures: “Notice for European Economic Area and United Kingdom Customers” for more information about your EU/UK privacy rights.

12. COPPA

We do not knowingly collect personal information from a Child User unless and until a School or Educator, with the permission of the School, has authorized us to collect such information to provide the Products. Amplify relies on the School acknowledging that it is acting as the parent’s agent and consenting on the parent’s behalf to process personal information of Child Users in accordance with all applicable provisions of COPPA. To the extent COPPA applies to the information we collect, we process such information for educational purposes only, and no other commercial purpose, at the direction of the School and on the basis of the School’s authorization. If you are a parent or guardian and have questions about your child’s use of the Products and any personal information collected, please direct these questions to your child’s school.

Please refer to the Appendix–Supplemental Disclosures if you are a Home User.

13. Updates to this Privacy Policy

We may change this Privacy Policy in the future. For example, we may update it to comply with new laws or regulations, to conform to industry best practices, or to reflect changes in our product offerings. When these changes do not reflect material changes in our practices with respect to use and/or disclosure of Authorized Users’ personal information, including Student Data, such changes to the Privacy Policy will become effective when we post the revised Privacy Policy on our website. In the event there are material changes in our practices that would result in Authorized Users’ personal information being used in a materially different manner than was disclosed when the information was collected, with respect to Student Data, we will notify the School, and with respect to other information, we will notify you via email and provide an opportunity to opt out before such changes take effect.

14. Contact us

If you have questions about this Privacy Policy, please contact us at:

Email: privacy@amplify.com
Mail: Amplify Education, Inc.
55 Washington St.#800
Brooklyn, NY, 11201
Phone: (800) 823-1969
Attn: General Counsel

To report a security vulnerability, visit https://amplify.com/report-a-vulnerability/.

Appendix – Supplemental Disclosures

1. Mathigon and Amplify Classroom accounts

While our Products are geared towards Schools we do provide a limited opportunity for Home Users to use the Products at home—outside of the school context. We do not allow persons under the age of 13 (or those under the age of consent in any applicable jurisdiction) to register for an account with us outside the school context.

If you are a Home User, you are prohibited from collecting or providing any personal information from students or minors. You are permitted to access the platform for instructional purposes, but you may not enroll or roster minors, create accounts for minors, or input any personal information of minors into the Product.

Please note that most parts of Mathigon can be used without creating an account or providing any personal information that directly identifies you.

What Rights Do You Have? If you are a Child User who is 13 or older with a legacy Mathigon account (or the parent or guardian of a Child User with a legacy Mathigon account), you may request that we provide for your review, delete from our records, or cease collecting any Child User personal information. To the extent that you are unable to exercise these rights through self-service features within your account with us, please contact us by sending an email to: help@amplify.com and we will provide assistance.

2. U.S. Notice at Collection

Personal Information We Collect How We Use Personal Information

Student Data, which includes:

  • Roster Information
  • Demographic Data, such as race and national origin
  • School Records
  • Account Information
  • Schoolwork and Student Generated Content
  • Teacher Comments and Feedback
  • Device and Usage Data
  • To provide and improve our educational Products;
  • To support Schools’ and Authorized School Users’ activities;
  • To ensure secure and effective operation of our Products;
  • For purposes requested or authorized by the School or Authorized School Users, or as otherwise permitted by Applicable Laws;
  • For adaptive or personalized learning features of the Products; provided that Student Data is not disclosed;
  • For customer support purposes, to respond to the inquiries and fulfill the requests of the School and their Authorized School Users;
  • To enforce product access and security controls; and
  • To conduct system audits and improve protections against the misuse of our Products, or to detect and prevent fraud and other harmful activities.

Authorized Users, which includes:

  • Contact Information
  • Account Information
  • Survey Responses
  • Device and Usage Data
  • For the purposes for which Student Data is used as set forth above;
  • For marketing purposes in limited circumstances (e.g. to periodically send newsletters and other promotional materials), which will not be based on Student Data or directed to K–12 students;
  • For internal research and analytics; and
  • As otherwise required or permitted, or as we may notify you at the time of collection.

Some of the information described above may be considered “sensitive” under the laws of certain jurisdictions (i.e., account credentials and race/national origin) (“Sensitive Information”). We use Sensitive Information for necessary or reasonably expected purposes – specifically, to provide you with our Services (i.e., account credentials are used to allow account logins and race/national origin are used for the School’s reporting purposes when voluntarily provided by the School).

We do not sell or share your personal information, as described in California law.

We retain your personal information for as long as reasonably necessary for the purposes disclosed in the chart above. Additional information about our retention of Student Data and personal information from other Authorized Users can be found in Section 10 of this Privacy Policy.

Please see the Additional U.S. State Privacy Law Rights section of this appendix for information about your privacy rights pursuant to applicable U.S. law.

Notice of Financial Incentive

From time to time, to support our services, we offer opportunities to complete surveys and questionnaires. As an incentive for completing the survey or questionnaire, you can voluntarily provide personal information as an entry into a raffle drawing or to obtain other benefits, discounts, offers, or deals that may constitute a financial incentive under California law (“Financial Incentive”). The categories of personal information required for us to provide the Financial Incentives include: contact information and any other information that you choose to provide when you complete the survey.

Participation is voluntary and you can opt out at any time before the survey is complete. We do not allow students to participate in our surveys.

The value of the personal information we collect in connection with our Financial Incentives is equivalent to the value of the benefit offered.

3. Additional U.S. State Privacy Law Rights

Note for Requests Relating to Student Data: Because Amplify provides the Products to Schools as a “School Official,” we collect, retain, use, and disclose Student Data only for or on behalf of the School for educational purposes, including the purpose of providing the Products specified in our Agreement with the School and for no other commercial purpose. Accordingly, we act as a “service provider” for the School with respect to School Data. We work with the School to support and assist them in addressing privacy requests relating to School Data. Please reach out to your School directly if you wish to exercise any privacy rights that may be available to you.

For all other requests: With respect to Amplify Data, individuals residing in certain U.S. states have the following rights, regarding your personal information (each of which is subject to various exceptions and limitations):

  • Access. You have the right to request, up to two times every 12 months, that we disclose to you the categories of personal information collected about you; the categories of sources from which the personal information is collected; the categories of personal information sold or shared; the business or commercial purpose for collecting, selling, or sharing the personal information; the categories of third parties with whom personal information was shared; and the specific pieces of personal information collected about you.
  • Correction. You have the right to request that we correct inaccurate personal information collected from you.
  • Deletion. You have the right to request that we delete the personal information that we maintain about you. Even after the deletion of your account, some personal information may remain on our servers, such as in technical support logs, server caches, data backups, or email conversations. These will be automatically deleted after a reasonable amount of time, unless we are legally required to retain information for longer, or unless there is a legitimate business reason (e.g. security and fraud prevention or financial record-keeping). We are not required to delete any information which has been aggregated or de-identified in accordance with Section 5.
  • No Discrimination. You have the right not to be discriminated against for exercising these rights.
  • Appeals. You have a right to appeal decisions concerning your ability to exercise your consumer rights.

See Submitting Requests section below for details on submitting a request to exercise these rights.

4. Notice for European Economic Area (EEA) and United Kingdom (UK) Customers

As detailed at the beginning of our Privacy Policy (under the section titled “Our Role”), Amplify operates primarily as a processor that collects personal information on behalf of the School, and we act as a controller in limited circumstances where we offer Products outside the school context.

If you represent a School in the EEA or the UK, please note that we process personal information in accordance with this Privacy Policy, our Acceptable Use Policy, and our standard Data Protection Agreement, which sets out our responsibilities when it comes to our processing activities. Schools must send an email to privacy@amplify.com to enter into that DPA.

Lawful Basis for Processing

We rely on the following lawful bases for our processing activities:

  • Consent;
    • We obtain your consent to use cookies to collect and process device and usage data to understand how individuals use our Products.
  • Pursuant to a contract for use of our Products;
    • We process School Data to provide our Products (e.g., to create, authenticate and manage your account, to verify your identity, to manage our Products) pursuant to the Agreement between us and the School, as required in order for us to perform our obligations.
  • To comply with our legal obligations;
    • We process all categories of personal information that we collect to ensure the safety and security of our Products where we are complying with security requirements under data protection and cyber and information security law.
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Update History:

Update: 6/13/2025: This Policy has been updated to align with product updates and to provide additional context for authorized educational use of Amplify’s Products.

Update 6/27/2024: The Policy has been updated to include an explanation regarding Google APIs in the Appendix — Supplemental Disclosures section.

Update 6/30/2023: This Privacy Policy has been updated to address new state law data privacy requirements.

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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.

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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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What’s New for Amplify Science 6–8!

Denver Public Schools (DPS), check out what’s new from Amplify Science 6-8!  The first part of this site will take you through the updates that have been made to Amplify Science. The second will be a refresher of Amplify Science for any new users in DPS. With Amplify Science, DPS students don’t just passively learn about science concepts. Instead, they take on the role of scientists and engineers to actively investigate and figure out real-world phenomena. With culturally sustaining pedagogy, Amplify Science strives to make sure every student feels included in the science classroom.

Two students collaborating on a project using a laptop in a classroom filled with other students working in the background.

Update: The Digital Experience

The digital experience allows students to engage with digital lessons and provides teachers with everything they need in one place—ready-to-use slides-based lessons, seamlessly integrated teacher prompts and guidance, robust PD resources, and more. It’s now easier and more engaging than ever to plan lessons, present digital content, and review student work. To learn more, click here.

Update: The PD Library

All professional development (PD) content is consolidated into the PD Library, a one-stop hub for all your self-paced PD needs. As a result, the “Professional Learning Resources” tile will no longer be available on the main Amplify Science Program Hub page. The rest of the non-PD content in the Program Hub will remain as is, including the on-demand resources.

Update: Educator & Student Home expansion

Educator and Student Home landing pages will now be available for all Amplify Science users. This Home page provides a central location to access all Amplify programs in one place and a customized stream based on your activity.

Your Amplify Science grades 6–8 students will no longer access My Work for assignments, scores, and teacher feedback. Instead, they’ll find it all on Student Home, the page they already land on when logging in to Amplify Science.

Keep in mind: Amplify Science middle school teachers will continue to have access to Classwork.

Update: Caregiver Hub

Throughout the school year, teachers can share the Amplify Science Caregiver Hub with students’ families. This site provides curriculum details, an overview of what caregivers can expect throughout the school year, and resources they can use with students at home.

What is Amplify Science?

The Lawrence Hall of Science

Developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify, our program features:

  • phenomena-based approach where students construct a complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Carefully crafted units, chapters, lessons, and activities designed to deliver true three-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.
Aerial view of the lawrence hall of science at the university of california, berkeley, showcasing the building and surrounding trees with a foggy city backdrop.

Proven to work

WestEd Randomized
Control Trial for Grade 1

Read More

WestEd Randomized
Control Trial for Grade 7

Read More

Amplify Science NE
Grades K–5

Read More

Instructional model

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

Do

First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

Talk

Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

Read

Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

Write

Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

Visualize

By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers
do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Program structure

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

It’s this proven program structure and lesson design that enables Amplify Science to address 100% of the Next Generation Science Standards (NGSS) and support students in mastering the Pennsylvania Science Standards.

Flowchart depicting a critical thinking process with four circular nodes connected by arrows, each node representing a step: posing a real-world problem, exploring evidence, elaborating concepts, and evaluating claims.

Unit types

While every unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, each unit also serves a unique instructional purpose.

In grades 6–8:

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

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 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 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.

DPS Scope and 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.

Un gráfico que muestra los cursos de ciencias para los grados 6 a 8. Cada grado tiene una lista de clases categorizadas como Launch, GROW y GOAT, con el título de cada curso y la duración en minutos o días.

Program components

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

Amplify Science TG

Hands-on learning is an essential part of Amplify Science, and is integrated into every unit. Students actively participate in science, playing the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them. Every unit includes hands-on investigations that are critical to achieving the unit’s learning goals.

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.

More hands-on with Flextensions:
Hands-on Flextensions are additional, optional investigations that are included at logical points in the learning progression and give students an opportunity to dig deeper if time permits. These activities offer teachers flexibility to choose to dedicate more time to hands-on learning. Materials referenced in Hands-on Flextension activities will either be included in the unit kit or are easily sourced. Supporting resources such as student worksheets will be included as downloadable PDF files.

Our kits include enough materials to support 200 student uses. In other words, teachers can easily support all five periods and small groups of 4-5 students each. Plus, our unit-specific kits mean teachers just grab the tub they need and then put it all back with ease.

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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.

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

In grades 6–8, one copy of the Student Investigation Notebook is included in each unit’s materials kit for use as a blackline master. Each notebook is also available as a downloadable PDF on the Unit Guide page of the digital Teacher’s Guide.

Two 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.

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.

Amplify Science Classroom Slides

Explore your print samples

With your Amplify Science print samples, you’ll find unit-specific Teacher’s References Guides, Student Investigation Notebooks, and sets of Student Books for each grade level.

A note about the Teacher Reference Guides:

It’s important that you see the full breadth and depth of our instruction. For that reason, we provide a copy of each of our unit-specific Teacher Reference Guides.

Rest assured that teachers do not use these robust reference guides for day-to-day teaching. For that, we have a hands-free Teacher’s Guide!

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  • Teacher Reference Guide: Unlike a typical TG that requires a series of supplemental books to support it, our encyclopedic reference guide is chock-full of everything a teacher needs to fully implement our program and the NGSS.
  • Ready-to-Teach Lesson Slides: For daily instruction, teachers need their hands free. That’s why we created ready-to-teach lesson slides for every single lesson. What’s more, they are editable and include suggested teacher talk and point-of-use differentiation and other instructional tips. Click to learn more.

A note about the Materials Kits:

Hands-on learning is at the heart of Amplify Science, and is integrated into every unit. In order to make hands-on learning more manageable for busy teachers, Amplify Science materials are organized into unit-specific kits.

Stacked storage bins with labels, arranged neatly; caption notes they are a sample and may not reflect actual quantities or sizes.

Our unit-specific kits:

  • Include more materials — We give teachers enough materials to support 200 student uses.
  • Are more manageable — Unlike other programs that require large groups of students to share limited sets of materials, our kits include enough to support small groups of 4–5 students.
  • Include supportive videos — Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

At your request, we did not include our materials kits with our submissions samples. However, we did provide grade-specific lists of all materials included in each kit, which you can also find with the links below.

Access your digital samples

Explore as a teacher

Follow these instructions to explore the Amplify Science digital platform as a teacher.

  • Click the Access Amplify Science Platform button below and bookmark it.
  • Select Log in with Amplify.
  • Enter the username: t1.dps68sci@demo.tryamplify.net
  • Enter the password: Amplify1-dps68sci
  • Click the Science icon.
  • Click on the Grade Menu in the top center of the screen and select any grade.
  • Select any unit.
Access Amplify Science Platform

To help familiarize yourself with navigating the digital platform, watch the below navigational video.

Spanish-language support

Amplify Science is committed to providing support to meet the needs of all learners, including multiple access points for Spanish-speaking students. Developed in conjunction with Spanish-language experts and classroom teachers, several components are available in Spanish across the Amplify Science curriculum.

Spanish-language materials include:

COMPONENTTEACHER/STUDENT
Student Investigation NotebooksStudent
Science articlesStudent
Video TranscriptsStudent
Digital simulation translation keysStudent
Printed classroom materials
Unit and chapter questions, key concepts, vocabulary cards, etc.		Teacher
CopymastersTeacher
AssessmentsTeacher
Digital student experience license
This license gives students access to the student resources in Spanish, including instructional text, articles, and assessments. Teachers can control student access to Spanish-language content through the digital Teacher’s Guide.		Teacher
Spanish teacher support license
This license includes teacher talk, projections, downloadable PDFs of all print resources, and video transcripts and closed captioning in Spanish.		Teacher

Resources to support your review

Contact Us

If you have any further questions as your review Amplify Science, please contact:

Monty Lammers

Senior Account Executive

719-964-4501

mlammers@amplify.com

S1-04: Connecting with students and caregivers in the science classroom: Ryan Rudkin

Promotional graphic for "science connections", season 1, episode 4, featuring a smiling woman named Ryan Rudkin, themed with science illustrations like atoms and a globe, highlighting how to engage students

In this special episode, our host Eric Cross sits down with veteran middle school teacher Ryan Rudkin. Ryan shares her expertise after almost two decades in the classroom, discussing ways to incorporate aspects of problem-based learning into the K–8 science classroom. Eric and Ryan talk about how to increase parent engagement, involve community members, and add excitement to lessons.

Explore more from Science Connections by visiting our main page.

Download Transcript

Ryan Renee Rudkin (00:00):

I know there’s other goals in mind, you know, standards and test scores. But at the end of the day, I wanna come back and I want them to come back.

Eric Cross (00:35):

My name’s Eric Cross, host of our science podcast, and I am with Ryan Rudkin, middle-school teacher out here in California just to the north up near Sacramento? El Dorado Hills?

Ryan Renee Rudkin (00:46):

Yeah. 20 miles east of Sacramento.

Eric Cross (00:49):

Nice. And I am down here in San Diego. And so Ryan, to start off, what I wanna do is ask you about your origin story, like a superhero. So how did you become a middle-school science teacher to become part of this elite profession of science folks that get to do awesome things with kids?

Ryan Renee Rudkin (01:08):

I would agree with you that it is definitely an elite profession. I got my credential and I thought I was gonna teach third or fourth grade elementary school. And the second day I got called for a sub job for middle school. And I just thought, “We’ll take it,” you know? And by second period, I knew: This is where I belong. The kids, middle school, students are just a species of their own. And you have to appreciate them. And if you do appreciate them, then you’re in the right spot. And I quickly looked at my coursework and I was able to get authorizations in science, history, and English, and I love science. So I chose science. And the rest is history. It’s been a wild ride and I wouldn’t have changed or asked for anything different. I love it.

Eric Cross (02:02):

I definitely agree with you. So, your history—you’ve been in various middle-school classrooms. Can you tell us a little bit about that? What classrooms have you been in? What disciplines of science have you taught or are currently teaching?

Ryan Renee Rudkin (02:14):

I was hired for seventh grade life science, and then I did that for a few years and then I got moved into eighth physical science, and I was there for 12 years. Love eighth grade science. I love eighth graders. Chemistry and physics are my favorite. There’s just so much opportunity for just awesome labs, great conversations, student discourse, all of that. And then the past three years I’ve been in sixth grade and now we’re integrated. So,a sixth grade integrated science and I also teach social studies and a technology design class.

Eric Cross (02:52):

Oh, nice. What do you do in your technology design class? That sounds cool.

Ryan Renee Rudkin (02:56):

Right now it’s mostly internet media and we use WeVideo, it’s an editing-video program, and we produce and put on our school weekly news bulletin. And then we weave in other projects. We do some interdisciplinary projects. Right now my students are working on a mythology God, Goddess, and Monster project that relates to our social studies curriculum. And we’re learning about Greece. So yeah, we just try to give them added projects and they’re using the WeVideo platform. By sixth grade, they’re coming to us now with wonderful skills with all the tech. I mean, if I need help, I ask them like, “How do you do something on Google Docs?” Or, “How do you do something on Drive?” The kids are definitely tech-savvy.

Eric Cross (03:49):

They must love being the teacher in the classroom. They get to—it kind of switches power roles, where they get to teach the teacher something.

Ryan Renee Rudkin (03:56):

Yes. And especially WeVideo, sometimes we’ve had some hiccups, and the kids show everybody, and that’s part of the design class. They’re trying to solve—we’re teaching them how to solve their own problems. So if there’s any kind of issue with anything with the technology, honestly, I usually tell them, “Go ask a friend,” or we kind of shout out, “Hey, who knows how to troubleshoot this?” And the kids are eager to help each other, which is nice.

Eric Cross (04:21):

And they have this authentic experience where they’re actually doing real problem-solving, as opposed to something that we manufactured. Like, those are real things that we have to deal with in life. And that’s exactly like how we solve it, right? We just go ask people! We look it up, and the ahas are genuine too. Throughout!

Ryan Renee Rudkin (04:36):

Yes, especially thinking on the fly. Especially yesterday, I was in the middle of teaching and my laptop froze, and it’s like, “OK, everybodytake a couple minutes, you know, work on this, this, or that while I switch out laptops!” And so I’m modeling, too, how to solve my own problems. And I think it teaches the kids how to do that too.

Eric Cross (04:59):

I’ve always thought it was interesting that when teachers get to teach in real time, how do we handle stress and frustration when it’s really happening? And I think the tech—at times, failure is the real one where you feel this chill or this sweat that kind of comes over you and you’re trying to present or cast or the video won’t play and things like that. I think I’ve done enough times in my years of teaching where now my students know what to do, or they want to come up and help, and we’re good with it. But I remember in the beginning when those things would kind of glitch or go wrong or the wifi goes down, and you’re like, OK, what do we need now?

Ryan Renee Rudkin (05:33):

I think it’s honestly, after the fact, when I think in the moment, I’m not thinking of feeling stressed, but just afterwards, then I’m like, “Oh my gosh, this has just been a wild day.” But yeah, you just have to kind of go with it. And that’s just the beast of middle school. I just added to the list of why we love it.

Eric Cross (05:53):

You said something about interdisciplinary work, and I wanna kind of ask about that. Because it sounds like you’ve had your hand in several different areas of science and grade levels. Working, doing design courses, working with tech. Are there certain lessons that are your favorites to teach? The ones that you really enjoy, or that no matter what, you’re like, “We need to do this; this is such a rich experience for students”?

Ryan Renee Rudkin (06:17):

Yeah. I definitely try to do lessons or activities along the way. I like to do projects at the end of my units. When I taught physics, we did a project and it was mainly an assessment tool called the Wheeling and Dealing. The kids, they would all get a different car. And then they to sell their car. And so they had to pretend to be a car salesman, and they did that with their knowledge of the physics unit. So everything we did on forces and speed and motion. So I like doing culminating projects like that. And you’re kind of tricking them into assessing them.

Eric Cross (06:57):

When I think about your car salesman project, I’m thinking of a bunch of students, but they’re like on Shark Tank, but they’re just littler versions. And they’re doing these sales pitches, but they’re speaking in scientific terms as they’re trying to do it. Do you record these or do they just exist in the classroom?

Ryan Renee Rudkin (07:12):

No…And that was a long time ago, when I taught eighth grade. I wish I had; I wish I had recorded. That was definitely—it was fun, ’cause the kids, they would get their little piece of paper and they—some of ’em didn’t know what car it was. And so they’re like “A Boo… A Boo-gatti? What’s a Boo-gatti?” And then someone from across the room would be like, “Ooh, I want it! Here, I’ll trade you my Ford Focus!” And <laugh> so they would kind of wheel-and-deal which car they would…and then once they got their choice, then they would do the project.

Eric Cross (07:44):

So they’re really embodying this persona of a car salesman. The wheeling and doing back-and-forth and trying to trade a Bugatti for a Ford Focus. <Laugh>

Ryan Renee Rudkin (07:53):

I know. <Laugh> I like to make my class, my learning environment, enjoyable. You know, I gotta be there; they gotta be there. So I know there’s other goals in mind—you know, standards and test scores—but at the end of the day, I wanna come back, and I want them to come back. And I just have that as a priority.

Eric Cross (08:18):

Well, based on the projects that you’re doing and the way that you approach education with students, I can see why middle-school students would want to come back, even if they had the option not to. Just because of the cool things that you’re doing. Now we’re on this—hopefully, fingers crossed—tail end of COVID in the classroom and schools, and I know it’s impacted all of us differently. Has student engagement changed since COVID and if so, how, and what have you done in these last two years to maybe adjust your approach, to continue that engagement and that richness that you provide for your kids?

Ryan Renee Rudkin (08:57):

I definitely—I think for me, I recognize that when the students are in my classroom, I want them to, I dunno, for lack of a better word, just escape the noise at home. And I know we’ve always had students that are going through divorce situations or their dog died, other things, but I think with COVID, it’s definitely been compounded. And just creating a safe place for the kids to want to be and…it’s hard. We’ve had a lot of students that have been out, absent, for various reasons and on quarantine. And they’re struggling with doing work from home, ’cause their parents are stressed and their parents are dealing with their work issues. And so I think just having grace for the kids and just keeping…I don’t know, I guess like I said, I’ve always had student engagement as top of my list.

Eric Cross (10:06):

It sounds like—the things I hear you say really have to do with who these students are as people.

Ryan Renee Rudkin (10:12):

Yeah.

Eric Cross (10:13):

And then as a second, who they are as students. How do relationships fit into your engagement? ‘Cause I’m hearing this connection that you seem to be making with kids as you’re talking about things that are beyond academics: their home life, how they’re impacted.

Ryan Renee Rudkin (10:28):

Yes.

Eric Cross (10:28):

Is there anything that you do to build these relationships, or to connect with your students, to make them feel wanted or feel connected to the classroom or to you?

Ryan Renee Rudkin (10:37):

Yeah, I do. I do a few things to build those connections. And again, this timeframe in their life is so out of their control, their peer relationships, relationships with their parents. And when they’re in my classroom, I want them to feel loved and appreciated. Something I do it’s called Phone Fridays. And in one of the social media groups, someone posted about it, and I’ve been doing it for over a year now, actually. So on Fridays I call parents and give good news. And so I’ll pick maybe one or two students. And it could be academic reasons. It could be behavior, I’ve seen a slight improvement of behavior. Maybe a role model in the classroom. And my goal is to get everybody every trimester. So everybody gets a phone call by the end of the trimester. And it’s funny ’cause sometimes the parents are a little like “Uh-oh”! When they pick up, they see the caller ID, and their school’s calling. ‘Cause Some kids don’t get good calls. So it’s a really—I would say every single parent that I’ve called, I usually get a follow-up email, either to me or my admin, just saying it’s such a cool idea I do this; thank you so much. And yeah, I just call and give good news and just put ’em on the spot. And usually the kids are a little embarrassed, but you can tell, even though they’re kind of—I think they’re faking it, that they’re embarrassed! ‘Cause You know that they got the Phone Friday, and everybody’s like, “Who’s gonna get the phone Friday?!” And so it’s a very big deal in my class.

Eric Cross (12:07):

What a great way to—I mean, it seems like that hits on so many levels. You’re making these positive calls home. You’re praising publicly, which a lot of times can happen where students can get criticized or redirected publicly and then praised privately, which is a lot of times the reverse what we should be doing. But here you are praising them publicly. And then you’re not only building a relationship with yourself, but you’re also connecting them with their parent or whoever is caring for them, because now when they go home, there’s this, “Hey, your teacher called; you’re doing awesome!” So it’s this kind of triangle that’s forming there. I think that’s super-cool and a great thing for teachers to do.

Ryan Renee Rudkin (12:45):

It takes, you know, the last five minutes of my class. I do it every class. And then I have a system. Like I said, I keep track of all the kids. That way, by the end of the trimester I’ve gotten everybody. Sometimes I let the students, whoever I call first, then I let them pick a peer and I tell them, “OK, we have to have a solid reason. Why are we calling?” And a couple times they’ll have a student, like one of my energized ones, they’ll raise their hand. “How About me? How about me?” And I and the kids kind of laugh a little and I said, “Well, how about this? Let’s make a goal. How about next week we’re gonna make a goal and we’re gonna have a reason to call home.” So just working on the kids that need a little push in the right direction. That’s other reasoning to it. But yeah, it’s fun. I love it.

Eric Cross (13:33):

And you have the community. You have this goal setting. We were talking a little earlier about this transition—so you’re becoming this…your school’s going through the IB process, is that right?

Ryan Renee Rudkin (13:44):

Yes.

Eric Cross (13:44):

And we were talking about the ATL skills and one of them is goal-setting management. You already kind of organically do this in your classroom, which is really neat. I know being an IB teacher, a lot of times I find the things that I’ve already been doing and find, “Oh, this is actually an approach to learning!” or “This is something that has a title!” I just thought it was just being helpful! Ah…So the kids are connected. You have this process where you’re calling parents; it’s working; students are involved, so it’s building this community. Now you’re engaging students. Do you have any favorite student engagement tools that you use in your classroom or when you’re teaching that you feel like you get a lot of bang for your buck? There’s so many things out there these days. And so many approaches, tools, web apps. Do you have any favorites that you use?

Ryan Renee Rudkin (14:40):

No. Nothing comes up top of my mind right now. Mostly just projects, like I said. And being excited. I think having my students see me excited about something…and I’m honest when we’re doing something that’s not quite my favorite, then I’m honest about that too. But just having my—like, we just started thermal energy this week and I told my students, I said, “OK guys, I’m gonna weave in some chemistry in there. I’m gonna weave in some particle motion,” and they’re like, “Oh! That’s when you taught eighth grade, huh!” Cause I talk a lot about when I taught eighth grade before. I don’t know, just showing my own enthusiasm, I think, is a good payoff to me. That’s a bang for your buck. Other things…I try to give ’em cool videos and Mark Grober, he’s definitely a favorite of mine I like to show my students. I like to bring in guest speakers from our community. When I taught eighth grade for physics, I always brought in a local CHP officer and they would bring in the radar and lidar guns and the kids would mark off the parking lot and they would calculate their speed. And then they would verify it with the radar gun. Two years ago when I taught math, I brought in a local landscaper company, a father-and-son outfit, and they showed the kids how they would do bids on jobs. And so, relate it to our chapter on volume and area. So just making that connection with real life. Plus it’s just a nice opportunity, too, for the community to come in. With our design class, put on our newscast. And then one of our units in our sixth grade curriculum is weather. And so I brought in a local weatheruh, chief meteorologist. And he actually talked to the students about his job as a meteorologist and then also being on the news and putting on a newscast. So we got him on our green screen and did a little like Mark Finan, you know, little cameo on our newscast for the week for school. So that was kind of cool.

Eric Cross (16:45):

They must have been excited.

Ryan Renee Rudkin (16:47):

Yeah. They’re pretty starstruck by him. So that was pretty fun.

Eric Cross (16:51):

This person was on their local news? So they would know him?

Ryan Renee Rudkin (16:56):

Yeah, he’s on Channel 3 out of Sacramento. Yeah. KCRA Channel 3, Mark Finan.

Eric Cross (17:00):

So all these guest speakers that you have…how do you reach out to these people? And you sound like you get a lot of success. Do you ever get nos? Like if I’m sitting here listening and that inspires me, but you’re getting celebrities and you see a few people…like, how do you reach out to them? And does everybody say yes? How does it go?

Ryan Renee Rudkin (17:21):

Well, usually at my back-to-school night, I always ask the parents if they have a career or hobby that could lend itself to the curriculum. And so sometimes I’ll hear about—students will talk about, like, “My mom’s a doctor.” And so I’ll reach out to parents and just say, “Hey, you know, your kiddo said, you’re a doctor. May I ask what type?” And most of the time the nos that I’ve received are just because of schedule conflicts. You just have to get creative! Look in your community and see what you have. People want to come and talk to kids. I’ve had some presentations that the person is so intelligent and amazing, but they just, weren’t very kid-friendly. I mean, that happens. Butsomeone knows someone. And just ask! I mean, it doesn’t hurt to ask to have ’em come out, come hang out for the day, with my students. Andone time I had a nurse practitioner she was in the cardiac unit. And so she brought in hearts and led a heart dissection with my students. And we did a station set-up. I’ve had elaborate ones like that, or just a mom come in to tell my students about her job as a nutritionist and relate it to our unit on metabolism. And so just did like a little 15-minute Q&A with the kids on nutrition. And I would just say, look at your community and/or post on social media. I always do that. Post in your school’s PTA groups. So the parents know someone, that’s for sure. Or someone’s retired. One time I had—I think he was a grandfather of one of the kids—he was into rocks. And he had a bunch of meteorites <laugh> and brought in his meteorites.

Eric Cross (19:15):

Bring in your rocks!

Ryan Renee Rudkin (19:15):

I know! Right? And he <laugh> just brought in his meteorite collection! I was like, sure, come on in!

Eric Cross (19:23):

That’s one of the things I love about being a middle-school teacher is that my students have such varied interests and I’ll get the Rock Kid every once in a while and he’ll come in and he’ll have all these rocks and crystals. And a lot of times there’s a grandfather that’s responsible for this inherited geologic treasure that they have.

Ryan Renee Rudkin (19:45):

Yeah, something like that—I mean rocks are not my favorites, but I don’t really tell the kids that. I was like, “Sure, yeah, come on in! We can have a whole-day lesson on rocks!”

Eric Cross (19:55):

<Weakly> “This is great!”

Ryan Renee Rudkin (19:58):

Just utilizing your resources. That’s all it’s about.

Eric Cross (20:02):

Well, I think the back-to-school night was really helpful. That’s something that’s super doable. You have a bunch of parents and you just simply ask, “Who do you know? What do you do?” And then just collecting that and then just asking people to come in. I’ve I’ve been reluctant to do it more often than I’ve wanted to, because I haven’t figured out—and maybe you can help me with this—I have three class periods a day plus other class periods that are not necessarily science. And I don’t want to dominate a person’s schedule. Do they tend to be willing to stay all day? Or do you do, one class gets it, and you record it? Like, how do you balance out the speakers with your school schedule?

Ryan Renee Rudkin (20:39):

Mostly they’ll they’ll just come for the whole day. When I taught eighth grade, I had five classes, so that was easy. That was an all-day thing. And then usually I’ll offer to call lunch, have lunch delivered, or snacks during the day. I mean—

Eric Cross (20:53):

Feeding them is key.

Ryan Renee Rudkin (20:54):

Yeah. Just something kind of nice. Donuts in the morning. I mean, you’d be very surprised. Most people that are in the field or retired, like I said, they’re more than willing to come. And even if they have to wait an hour, while you teach another class that doesn’t pertain to it, then they’ll either leave or come back or just hang out in the back and pretend to be a student during that history class that you have.

Eric Cross (21:20):

It’s my own limiting belief where I feel guilty. I don’t think about it. I need to think about it through the perspective that you do, that these people WANT to talk. I just assume everybody’s so busy. But I do know, the times I’ve had speakers come out, at the end of the day, they’re so energized or they’re so happy or they’re so grateful. ‘Cause They’re like, “This is what it’s like to teach every day?” I’m like, “Yeah, this is what it’s like.”

Ryan Renee Rudkin (21:42):

I think too, a lot of parents…usually being being in the stops at elementary. A Lot of parents don’t get the opportunity to come help out in the classroom, because the middle school kids, you know, it’s not very cool or it’s just not needed like in the elementary classes. So a lot of times, like I said, you’d be surprised. A lot of the parents they’re more than happy to come and hang out. And again, some students, they don’t want their mom or dad to be there, but then I talk it up. I’m like, “Everyone’s gonna be so like impressed that your dad’s a doctor,” or “your mom’s a doctor” or —so then I kind of like downplay it. Like, “Oh, whatever, you’re you’re faking it. It’ll be fine. Don’t be embarrassed.” Leading up to their parent coming into the classroom.

Eric Cross (22:36):

Right. Kind of redirect that energy toward something positive. With guest speakers, projects, pacing, all these awesome things that you have going on, how do you find balance as a teacher, as a person? And what encouragement would you give to new or aspiring teachers? We work in a profession that will take as much as you give it. And you fall asleep at night worrying about other people’s kids and we love it. And teachers by personality can just give and give and give and give. But in order for us to last—I’m thinking about those new teachers who are going into it, who are gonna go in and be there before the sun gets up and stay after the sun gets down. How do you maintain balance, taking care of yourself? You’ve been in education for—how long have you been teaching for?

Ryan Renee Rudkin (23:29):

Sixteen. This is my 16th year.

Eric Cross (23:31):

Enough to be that veteran. So how do you find balance? And then, what encouragement would you give to new or aspiring teachers?

Ryan Renee Rudkin (23:39):

I would say each year, pick one or two things to add on. You can’t add on 10 things, even though you’re gonna find 10 things that are awesome. But just make a little list, put ’em in a file, and every year, just get good at what you do and then just add on one or two things. And reflect on what’s not going well that you can get rid of to make room to add something else. Try to be patient with yourself. And don’t reinvent the wheel. There’s so many things out there that you can borrow and make it your own. Again, I think that’s a time-saver, just leaning on your colleagues. And take lots of notes, because then when you do it again next year, you can refresh yourself and, “Oh yeah, this lesson, wasn’t the best…” What can you add in to make it a little bit better? And yeah, I would say just take on one or two things each year. And then by the time you get to, you know, being a veteran, you can do all these awesome things and it’ll feel natural ’cause you’ve been practicing and just adding in one thing at a time. I coached Science Olympiad a bunch of years ago, and Science Olympiad is so rewarding. It’s just so amazing.

Eric Cross (24:59):

What is Science Olympiad, for the people who’ve never heard of it?

Ryan Renee Rudkin (25:03):

Oh, Science Olympiad is so awesome. Google it. I think it’s just ScienceOlympiad.org. It’s 23 different events across all disciplines of science, different topics. And then you have a team of 15 students. And so your 15 students have to cover the 23 events. So for example, if the student’s on the anatomy team, usually there’s a team of two kids they’re gonna study and learn. They provide all the rules and the guidelines. So the students learn and study whatever the parameters are for that year. And then they take a test. And then they compete against other schools. And there’s build events, the engineering events, they can build things like trebuchets matchbox cars or mousetrap cars. Oh gosh, there’s all kinds of things. There’s like a Rube Goldberg device. It changes every year. And it’s so rewarding to see the kids; they pick their area of science that they love. And sometimes you have to put them on an event that they don’t know, and then they end up loving it. It’s so rewarding as a teacher to see these kids that are just on fire and you know that one day they’re gonna go off and do amazing things. They just commit. They commit to their event. And then they blow it outta the water and they win medals and just the recognition…it’s super, it’s just an amazing program.

Eric Cross (26:42):

One of the competitions that’s really low-tech that I’ve taken into my classroom is Write It, Do It. Have you done that one before?

Ryan Renee Rudkin (26:50):

Oh, yes. Yeah. That’s one. Yep.

Eric Cross (26:52):

It’s such a low-tech, simple one to do, but it teaches such great skills. And for those people who haven’t heard of the Write It, Do It project, you create kinda some abstract art out of random crafts. That’s very difficult to describe. You have pipe cleaners and foam and balls and you know, all these different things. And you make it. And then one person on the team is the writer, and they look at it and they write the procedures, and then their teammate, who’s in a different room and doesn’t get to see it, gets all the materials to build it and the procedures, and they have to rebuild it as closely as possible to the actual original. Even though they don’t get to see the original. So they have to rely on their partner’s ability to write procedures step-by-step. And it was fun to watch my students become teammates in that. And they learned how to communicate in a really fun competition. So I expanded it to do it with all of my students as an activity, just to teach them how write descriptively, to write procedurally, to be technical writers. And it’s, it’s fun! It’s fun to see what they build based on what the students say. <Laugh> And it’s also fun to watch them interact with each other, which for seventh graders, usually it’s conflict. <Laugh> But, like, playful conflict. <Laugh> It’s pretty funny to see what they build.

Ryan Renee Rudkin (28:11):

They’re like, “Man, what are you talking about? That doesn’t mean this; it means this!”

Eric Cross (28:16):

<Laugh> I know part of me feels guilty, but not enough to stop the project. ‘Cause I know for some of ’em, it’s gonna be a really trial by fire being able to practice their skills with writing procedures.

Ryan Renee Rudkin (28:27):

But they’re learning among themselves how to provide more details and to be more thorough with their writing and and their thoughts, put their thoughts onto paper. So yeah, that’s a funny event. Definitely.

Eric Cross (28:41):

Earlier you had mentioned something about connecting your kids with kids and students outside of your classroom. What is it that you do with that? Because I thought that was a really cool project. Can you speak to that a little bit?

Ryan Renee Rudkin (28:57):

Yes, I’ve done—they haven’t had it in a few years, but there’s something called the Pringles Challenge. And if you Google that, I’m sure it’s on the Internet still. So you sign your class up, or your classes, and you get partnered with another school somewhere in the U.S., someplace else. And you decide individually teams, whatever they build. And they make a package to ship a single Pringle chip through the mail. And then you actually mail a Pringle chip through the mail. And then your partner team or partner school, they send their chips to you and then you open everything and then you can take pictures and video. And then there was a whole scoring process where you would score when you receive the chips. And then you input all the data on the website so you can see like how your—and most schools would trade pictures, so that the kids found out how their chip survived. March Mammal Madness is so much fun. Again, Google that.

Eric Cross (30:01):

Did you say March Mammal Madness?

Ryan Renee Rudkin (30:02):

Yes.

Eric Cross (30:03):

Like March Madness, with mammals?

Ryan Renee Rudkin (30:05):

Yes.

Eric Cross (30:05):

  1. What is this?

Ryan Renee Rudkin (30:06):

It starts up in March. And you can sign your students up. And that one—it’s not too interactive with other schools, but this is opportunity to get the kids interacting within your site or within your district. Or if you have teacher friends at other schools. There’s like 60…I think it’s 64 animals? And they have this massive bracket that they post. And then you can have the students, I did it—it would be very time-consuming to have the kids individually research each animal. So I just gave one animal per student and so as a class we researched all the animals and then, I think it’s every three days or so, they have these bouts. And it’s all posted on YouTube. Google it. It’s kind of fun.

Eric Cross (30:56):

I’ve already got the website up, ready to go! Folks, everybody who needs to Google this: <articulates carefully> March Mammal Madness. And is it Arizona State University? Is that the main site, ASU?

Ryan Renee Rudkin (31:04):

Yes.

Eric Cross (31:04):

So people, listen to this. Check it out. March Mammal Madness. Look, I’m doing this! I’m already,—you’ve already sold me on this.

Ryan Renee Rudkin (31:14):

It is so much fun, oh my gosh. And then, then the kids—each round, they pick their pick, just like basketball. They do their picks and then you wait for the video. And they do it live on—I think it’s live on Instagram, or the next day on YouTube. And then the kids get all excited. And then usually the kids, whatever animal they got as their research animal, they’re rooting for that one to win, the whole thing.

Eric Cross (31:42):

But we still have time; we still have time to—

Ryan Renee Rudkin (31:45):

You can jump in anytime. Even if it’s already started, you can jump into it. It usually lasts—I believe it’s a two-week from beginning to end. When they do the first round, the wild card, and then all the way to the winner, I believe it’s a two-week process. Oh, maybe three, actually.

Eric Cross (31:59):

I’m already seeing this lead-up to the video being watched in class to see…I’m already thinking about like, “How do I prevent my students from finding the video?” Or like, “When does it go live so that I could be the one to show them so they didn’t go find it early?”

Ryan Renee Rudkin (32:13):

It takes time out of the class, but I believe it’s one of those things where you have to just…it takes 10 minutes out of the class, but it’s important. So when they each round and then the next day, they release the YouTube video. Last year, when it got down to the final round, we were on spring break. And so I told my students, “You guys, let’s do some optional Zooms. And so I had a bunch of kids log on and we all watched the videos together. So that was kind of fun. And then this year, the other thing, the first time I’ve ever done this and it’s going really well is—on social media, I was talking with one of the teachers from Ohio who teaches science and she and I decided we’re gonna do penpals for our students this year. Paper-And-Pen penpals. So that’s been a lot of fun. We just partnered up all the students, her students and my students, and once a month we send and receive the letters to each other. So that’s been a really cool experience.

Eric Cross (33:14):

If you keep doing that, and you need more teachers to be involved, can my students be penpals with your students?

Ryan Renee Rudkin (33:20):

Yeah!

Eric Cross (33:20):

If you open it up to more people? I think that, to get a letter, old-school? Letter in the mail? It would be so exciting.

Ryan Renee Rudkin (33:28):

It is. We mail them, the teacher and I, we just put them all together in one package. But yeah, it’s an actual handwritten letter.

Eric Cross (33:37):

The only letters I feel like I get in the mail now are bills.

Ryan Renee Rudkin (33:42):

Right? Exactly.

Eric Cross (33:42):

But I feel like the digital version of that is if someone calls me, it’s probably bad news. I don’t know if I’m the only one that’s like that, but I’m like, “Who’s calling me? Why aren’t you texting me? What’s going on? Text me first, then call! I need to know who’s going on, and if you’re unknown, you’re going to voicemail.

Ryan Renee Rudkin (34:00):

Exactly. The penpals has been a lot of fun.

Eric Cross (34:03):

You’ve been in education for a while. You’re on the other side of what it’s like to be a student in the classroom. Which can be surreal in itself, when we think about our own experiences as being a student. Is there a teacher or a learning experience that’s had an impact on you while you were a student in school that really stands out to you? And you can interpret the question however you want. But is there someone that’s memorable or an experience that’s memorable that you still carry with you today?

Ryan Renee Rudkin (34:32):

Definitely. My favorite teacher, and we actually still keep in contact on social media is Mrs. Sheldon. She was my fifth and sixth grade teacher. I had the pleasure when I was in elementary school, I was in an all-day contained GATE class—Gifted and Talented Education class. I vividly remember doing so many amazing projects. We built this big, giant—she brought in a big ol’, like, TV box. It was big, big, big. And you could stick like three kids inside there, standing up shoulder-to-shoulder. And we built this big dragon. The head, and we had the whole rest of the class in a big sheet behind us, and we would do a little parade around the school. And she had that thing for years after. They had to repair it every year, and they would do the little parade around school. She did a lot of traveling and when we would go on vacation and then come back, that was always the big deal: “Where did Mrs Sheldon go?” And she had sand from Egypt and pictures from the rainforest. And later when I became a teacher and then I looked her up and we reconnected I did ask her, “Did you go to those places? Or did you, like, lie about it? <Laugh> To get us engaged?

Eric Cross (35:52):

You went for the real questions!

Ryan Renee Rudkin (35:54):

I did. And she laughed and thought that was funny. And she did travel for real. But yeah, she’s an amazing woman. We still keep in contact. And I remember, you know, little things…like we would be out there doing our PE time and she’d have her long skirt, you know, dress on, with her tennies, and she’s out there playing kickball with us. Just a very kindhearted, smart, amazing woman. I’m very fortunate and I’m grateful that we are able to keep in contact. Love social media for that reason. So.

Eric Cross (36:33):

Yeah. And that’s Miss Sheldon?

Ryan Renee Rudkin (36:35):

Mrs. Sheldon. Marlene Sheldon. Yeah.

Eric Cross (36:37):

Shout-Out to Marlene Sheldon influencing the next generation of teachers, with engagement with your world travels and all those different things.

Eric Cross (37:04):

Ryan, thank you so much for one, serving our students. And in the classroom, our middle-school students who need us. I think that middle school especially, elementary school, those years are when students are really starting to decide, “What am I good at?” And the experiences that we create for our students really shape what they believe they can do. These really cool, engaging experiences, these projects that you’re giving them, whether they’re doing these car sales, Shark Tanks, or they’re doing penpals, or you have guest speakers, or they’re designing planets. These are things that students don’t forget. And then when they move on to higher grades, they remember more than anything, I think, how they felt about something. And it sounds like you’re crafting these awesome experiences. And so I just wanna thank you for your time. I know as a teacher it’s very short. And I thank you for being on the podcast with us.

Ryan Renee Rudkin (38:04):

Thank you. This has been a great experience. I just—I really enjoy my students. And I feel very, very grateful and very blessed for finding where I belong.

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What Ryan Rudkin says about science

“I like to make my class and my learning environment enjoyable. I know there’s other goals in mind… but at the end of the day, I want to come back and I want [students] to come back. It’s so rewarding as a teacher to see these kids that are just on fire… and you know that one day they’re going to go off and do amazing things. ”

– Ryan Renee Rudkin

Middle school science teacher

Meet the guest

Ryan Rudkin is a middle school science educator near Sacremento, California. Although she originally thought she would teach elementary students, Ryan connected with middle school and never looked back. Now in her 16th year in the classroom, Ryan also supports teachers in her district with professional development. Ryan’s favorite part of teaching science is seeing students grapple with concepts and explore phenomena.

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About Science Connections: The podcast

Welcome to Science Connections: The Podcast! 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.

You might also like:

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Free ebook: How to Train Your Robot

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Welcome to Amplify Science Pennsylvania
(K–5)!

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

With Amplify Science, Pennsylvania students shift from learning about to figuring out science through authentic three-dimensional (3D) learning and phenomena-based exploration. In each unit, students take on the role of a scientist or engineer to investigate a real-world problem. This prepares them to become critical thinkers who can solve problems in their communities and beyond.

Review 6-8 Science
Four children gather around a classroom table, engaging with their Amplify Science project, as notebooks and papers are spread out in front of them—an inspiring scene supported by Pennsylvania teachers.

What is Amplify Science Pennsylvania?

Customized lessons for Pennsylvania

Amplify Science Pennsylvania (K–5) combines our nationally recognized, proven curriculum with custom lessons specifically designed to ensure you are meeting Pennsylvania’s STEELS standards.

A digital interface displays six science lessons from Amplify Science, with "Ancient Water Purification" in Lesson 2.9 highlighted as a PA STEELS Custom Lesson. Each lesson features a simple sky and mountain graphic, perfect for Science programs for elementary.

The Lawrence Hall of Science

Developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify, our program features:

  • phenomena-based approach in which students construct a complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Carefully crafted units, chapters, lessons, and activities designed to deliver true three-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.
Aerial view of the lawrence hall of science at the university of california, berkeley, showcasing the building and surrounding trees with a foggy city backdrop.

Proven to work

A pdf cover from wested titled "learning and literacy development together: initial results from a curriculum study," featuring an adult helping children with schoolwork in a classroom.

WestEd Randomized
Control Trial for Grade 1

Read More

Pdf cover titled "curriculum materials designed for the next generation science standards: initial results from gold standard research trials", published by wested.

WestEd Randomized
Control Trial for Grade 7

Read More

A teacher and students engage in a science activity around a table. The text promotes the Amplify Science K–8 curriculum, highlighting its focus on hands-on learning and real-world problem-solving.

Amplify Science Pennsylvania NE
Grades K–5

Read More

Instructional model

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

Do

Firsthand investigations are an important part of any science classroom, and Amplify Science Pennsylvania 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 on asking and recording questions as they read through fascinating texts on 21st-century topics.

Write

Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

Visualize

By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers
do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Program structure

Our cyclical lesson design ensures that 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 Pennsylvania to address 100% of the Next Generation Science Standards (NGSS) and support students in mastering the Pennsylvania Science Standards.

Flowchart depicting a critical thinking process with four circular nodes connected by arrows, each node representing a step: posing a real-world problem, exploring evidence, elaborating concepts, and evaluating claims.

Unit types

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

In grades K–2:

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

In grades 3–5, students experience the three unit types above, plus:

One additional unit that emphasizes the practice of argumentation.

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

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

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

Argumentation units provide students with regular opportunities to explore and discuss available evidence, time and support to consider how evidence may be leveraged in support of claims, and independence that increases as they mount written arguments in support of their claims.

Unit sequence

Our lessons follow a structure that is grounded in regular routines while still being flexible enough to allow for a variety of learning experiences.

In fact, our 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.

Chart outlining science curriculum by grade, from kindergarten through grade 5, listing topics such as

Program components

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

Amplify Science TG

Hands-on learning is an essential part of Amplify Science Pennsylvania and is integrated into every unit. Students actively participate in science, playing the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them. Every unit includes hands-on investigations that are critical to achieving the unit’s learning goals.

Two children sit at a table blowing into plastic straws held together, likely making musical sounds, with containers and rubber bands on the table.

More hands-on with Flextensions:
Hands-on Flextensions are additional, optional investigations that are included at logical points in the learning progression and give students an opportunity to dig deeper if time permits. These activities offer teachers flexibility to choose to dedicate more time to hands-on learning. Materials referenced in Hands-on Flextension activities will either be included in the unit kit or are easily sourced. Supporting resources such as student worksheets will be included as downloadable PDF files.

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

Assorted office and household items displayed on a white background, including rubber bands, binder clips, cardboard, and sports balls.

Each unit of Amplify Science Pennsylvania (K–5) includes six unique Student Books written by educators at the Lawrence Hall of Science specifically for the program. These content-rich nonfiction and informational texts provide opportunities for students to search for evidence relevant to their firsthand investigations, see science practices and dispositions modeled, extend their science knowledge, provide real-world connections as they master reading-to-learn and close reading skills, and construct evidence-based arguments.

Important note:
Students in grades K–5 are never asked to read alone. Rather, books are read to, with, and by students with ample scaffolding and support provided by the teacher. Big Books are read aloud or together with the class to introduce ideas. Student Books allow for small-group reading and reading in pairs.

Two children's books, one in Spanish "Un día ocupado en Villa Empuja" and one in English "A Busy Day in Pushville," both illustrated by Anthony Lewis and depicting a busy town scene.

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

In grades K–5, one copy of the Student Investigation Notebook is included in each unit’s materials kit for use as a blackline master. Each notebook is also available as a downloadable PDF on the Unit Guide page of the digital Teacher’s Guide.

Amplify Science Student Investigation Notebooks

Amplify Science Pennsylvania offers digital experience licenses that make elementary instruction more flexible for students and teachers and provide additional means to engage in remote, hybrid, or in-person learning!

Student-facing digital lessons
With the digital experience, students can engage with digital lesson content in one cohesive experience. It’s the same content from Amplify Science Pennsylvania in a new, integrated format, in which students can interact with slides, Sims, modeling tools, videos, books, and more.

Ecosystem Restoration digital simulation

Digital student notebook pages
Students can draw, write, record audio, and insert images into their Investigation Notebook pages. Their work is automatically saved and delivered to you in real time. When students edit their work, those edits are immediately reflected on your teacher work review page. You can access student responses by clicking “View Work,” where you can see students’ Investigation Notebook pages from the lesson, updating live.

Assign in Amplify
The digital experience allows flexibility with optional features such as scheduling assignments in advance and setting due dates. You can use Scheduling to determine the date and time that the assignment appears in Student Home. You also have the flexibility to schedule when assignments appear and to use dates to remove assignments from Student Home.

Assign in LMS
You can also assign lessons via our integrations with learning management systems (LMS) such as Google Classroom and Microsoft Teams, or by copying a lesson link and sharing it with students through the platform of your choice. The assignment link you send will provide students with direct access to the full lesson—slides, videos, digital tools, and worksheet activities—no student platform navigation required!

Teacher platform and presentation
Teacher-facing lesson content—including sample teacher talk, student responses, pedagogical support, and possible student responses—shows on a teacher’s private Teacher Guide tab. Students only see the lesson slides that are being presented.

Graphic depicting a teacher's device synced with a class presentation for K—5 students. The teacher's laptop displays an Amplify Science lesson on environments, which is mirrored on a larger screen for the class

Explore your print samples

With your Amplify Science Pennsylvania print samples, you’ll find unit-specific Teacher’s References Guides, Student Investigation Notebooks, and sets of Student Books for each grade level.

A note about the Teacher Reference Guides:

It’s important that you see the full breadth and depth of our instruction. For that reason, we provide a copy of each of our unit-specific Teacher Reference Guides.

Teachers do not use these robust reference guides for day-to-day teaching. For that, we have a hands-free Teacher’s Guide!

Three laptop screens displaying educational content on earth's energy system, including diagrams and text annotations.
  • Teacher’s Reference Guide: Unlike a typical Teacher’s Guide that requires a series of supplemental books to support it, our encyclopedic reference guide is chock-full of everything a teacher needs to fully implement our program and the NGSS.
  • Ready-to-Teach Lesson Slides: For daily instruction, teachers need their hands free. That’s why we created ready-to-teach lesson slides for every single lesson. What’s more, the slides are editable and include suggested teacher talk and point-of-use differentiation and other instructional tips. Click to learn more.

A note about the Materials Kits:

Hands-on learning is at the heart of Amplify Science Pennsylvania, and is integrated into every unit. To make hands-on learning more manageable for busy teachers, Amplify Science Pennsylvania materials are organized into unit-specific kits.

Stacked storage bins with labels, arranged neatly; caption notes they are a sample and may not reflect actual quantities or sizes.

What’s different about Amplify’s unit-specific material kits?

  • They include more materials. We give teachers enough non-consumable materials to support a class of 36 students and enough consumables to support 72 student uses. In other words, each kit will last two years.
  • They’re more manageable. Unlike other programs that require large groups of students to share limited sets of materials, our kits include enough to support small groups of four to five students.
  • They include supportive videos. Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

Grade-specific lists of all materials included in each kit:

Spanish-language support

Amplify Science Pennsylvania is committed to providing support to meet the needs of all learners, including multiple access points for Spanish-speaking students. Developed in conjunction with Spanish-language experts and classroom teachers, several components are available in Spanish across the Amplify Science Pennsylvania curriculum.

Spanish-language materials include:

COMPONENT TEACHER/STUDENT
Student Investigation Notebooks Student
Student Books Student
Printed classroom materials
Unit and chapter questions, key concepts, vocabulary cards, etc.		 Teacher and student
Copymasters Teacher
Assessments Teacher
Spanish teacher support license
This license includes teacher talk, projections, and downloadable PDFs of all print materials in Spanish.		 Teacher

Resources to support your review

Contact us

Support is always available. Our team is dedicated to helping you every step of the way.

Contact your dedicated Pennsylvania representative.

A woman with long brown hair and glasses wearing a light blue sweater, smiling at the camera against a gray background.

Julie Couch

District Enrollment
<1800 students

A woman with long blonde hair and blue eyes is smiling at the camera, wearing a black top, in a well-lit indoor setting.

Jen Mee

Western PA

A smiling person with shoulder-length gray hair, wearing a peach-colored scarf and a gray sweater, stands against a plain white background. This image captures the essence of Pennsylvania teachers who are dedicated to enriching Science programs for elementary students.

Monica Vincent

Southeast PA

A man with curly brown hair and a beard, smiling broadly, wearing a suit, dress shirt, and floral tie, standing outdoors with trees and grass in the background.

Keenan Zambelli

Northeast & Central PA

Amplify Science Success Story

The Lawrence Hall of Science

Developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify, our program features:

  • phenomena-based approach where students construct a complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Carefully crafted units, chapters, lessons, and activities designed to deliver true three-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.
Aerial view of the lawrence hall of science at the university of california, berkeley, showcasing the building and surrounding trees with a foggy city backdrop.

Proven to work

A pdf cover from wested titled "learning and literacy development together: initial results from a curriculum study," featuring an adult helping children with schoolwork in a classroom.

WestEd Randomized
Control Trial for Grade 1

Read More

Pdf cover titled "curriculum materials designed for the next generation science standards: initial results from gold standard research trials", published by wested.

WestEd Randomized
Control Trial for Grade 7

Read More

A teacher and students engage in a science activity around a table. The text promotes the Amplify Science K–8 curriculum, highlighting its focus on hands-on learning and real-world problem-solving.

Amplify Science NE
Grades K–5

Read More

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

Firsthand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

TALK

Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ

Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE

Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE

By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Program structure

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

It’s this proven program structure and lesson design that enables Amplify Science to address 100% of the NGSS and support students in mastering the Oregon Science Standards.

Flowchart depicting a critical thinking process with four circular nodes connected by arrows, each node representing a step: posing a real-world problem, exploring evidence, elaborating concepts, and evaluating claims.

Unit types

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

In grades K–2:

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

In grades 3–5, students experience the three unit types above, plus:

  • One additional unit that emphasizes the practice of argumentation.

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

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

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

Argumentation units provide students with regular opportunities to explore and discuss available evidence, time and support to consider how evidence may be leveraged in support of claims, and independence that increases as they mount written arguments in support of their claims.

Unit sequence

Our lessons follow a structure that is grounded in regular routines while still being flexible enough to allow for a variety of learning experiences.

In fact, our multi-modal instruction offers more opportunities for students to construct meaning, and practice and apply concepts, than any other program. What’s more, our modular design means our units can be flexibly arranged to support your instructional goals.

Chart outlining science curriculum by grade, from kindergarten through grade 5, listing topics such as

Program components

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

Amplify Science TG

Hands-on learning is an essential part of Amplify Science and is integrated into every unit. Students actively participate in science, playing the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them. Every unit includes hands-on investigations that are critical to achieving the unit’s learning goals.

Two children sit at a table blowing into plastic straws held together, likely making musical sounds, with containers and rubber bands on the table.

More hands-on with Flextensions:
Hands-on Flextensions are additional, optional investigations that are included at logical points in the learning progression and give students an opportunity to dig deeper if time permits. These activities offer teachers flexibility to choose to dedicate more time to hands-on learning. Materials referenced in Hands-on Flextension activities will either be included in the unit kit or are easily sourced. Supporting resources such as student worksheets will be included as downloadable PDF files.

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

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

Each unit of Amplify Science K–5 includes six unique Student Books written by the Lawrence Hall of Science specifically for the program. These content-rich nonfiction and informational texts provide opportunities for students to search for evidence relevant to their firsthand investigations, see science practices and dispositions modeled, extend their science knowledge, provide real world connections as they master reading-to-learn and close reading skills, and construct evidence-based arguments.

Important note:
Students in grades K–5 are never asked to read alone. Rather, books are read to, with, and by students with ample scaffolding and support provided by the teacher. Big Books are read aloud or together with the class to introduce ideas. Student Books allow for small-group reading and reading in pairs.

Illustrations of two children's book covers displayed on a tablet, titled "on dia ocupado en villa empuja" and "a busy day in pushville," showing a busy street scene.

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

In grades K–5, one copy of the Student Investigation Notebook is included in each unit’s materials kit for use as a blackline master. Each notebook is also available as a downloadable PDF on the Unit Guide page of the digital Teacher’s Guide.

Amplify Science Student Investigation Notebooks

Amplify Science offers digital experience licenses that make elementary instruction more flexible for students and teachers, as well as providing additional means to engage in remote, hybrid, or in-person learning!

Student-facing digital lessons
With the digital experience, students can engage with digital lesson content in one cohesive experience. It’s the same content from Amplify science in a new, integrated format where students can interact with slides, Sims, modeling tools, videos, books, and more.

Ecosystem Restoration digital simulation

Digital student notebook pages
Students can draw, write, record audio, and insert images into their Investigation Notebook pages. Their work is automatically saved and delivered to you in real time. When students edit their work, those edits are immediately reflected on your teacher work review page. You can access student responses by clicking “View Work,” where you can see students’ Investigation Notebook pages from the lesson, updating live.

Assign in Amplify
The digital experience allows flexibility with optional features like scheduling assignments in advance and setting due dates. You can use Scheduling to determine the date and time that the assignment appears in Student Home. You also have the flexibility to schedule when assignments appear and use dates to remove assignments from Student Home.

Assign in LMS
You can also assign lessons via our integrations with Google Classroom and Microsoft Teams, or by copying a lesson link and sharing it with students through the platform of your choice. The assignment link you send will provide students with direct access to the full lesson—slides, videos, digital tools, and worksheet activities—no student platform navigation required!

Teacher platform and presentation
Teacher-facing lesson content—including sample teacher talk, student responses, pedagogical support, and possible student responses—shows on a teacher’s private Teacher Guide tab. Students only see the lesson slides that are being presented.

Graphic depicting a teacher's device synced with a class presentation for K—5 students. The teacher's laptop displays an Amplify Science lesson on environments, which is mirrored on a larger screen for the class

Explore your print samples

With your Amplify Science print samples, you’ll find unit-specific Teacher’s References Guides, Student Investigation Notebooks, and sets of Student Books for each grade level.

A note about the Teacher’s Reference Guides:

It’s important that you see the full breadth and depth of our instruction. For that reason, we provide a copy of each of our unit-specific Teacher Reference Guides.

Rest assured that teachers do not use these robust reference guides for day-to-day teaching. For that, we have a hands-free TG!

A laptop screen displays a simulation of energy arrows entering and exiting Earth's system, flanked by diagrams explaining water flow and an energy token model.
  • Teacher Reference Guide: Unlike a typical TG that requires a series of supplemental books to support it, our encyclopedic reference guide is chock-full of everything a teacher needs to fully implement our program and the NGSS.
  • Ready-to-Teach Lesson Slides: For daily instruction, teachers need their hands free. That’s why we created ready-to-teach lesson slides for every single lesson. What’s more, they are editable and include suggested teacher talk and point-of-use differentiation and other instructional tips. Click to learn more.

A note about the Materials Kits:

Hands-on learning is at the heart of Amplify Science, and is integrated into every unit. In order to make hands-on learning more manageable for busy teachers, Amplify Science materials are organized into unit-specific kits.

Stacked storage bins with labels, arranged neatly; caption notes they are a sample and may not reflect actual quantities or sizes.

What’s different about Amplify’s unit-specific material kits?  They…

  • Include more materials — We give teachers enough non-consumable materials to support a class of 36 students and enough consumables to support 72 student uses. In other words, each kit will last two years.
  • Are more manageable — Unlike other programs that require large groups of students to share limited sets of materials, our kits include enough to support small groups of 4–5 students.
  • Include supportive videos — Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

Grade-specific lists of all materials included in each kit:

Access your digital samples

Explore as a teacher

When you’re ready to explore the teaching experience on your own, follow these instructions to access the Amplify Science digital teacher platform.

  • Click the Access Amplify Science Platform button below and bookmark the page.
  • Select Log in with Amplify.
  • Enter the username: t1.jeffersoncounty@demo.tryamplify.net
  • Enter the password: Amplify1-jeffersoncounty
  • Click on Science on the left hand side.
  • Click on the Program Menu in the top center of the screen and select any grade.
  • Select any unit.
Access Amplify Science Platform

To help familiarize yourself with navigating the digital platform, watch the below navigational video.

Explore as a student

When you’re ready to explore the student learning experience on your own, follow these instructions to access the Amplify Science digital student platform.

  • Click the Access Amplify Science Platform button below and bookmark the page.
  • Select Log in with Amplify.
  • Enter the username: s1.jeffersoncounty@demo.tryamplify.net
  • Enter the password: Amplify1-jeffersoncounty
  • Click the backpack icon on the top right.
  • Click Science K-5
  • Select any unit.
Access Amplify Science Platform

Resources to support your review

Welcome to Amplify Science K–5!

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

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

Four children around a table engaged in a classroom science project, examining materials closely, with educational posters in the background.

What is Amplify Science?

The Lawrence Hall of Science

Developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify, our program features:

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

Proven to work

WestEd Randomized
Control Trial for Grade 1

Read More

WestEd Randomized
Control Trial for Grade 7

Read More

Amplify Science NE
Grades K–5

Read More

Instructional model

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

Do

First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

Talk

Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

Read

Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

Write

Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

Visualize

By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers
do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Program structure

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

It’s this proven program structure and lesson design that enables Amplify Science to address 100% of the Next Generation Science Standards (NGSS) and support students in mastering the Pennsylvania Science Standards.

Flowchart depicting a critical thinking process with four circular nodes connected by arrows, each node representing a step: posing a real-world problem, exploring evidence, elaborating concepts, and evaluating claims.

Unit types

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

In grades K–2:

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

In grades 3–5, students experience the three unit types above, plus:

  • One additional unit that emphasizes the practice of argumentation.

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

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

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

Argumentation units provide students with regular opportunities to explore and discuss available evidence, time and support to consider how evidence may be leveraged in support of claims, and independence that increases as they mount written arguments in support of their claims.

Unit sequence

Our lessons follow a structure that is grounded in regular routines while still being flexible enough to allow for a variety of learning experiences.

In fact, our multi-modal instruction offers more opportunities for students to construct meaning, and practice and apply concepts, than any other program. What’s more, our modular design means our units can be flexibly arranged to support your instructional goals.

Chart outlining science curriculum by grade, from kindergarten through grade 5, listing topics such as

Program components

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

Amplify Science TG

Hands-on learning is an essential part of Amplify Science, and is integrated into every unit. Students actively participate in science, playing the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them. Every unit includes hands-on investigations that are critical to achieving the unit’s learning goals.

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.

More hands-on with Flextensions:
Hands-on Flextensions are additional, optional investigations that are included at logical points in the learning progression and give students an opportunity to dig deeper if time permits. These activities offer teachers flexibility to choose to dedicate more time to hands-on learning. Materials referenced in Hands-on Flextension activities will either be included in the unit kit or are easily sourced. Supporting resources such as student worksheets will be included as downloadable PDF files.

Our kits include enough materials to support 200 student uses. In other words, teachers can easily support all five periods and small groups of 4-5 students each. Plus, our unit-specific kits mean teachers just grab the tub they need and then put it all back with ease.

Assorted office and household items displayed on a white background, including rubber bands, binder clips, cardboard, and sports balls.

Each unit of Amplify Science K–5 includes six unique Student Books written by the Lawrence Hall of Science specifically for the program. These content-rich nonfiction and informational texts provide opportunities for students to search for evidence relevant to their firsthand investigations, see science practices and dispositions modeled, extend their science knowledge, provide real world connections as they master reading-to-learn and close reading skills, and construct evidence-based arguments.

Important note:
Students in grades K–5 are never asked to read alone. Rather, books are read to, with, and by students with ample scaffolding and support provided by the teacher. Big Books are read aloud or together with the class to introduce ideas. Student Books allow for small-group reading and reading in pairs.

Imagen de lado a lado de dos libros titulados "Un día ocupado en Villa Empuja" y "A Busy Day in Pushville", ambos ilustrados por Anthony Lewis.

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

In grades K–5, one copy of the Student Investigation Notebook is included in each unit’s materials kit for use as a blackline master. Each notebook is also available as a downloadable PDF on the Unit Guide page of the digital Teacher’s Guide.

Dos libros de ciencias titulados “Empujar y jalar: diseñar una máquina de pinball” y “Pushes and Pulls: Designing a Pinball Machine” exhibidos uno al lado del otro.

Amplify Science offers digital experience licenses that make elementary instruction more flexible for students and teachers, as well as providing additional means to engage in remote, hybrid, or in-person learning!

Student-facing digital lessons
With the digital experience, students can engage with digital lesson content in one cohesive experience. It’s the same content from Amplify science in a new, integrated format where students can interact with slides, Sims, modeling tools, videos, books, and more.

Ecosystem Restoration digital simulation

Digital student notebook pages
Students can draw, write, record audio, and insert images into their Investigation Notebook pages. Their work is automatically saved and delivered to you in real time. When students edit their work, those edits are immediately reflected on your teacher work review page. You can access student responses by clicking “View Work,” where you can see students’ Investigation Notebook pages from the lesson, updating live.

Assign in Amplify
The digital experience allows flexibility with optional features like scheduling assignments in advance and setting due dates. You can use Scheduling to determine the date and time that the assignment appears in Student Home. You also have the flexibility to schedule when assignments appear and use dates to remove assignments from Student Home.

Assign in LMS
You can also assign lessons via our integrations with Google Classroom and Microsoft Teams, or by copying a lesson link and sharing it with students through the platform of your choice. The assignment link you send will provide students with direct access to the full lesson—slides, videos, digital tools, and worksheet activities—no student platform navigation required!

Teacher platform and presentation
Teacher-facing lesson content—including sample teacher talk, student responses, pedagogical support, and possible student responses—shows on a teacher’s private Teacher Guide tab. Students only see the lesson slides that are being presented.

Graphic depicting a teacher's device synced with a class presentation for K—5 students. The teacher's laptop displays an Amplify Science lesson on environments, which is mirrored on a larger screen for the class

Explore your print samples

With your Amplify Science print samples, you’ll find unit-specific Teacher’s References Guides, Student Investigation Notebooks, and sets of Student Books for each grade level.

A note about the Teacher’s Reference Guides:

It’s important that you see the full breadth and depth of our instruction. For that reason, we provide a copy of each of our unit-specific Teacher Reference Guides.

Rest assured that teachers do not use these robust reference guides for day-to-day teaching. For that, we have a hands-free TG!

Three laptop screens displaying educational content on earth's energy system, including diagrams and text annotations.
  • Teacher Reference Guide: Unlike a typical TG that requires a series of supplemental books to support it, our encyclopedic reference guide is chock-full of everything a teacher needs to fully implement our program and the NGSS.
  • Ready-to-Teach Lesson Slides: For daily instruction, teachers need their hands free. That’s why we created ready-to-teach lesson slides for every single lesson. What’s more, they are editable and include suggested teacher talk and point-of-use differentiation and other instructional tips. Click to learn more.

A note about the Materials Kits:

Hands-on learning is at the heart of Amplify Science, and is integrated into every unit. In order to make hands-on learning more manageable for busy teachers, Amplify Science materials are organized into unit-specific kits.

Stacked storage bins with labels, arranged neatly; caption notes they are a sample and may not reflect actual quantities or sizes.

Our unit-specific kits:

What’s different about Amplify’s unit-specific material kits?  They…

  • Include more materials — We give teachers enough non-consumable materials to support a class of 36 students and enough consumables to support 72 student uses. In other words, each kit will last two years.
  • Are more manageable — Unlike other programs that require large groups of students to share limited sets of materials, our kits include enough to support small groups of four to five students.
  • Include supportive videos — Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

Grade-specific lists of all materials included in each kit:

Access your digital samples

Explore as a teacher

When you’re ready to explore the teaching experience on your own, follow these instructions to access the Amplify Science digital teacher platform.

  • Click the Access Amplify Science Platform button below and bookmark the page.
  • Select Log in with Amplify.
  • Enter the username: t1.dpsscience@demo.tryamplify.net
  • Enter the password: Amplify1-dpsscience
  • Click on Science on the left hand side.
  • Click on the Grade Menu in the top center of the screen and select any grade.
  • Select any unit.
Access Amplify Science Platform

To help familiarize yourself with navigating the digital platform, watch the below navigational video.

Explore as a student

When you’re ready to explore the student learning experience on your own, follow these instructions to access the Amplify Science digital student platform.

  • Click the Access Amplify Science Platform button below and bookmark the page.
  • Select Log in with Amplify.
  • Enter the username: s1.dpsscience@demo.tryamplify.net
  • Enter the password: Amplify1-dpsscience
  • Click the backpack icon on the top right.
  • Click Science K-5
  • Select any unit.
Access Amplify Science Platform

Spanish-language support

Amplify Science is committed to providing support to meet the needs of all learners, including multiple access points for Spanish-speaking students. Developed in conjunction with Spanish-language experts and classroom teachers, several components are available in Spanish across the Amplify Science curriculum.

Spanish-language materials include:

COMPONENTTEACHER/STUDENT
Student Investigation NotebooksStudent
Student BooksStudent
Printed classroom materials
Unit and chapter questions, key concepts, vocabulary cards, etc.		Teacher and student
CopymastersTeacher
AssessmentsTeacher
Spanish teacher support license
This license includes teacher talk, projections, and downloadable PDFs of all print materials in Spanish.		Teacher

Resources to support your review

Amplify Science Overview

The Lawrence Hall of Science

Developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify, our program features:

  • phenomena-based approach where students construct a complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Carefully crafted units, chapters, lessons, and activities designed to deliver true 3-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.
The logo for The Lawrence Hall of Science, University of California, Berkeley, features blue text on a light background and is recognized by educators using Amplify Science for middle school science programs.

Instructional model

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

DO

First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

TALK

Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ

Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE

Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE

By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Program structure

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

It’s this proven program structure and lesson design that enables Amplify Science to address 100% of the NGSS, and support students in mastering the standards.

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 types

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

In grades K–2:

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

In grades 3–5, students experience the three unit types above, plus:

  • One additional unit that emphasizes the practice of argumentation.

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

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

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

Argumentation units provide students with regular opportunities to explore and discuss available evidence, time and support to consider how evidence may be leveraged in support of claims, and independence that increases as they mount written arguments in support of their claims.

Unit sequence

Our lessons follow a structure that is grounded in regular routines while still being flexible enough to allow for a variety of learning experiences.

In fact, our multi-modal instruction offers more opportunities for students to construct meaning, and practice and apply concepts than any other program. What’s more, our modular design means our units can be flexibly arranged to support your instructional goals.

A chart showing science topics by grade: K covers plants, weather, and forces; 1 covers animals, sound, and Earth; 2 covers relationships, materials, and landforms; 3–5 cover energy, traits, systems, and climate.

Program components

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

Amplify Science TG

Hands-on learning is an essential part of Amplify Science, and is integrated into every unit. Students actively participate in science, playing the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them. Every unit includes hands-on investigations that are critical to achieving the unit’s learning goals.

Two children sit at a table blowing into plastic straws held together, likely making musical sounds, with containers and rubber bands on the table.

More hands-on with Flextensions:
Hands-on Flextensions are additional, optional investigations that are included at logical points in the learning progression and give students an opportunity to dig deeper if time permits. These activities offer teachers flexibility to choose to dedicate more time to hands-on learning. Materials referenced in Hands-on Flextension activities will either be included in the unit kit or are easily sourced. Supporting resources such as student worksheets will be included as downloadable PDF files.

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

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

Each unit of Amplify Science K–5 includes six unique Student Books written by the Lawrence Hall of Science specifically for the program. These content-rich nonfiction and informational texts provide opportunities for students to search for evidence relevant to their firsthand investigations, see science practices and dispositions modeled, extend their science knowledge, provide real world connections as they master reading-to-learn and close reading skills, and construct evidence-based arguments.

Important note:
Students in grades K–5 are never asked to read alone. Rather, books are read to, with, and by students with ample scaffolding and support provided by the teacher. Big Books are read aloud or together with the class to introduce ideas. Student Books allow for small-group reading and reading in pairs.

Illustrations of two children's book covers displayed on a tablet, titled "on dia ocupado en villa empuja" and "a busy day in pushville," showing a busy street scene.

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

In grades K–5, one copy of the Student Investigation Notebook is included in each unit’s materials kit for use as a blackline master. Each notebook is also available as a downloadable PDF on the Unit Guide page of the digital Teacher’s Guide.

Amplify Science Student Investigation Notebooks

Amplify Science offers digital experience licenses that make elementary instruction more flexible for students and teachers, as well as providing additional means to engage in remote, hybrid, or in-person learning!

Student-facing digital lessons
With the digital experience, students can engage with digital lesson content in one cohesive experience. It’s the same content from Amplify science in a new, integrated format where students can interact with slides, Sims, modeling tools, videos, books, and more.

Ecosystem Restoration digital simulation

Digital student notebook pages
Students can draw, write, record audio, and insert images into their Investigation Notebook pages. Their work is automatically saved and delivered to you in real time. When students edit their work, those edits are immediately reflected on your teacher work review page. You can access student responses by clicking “View Work,” where you can see students’ Investigation Notebook pages from the lesson, updating live.

[IMAGE TO COME]

Assign in Amplify
The digital experience allows flexibility with optional features like scheduling assignments in advance and setting due dates. Teacher can use Scheduling to determine the date and time that the assignment appears in Student Home. They also have the flexibility to schedule when assignments appear and use dates to remove assignments from Student Home.

Assign in LMS
You can also assign lessons via our integrations with Google Classroom and Microsoft Teams, or by copying a lesson link and sharing it with students through the platform of your choice. The assignment link you send will provide students with direct access to the full lesson—slides, videos, digital tools, and worksheet activities—no student platform navigation required!

Teacher platform and presentation
Teacher-facing lesson content—including sample teacher talk, student responses, pedagogical support, and possible student responses—shows on a teacher’s private Teacher Guide tab. Students only see the lesson slides that are being presented.

Graphic depicting a teacher's device synced with a class presentation for K—5 students. The teacher's laptop displays an Amplify Science lesson on environments, which is mirrored on a larger screen for the class

Explore your print samples

With your Amplify Science print samples, you’ll find unit-specific Teacher’s References Guides, Student Investigation Notebooks, and sets of Student Books for each grade level.

A note about the Teacher’s Reference Guides:

It’s important that you see the full breadth and depth of our instruction. For that reason, we provide a copy of each of our unit-specific Teacher Reference Guides.

Rest assured that teachers do not use these robust reference guides for day-to-day teaching. For that, we have a hands-free TG!

A laptop screen shows an energy simulation, with surrounding text and diagrams explaining the Earth's system and energy flow.
  • Teacher Reference Guide: Unlike a typical TG that requires a series of supplemental books to support it, our encyclopedic reference guide is chock-full of everything a teacher needs to fully implement our program and the NGSS.
  • Ready-to-Teach Lesson Slides: For daily instruction, teachers need their hands free. That’s why we created ready-to-teach lesson slides for every single lesson. What’s more, they are editable and include suggested teacher talk and point-of-use differentiation and other instructional tips. Click to learn more.

A note about the Materials Kits:

Hands-on learning is at the heart of Amplify Science, and is integrated into every unit. In order to make hands-on learning more manageable for busy teachers, Amplify Science materials are organized into unit-specific kits.

Stacked storage bins with labels, arranged neatly; caption notes they are a sample and may not reflect actual quantities or sizes.

What’s different about Amplify’s unit-specific material kits?  They…

  • Include more materials — We give teachers enough non-consumable materials to support a class of 36 students and enough consumables to support 72 student uses. In other words, each kit will last two years.
  • Are more manageable — Unlike other programs that require large groups of students to share limited sets of materials, our kits include enough to support small groups of 4–5 students.
  • Include supportive videos — Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

Grade-specific lists of all materials included in each kit:

Access your digital samples

Explore as a teacher

When you’re ready to explore the teaching experience on your own, follow these instructions to access the Amplify Science digital teacher platform.

  • Click the Access Amplify Science Platform button below and bookmark the page.
  • Select Log in with Amplify.
  • Enter the username: t1.jeffersoncounty@demo.tryamplify.net
  • Enter the password: Amplify1-jeffersoncounty
  • Click on Science on the left hand side.
  • Click on the Program Menu in the top center of the screen and select any grade.
  • Select any unit.
Access Amplify Science Platform

To help familiarize yourself with navigating the digital platform,watch the below navigational video.

Explore as a student

When you’re ready to explore the student learning experience on your own, follow these instructions to access the Amplify Science digital student platform.

  • Click the Access Amplify Science Platform button below and bookmark the page.
  • Select Log in with Amplify.
  • Enter the username: s1.jeffersoncounty@demo.tryamplify.net
  • Enter the password: Amplify1-jeffersoncounty
  • Click the backpack icon on the top right.
  • Click Science K-5
  • Select any unit.
Access Amplify Science Platform

Resources to support your review

Publisher presentation

The Lawrence Hall of Science

Developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify, our program features:

  • phenomena-based approach where students construct a complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Carefully crafted units, chapters, lessons, and activities designed to deliver true 3-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.
The logo for The Lawrence Hall of Science, University of California, Berkeley, features blue text on a light background and is recognized by educators using Amplify Science for middle school science programs.

Instructional model

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

DO

First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

TALK

Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ

Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE

Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE

By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Program structure

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

It’s this proven program structure and lesson design that enables Amplify Science to address 100% of the NGSS, and support students in mastering the Oregon Science Standards.

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 types

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

In grades K–2:

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

In grades 3–5, students experience the three unit types above, plus:

  • One additional unit that emphasizes the practice of argumentation.

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

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

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

Argumentation units provide students with regular opportunities to explore and discuss available evidence, time and support to consider how evidence may be leveraged in support of claims, and independence that increases as they mount written arguments in support of their claims.

Unit sequence

Our lessons follow a structure that is grounded in regular routines while still being flexible enough to allow for a variety of learning experiences.

In fact, our multi-modal instruction offers more opportunities for students to construct meaning, and practice and apply concepts than any other program. What’s more, our modular design means our units can be flexibly arranged to support your instructional goals.

Chart outlining science curriculum by grade, from kindergarten through grade 5, listing topics such as

Program components

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

Amplify Science TG

Hands-on learning is an essential part of Amplify Science, and is integrated into every unit. Students actively participate in science, playing the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them. Every unit includes hands-on investigations that are critical to achieving the unit’s learning goals.

Two children sit at a table blowing into plastic straws held together, likely making musical sounds, with containers and rubber bands on the table.

More hands-on with Flextensions:
Hands-on Flextensions are additional, optional investigations that are included at logical points in the learning progression and give students an opportunity to dig deeper if time permits. These activities offer teachers flexibility to choose to dedicate more time to hands-on learning. Materials referenced in Hands-on Flextension activities will either be included in the unit kit or are easily sourced. Supporting resources such as student worksheets will be included as downloadable PDF files.

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

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

Each unit of Amplify Science K–5 includes six unique Student Books written by the Lawrence Hall of Science specifically for the program. These content-rich nonfiction and informational texts provide opportunities for students to search for evidence relevant to their firsthand investigations, see science practices and dispositions modeled, extend their science knowledge, provide real world connections as they master reading-to-learn and close reading skills, and construct evidence-based arguments.

Important note:
Students in grades K–5 are never asked to read alone. Rather, books are read to, with, and by students with ample scaffolding and support provided by the teacher. Big Books are read aloud or together with the class to introduce ideas. Student Books allow for small-group reading and reading in pairs.

Amplify Science Student Books

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

In grades K–5, one copy of the Student Investigation Notebook is included in each unit’s materials kit for use as a blackline master. Each notebook is also available as a downloadable PDF on the Unit Guide page of the digital Teacher’s Guide.

Amplify Science Student Investigation Notebooks

Amplify Science offers digital experience licenses that make elementary instruction more flexible for students and teachers, as well as providing additional means to engage in remote, hybrid, or in-person learning!

Student-facing digital lessons
With the digital experience, students can engage with digital lesson content in one cohesive experience. It’s the same content from Amplify science in a new, integrated format where students can interact with slides, Sims, modeling tools, videos, books, and more.

Amplify Science SIM

Digital student notebook pages
Students can draw, write, record audio, and insert images into their Investigation Notebook pages. Their work is automatically saved and delivered to you in real time. When students edit their work, those edits are immediately reflected on your teacher work review page. You can access student responses by clicking “View Work,” where you can see students’ Investigation Notebook pages from the lesson, updating live.

[IMAGE TO COME]

Assign in Amplify
The digital experience allows flexibility with optional features like scheduling assignments in advance and setting due dates. Teacher can use Scheduling to determine the date and time that the assignment appears in Student Home. They also have the flexibility to schedule when assignments appear and use dates to remove assignments from Student Home.

Assign in LMS
You can also assign lessons via our integrations with Google Classroom and Microsoft Teams, or by copying a lesson link and sharing it with students through the platform of your choice. The assignment link you send will provide students with direct access to the full lesson—slides, videos, digital tools, and worksheet activities—no student platform navigation required!

Teacher platform and presentation
Teacher-facing lesson content—including sample teacher talk, student responses, pedagogical support, and possible student responses—shows on a teacher’s private Teacher Guide tab. Students only see the lesson slides that are being presented.

Amplify Science Student Digital

Explore your print samples

Amplify Science physical samples can be found at the Hamersley Library at Western Oregon University. There you’ll find unit-specific Teacher’s References Guides, Student Investigation Notebooks, and sets of Student Books for each grade level.

A note about the Teacher’s Reference Guides:

It’s important that your committee sees the full breadth and depth of our instruction. For that reason, we provided a copy of each of our unit-specific Teacher Reference Guides.

Rest assured that teachers do not use these robust reference guides for day-to-day teaching. For that, we have a hands-free TG!

A laptop screen shows an energy simulation, with surrounding text and diagrams explaining the Earth's system and energy flow.

A note about the Materials Kits:

Hands-on learning is at the heart of Amplify Science, and is integrated into every unit. In order to make hands-on learning more manageable for busy teachers, Amplify Science materials are organized into unit-specific kits.

Stacked storage bins with labels, arranged neatly; caption notes they are a sample and may not reflect actual quantities or sizes.

Our unit-specific kits:

    • Include more materials — We give teachers enough non-consumable materials to support a class of 36 students and enough consumables to support 72 student uses. In other words, each kit will last two years.
    • Are more manageable — Unlike other programs that require large groups of students to share limited sets of materials, our kits include enough to support small groups of 4–5 students.
    • Include supportive videos — Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

At your request, we did not include our materials kits with our submissions samples. However, we did provide grade-specific lists of all materials included in each kit, which you can also find with the links below.

Access your digital samples

Explore as a teacher

When you’re ready to explore the teaching experience on your own, follow these instructions to access the Amplify Science digital teacher platform.

  • Click the Access Amplify Science Platform button below.
  • Select Log in with Amplify.
  • Enter the teacher username and password found on your unique login flyer enclosed in your physical sample box.
  • Click the Science icon.
  • Click on the Grade Menu in the top center of the screen and select any grade.
  • Select any unit.
Access Amplify Science Platform

To help familiarize yourself with navigating the digital platform, watch the below navigational video.

Explore as a student

When you’re ready to explore the student learning experience on your own, follow these instructions to access the Amplify Science digital student platform.

  • Click the Access Amplify Science Platform button below.
  • Select Log in with Amplify.
  • Enter the student username and password found on your unique login flyer enclosed in your physical sample box.
  • Click the Science icon.
  • Click on the Grade Menu in the top center of the screen and select any grade.
  • Select any unit.
Access Amplify Science Platform

Resources to support your review

What is Amplify Science?

The Lawrence Hall of Science

Developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify, our program features:

  • phenomena-based approach where students construct a complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Carefully crafted units, chapters, lessons, and activities designed to deliver true three-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.
Aerial view of the lawrence hall of science at the university of california, berkeley, showcasing the building and surrounding trees with a foggy city backdrop.

Proven to work

A pdf cover from wested titled "learning and literacy development together: initial results from a curriculum study," featuring an adult helping children with schoolwork in a classroom.

WestEd Randomized
Control Trial for Grade 1

Read More

Pdf cover titled "curriculum materials designed for the next generation science standards: initial results from gold standard research trials", published by wested.

WestEd Randomized
Control Trial for Grade 7

Read More

A teacher and students engage in a science activity around a table. The text promotes the Amplify Science K–8 curriculum, highlighting its focus on hands-on learning and real-world problem-solving.

Amplify Science NE
Grades K–5

Read More

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

Firsthand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

Talk

Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

Read

Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

Write

Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

Visualize

By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Program structure

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

It’s this proven program structure and lesson design that enables Amplify Science to address 100% of the NGSS and support students in mastering the Utah Science Standards.

Flowchart depicting a critical thinking process with four circular nodes connected by arrows, each node representing a step: posing a real-world problem, exploring evidence, elaborating concepts, and evaluating claims.

Unit types

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

In grades K–2:

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

In grades 3–5, students experience the three unit types above, plus:

  • One additional unit that emphasizes the practice of argumentation.

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

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

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

Argumentation units provide students with regular opportunities to explore and discuss available evidence, time and support to consider how evidence may be leveraged in support of claims, and independence that increases as they mount written arguments in support of their claims.

Unit sequence

Our lessons follow a structure that is grounded in regular routines while still being flexible enough to allow for a variety of learning experiences.

In fact, our multi-modal instruction offers more opportunities for students to construct meaning, and practice and apply concepts, than any other program. What’s more, our modular design means our units can be flexibly arranged to support your instructional goals.

Chart outlining science curriculum by grade, from kindergarten through grade 5, listing topics such as

Program components

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

Amplify Science TG

Hands-on learning is an essential part of Amplify Science and is integrated into every unit. Students actively participate in science, playing the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them. Every unit includes hands-on investigations that are critical to achieving the unit’s learning goals.

Two children sit at a table blowing into plastic straws held together, likely making musical sounds, with containers and rubber bands on the table.

More hands-on with Flextensions:
Hands-on Flextensions are additional, optional investigations that are included at logical points in the learning progression and give students an opportunity to dig deeper if time permits. These activities offer teachers flexibility to choose to dedicate more time to hands-on learning. Materials referenced in Hands-on Flextension activities will either be included in the unit kit or are easily sourced. Supporting resources such as student worksheets will be included as downloadable PDF files.

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

Each unit of Amplify Science K–5 includes six unique Student Books written by the Lawrence Hall of Science specifically for the program. These content-rich nonfiction and informational texts provide opportunities for students to search for evidence relevant to their firsthand investigations, see science practices and dispositions modeled, extend their science knowledge, provide real world connections as they master reading-to-learn and close reading skills, and construct evidence-based arguments.

Important note:
Students in grades K–5 are never asked to read alone. Rather, books are read to, with, and by students with ample scaffolding and support provided by the teacher. Big Books are read aloud or together with the class to introduce ideas. Student Books allow for small-group reading and reading in pairs.

Illustrations of two children's book covers displayed on a tablet, titled "on dia ocupado en villa empuja" and "a busy day in pushville," showing a busy street scene.

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

In grades K–5, one copy of the Student Investigation Notebook is included in each unit’s materials kit for use as a blackline master. Each notebook is also available as a downloadable PDF on the Unit Guide page of the digital Teacher’s Guide.

Amplify Science Student Investigation Notebooks

Amplify Science offers digital experience licenses that make elementary instruction more flexible for students and teachers, as well as providing additional means to engage in remote, hybrid, or in-person learning!

Student-facing digital lessons
With the digital experience, students can engage with digital lesson content in one cohesive experience. It’s the same content from Amplify science in a new, integrated format where students can interact with slides, Sims, modeling tools, videos, books, and more.

Ecosystem Restoration digital simulation

Digital student notebook pages
Students can draw, write, record audio, and insert images into their Investigation Notebook pages. Their work is automatically saved and delivered to you in real time. When students edit their work, those edits are immediately reflected on your teacher work review page. You can access student responses by clicking “View Work,” where you can see students’ Investigation Notebook pages from the lesson, updating live.

Assign in Amplify
The digital experience allows flexibility with optional features like scheduling assignments in advance and setting due dates. You can use Scheduling to determine the date and time that the assignment appears in Student Home. You also have the flexibility to schedule when assignments appear and use dates to remove assignments from Student Home.

Assign in LMS
You can also assign lessons via our integrations with Google Classroom and Microsoft Teams, or by copying a lesson link and sharing it with students through the platform of your choice. The assignment link you send will provide students with direct access to the full lesson—slides, videos, digital tools, and worksheet activities—no student platform navigation required!

Teacher platform and presentation
Teacher-facing lesson content—including sample teacher talk, student responses, pedagogical support, and possible student responses—shows on a teacher’s private Teacher Guide tab. Students only see the lesson slides that are being presented.

Graphic depicting a teacher's device synced with a class presentation for K—5 students. The teacher's laptop displays an Amplify Science lesson on environments, which is mirrored on a larger screen for the class

Explore your print samples

With your Amplify Science print samples, you’ll find unit-specific Teacher’s References Guides, Student Investigation Notebooks, and sets of Student Books for each grade level.

A note about the Teacher’s Reference Guides:

It’s important that you see the full breadth and depth of our instruction. For that reason, we provide a copy of each of our unit-specific Teacher Reference Guides.

Rest assured that teachers do not use these robust reference guides for day-to-day teaching. For that, we have a hands-free TG!

A laptop screen displays a simulation of energy arrows entering and exiting Earth's system, flanked by diagrams explaining water flow and an energy token model.
  • Teacher Reference Guide: Unlike a typical TG that requires a series of supplemental books to support it, our encyclopedic reference guide is chock-full of everything a teacher needs to fully implement our program and the NGSS.
  • Ready-to-Teach Lesson Slides: For daily instruction, teachers need their hands free. That’s why we created ready-to-teach lesson slides for every single lesson. What’s more, they are editable and include suggested teacher talk and point-of-use differentiation and other instructional tips. Click to learn more.

A note about the Materials Kits:

Hands-on learning is at the heart of Amplify Science, and is integrated into every unit. In order to make hands-on learning more manageable for busy teachers, Amplify Science materials are organized into unit-specific kits.

Stacked storage bins with labels, arranged neatly; caption notes they are a sample and may not reflect actual quantities or sizes.

What’s different about Amplify’s unit-specific material kits?  They…

  • Include more materials — We give teachers enough non-consumable materials to support a class of 36 students and enough consumables to support 72 student uses. In other words, each kit will last two years.
  • Are more manageable — Unlike other programs that require large groups of students to share limited sets of materials, our kits include enough to support small groups of 4–5 students.
  • Include supportive videos — Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

Grade-specific lists of all materials included in each kit:

Access your digital samples

Explore as a teacher

When you’re ready to explore the teaching experience on your own, follow these instructions to access the Amplify Science digital teacher platform.

  • Click the Access Amplify Science Platform button below and bookmark the page.
  • Select Log in with Amplify.
  • Enter the username: t.scienceut@tryamplify.net
  • Enter the password: AmplifyNumber1
  • Click on Science on the left hand side.
  • Click on the Grade Menu in the top center of the screen and select any grade.
  • Select any unit.
Access Amplify Science Platform

To help familiarize yourself with navigating the digital platform, watch the below navigational video.

Explore as a student

When you’re ready to explore the student learning experience on your own, follow these instructions to access the Amplify Science digital student platform.

  • Click the Access Amplify Science Platform button below and bookmark the page.
  • Select Log in with Amplify.
  • Enter the username: s.scienceut@tryamplify.net
  • Enter the password: AmplifyNumber1
  • Click the backpack icon on the top right.
  • Click Science K-5
  • Select any unit.
Access Amplify Science Platform

Resources to support your review

Website Terms of Use

Description of Site Services; Acceptance of Terms of Use

Welcome to www.amplify.com (together with any successor sites and the Site Services and Company Content (each as defined below), in whole and in part, the “Site”). The Site is operated by Amplify Education, Inc. (“Company” or “we”). The services that Company makes available on or through the Site include education-related articles, information and instructional services, purchasing functionality, support chat functionality and any other features, content, services, functionality and applications offered from time to time by Company on or through the Site (collectively, “Site Services”).

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  • Restrict or inhibit any other person from using the Site (including by hacking or defacing the Site). Cover, remove, disable, block or obscure the Site (including advertisements on the Site).
  • Use technology or any automated system, such as scripts or bots, to collect user names, passwords, e-mail addresses or any other data from or through the Site, or to circumvent or modify any security technology or software that is part of the Site.
  • Send or cause to send (directly or indirectly) unsolicited bulk messages or other unsolicited bulk communications of any kind through the Site. If you do so, you acknowledge you will have caused substantial harm to Company, and that the amount of such harm would be extremely difficult to measure. As a reasonable estimation of such harm, you agree to pay to Company $50.00 for each actual or intended recipient of such communication.
  • Modify, adapt, translate, reverse engineer, decompile or disassemble the Site.
  • Solicit, collect or request any information for commercial or unlawful purposes.
  • Post, upload or otherwise transmit an image or video of another person without that person’s consent.
  • Use the Site to advertise, promote or engage in any commercial activity (including engaging in sales, contests or sweepstakes) without Company’s prior written consent.
  • Frame or mirror the Site without Company’s express prior written consent.
  • Use the Site in a manner inconsistent with any applicable law, rule or regulation.
  • Use any robot, spider, site search/retrieval application or other manual or automatic device to retrieve, index, “scrape,” “data mine,” or in any way gather content of the Site or reproduce or circumvent the navigational structure or presentation of the Site without Company’s express prior written consent. Notwithstanding the foregoing, Company grants to the operators of public search engines the permission to use spiders to copy material from the Site for the sole purpose of, and solely to the extent necessary for, creating publicly-available searchable indices of such material, but not caches or archives of such material. Company reserves the right to revoke these exceptions either generally or in specific cases.
  • Attempt, facilitate or encourage others to do any of the foregoing.

Company reserves the right to investigate and take appropriate legal action against anyone who, in Company’s discretion, violates this Agreement or attempts to do so, including terminating or suspending a user’s Account or access to or use of the Site, or reporting any User Content or conduct to law enforcement authorities.

You (and not Company) are responsible for obtaining and maintaining all telecommunications, broadband and computer hardware, equipment and services needed to access and use the Site, and for paying all charges related thereto.

User disputes

You are solely responsible for your interactions with other users of the Site, providers of Third Party Services (as defined below) or any other third parties with whom you interact on, through or in connection with the Site.

Purchases

Company may make available products and services for purchase through the Site, and may use third-party suppliers and service providers to enable e-commerce functionality on the Site. You may only purchase products and services that appear on the Site and that are delivered to an address located in the United States. You may only purchase products and services for personal, non-commercial use by you, your educational institution or students of your educational institution. We may limit quantities or refuse any order for any reason or no reason, including if we have reasonable cause to believe an order is for onward sale or resale other than through distribution channels approved by us. We make no promise that products or services available on the Site are appropriate or available for use in locations outside the United States, and purchasing products or services for delivery to or use in territories where their contents are unlawful is prohibited. If you choose to purchase products or services from locations outside the United States, you do so at your own risk. It is your responsibility to ascertain and obey all applicable local, state, federal and international laws (including minimum age requirements) in regard to the possession, use and sale of any product or service made available through the Site.

If you wish to purchase any product or service made available through the Site, you may be asked to supply certain information relevant to your transaction, including your credit card number, the expiration date of your credit card, your billing address and your shipping information. YOU REPRESENT AND WARRANT THAT YOU HAVE THE LEGAL RIGHT TO USE ANY CREDIT CARD(S) USED IN CONNECTION WITH ANY TRANSACTION. By submitting such information, you grant to Company the right to provide such information to third parties for purposes of facilitating the completion of transactions initiated by you or on your behalf. Verification of information may be required prior to the acknowledgement or completion of any transaction. While it is our practice to confirm orders by e-mail, the receipt of an e-mail order confirmation does not constitute our acceptance of an order or our confirmation of an offer to sell a product or service.

Details of the products and services available for purchase are set forth on the Site. All prices are displayed exclusive of all taxes and shipping/freight charges. Available payment methods, methods of shipping and shipping charges (including charges for expedited shipping, if available) are detailed on the Site. Company may also collect and remit sales tax on your purchase as required by United States law. If you are a tax-exempt entity, please enter the appropriate information where requested on your order form and we will not collect sales tax on your purchase.

Generally, credit and debit cards are not charged until we either ship the product(s) or confirm store availability (at which time you will be charged only for the products we have actually shipped along with any applicable taxes and shipping charges). However, we may pre-authorize your order amount with your credit or debit card issuer at the time you place the order, which may have an effect on your available credit line. When paying for a preorder with a debit card, you will be charged at the time you place your preorder. Please contact your credit or debit card issuer for more information. If you ordered a special delivery product, you will be charged once a delivery time is confirmed. For digitally delivered orders, your credit or debit card will be charged at the time that you initiate the download of the product.

All purchases made through the Site are made pursuant to a shipment contract. As a result, risk of loss and title for products purchased through the Site pass to you upon delivery of the products to the carrier. You are responsible for filing any claims with carriers for damaged and/or lost shipments. Please note that all shipping addresses must be compliant with the shipping restrictions contained on the Site.

Products, services and specifications

All products and services described or depicted on the Site, and all related features, content, specifications and prices, are subject to change at any time without notice. Certain weights, measures and similar descriptions are approximate and are provided for convenience purposes only. Packaging may vary from that shown. We make reasonable efforts to accurately display the attributes of our products, including the applicable colors; however, the actual color you see will depend on your computer system, and we cannot guarantee that your computer will accurately display such colors. The inclusion of any product or service on the Site at a particular time does not imply or warrant that such product or service will be available at any time. Occasionally, the manufacture or distribution of a certain product or service may be delayed for a number of reasons. In such event, we will make reasonable efforts to notify you of the delay and keep you informed of the revised delivery schedule. By placing an order, you represent that the products and services ordered will be used only in a lawful manner. All DVDs and similar products are sold for private, non-commercial home use (where no admission fee is charged), non-public performance, or classroom or instructional use only, and may not be duplicated.

Return and exchange policy

Unless otherwise specified in the terms associated with a particular product, you may return or exchange any product purchased through the Site within fourteen (14) days of receipt, by calling our customer service hotline, 1–800–823–1969, in the event that the purchased product is defective or you received the wrong product. Except for the foregoing, you may not return, cancel or exchange any product or service. Certain jurisdictions may provide additional statutory rights. Nothing herein is meant to limit your return or cancellation rights under local law. In the event that a return or exchange is due to an incorrect order or faulty product, we will be responsible for the shipping costs associated with such return. We will ship a replacement product upon receiving your defective or incorrect product and verifying the reason for the return or exchange.

Accuracy of information

We attempt to ensure that information on the Site is complete, accurate and current. Despite our efforts, the information on the Site may occasionally be inaccurate, incomplete or out of date. We make no representation as to the completeness, accuracy or currency of any information on the Site. For example, products or services included on the Site may be unavailable, may have different attributes than those listed, or may carry a different price than that stated on the Site. If an item’s correct price is higher than our stated price, we will, at our discretion, either contact you for instructions before shipping or cancel your order and notify you of such cancellation. Items in your “Shopping Bag” reflect the current price displayed on the item’s product detail page. Please note that this price may differ from the price displayed when the item was first placed in your Shopping Bag. In addition, we may make changes in information about price and availability without notice.

Chemicals, agricultural materials, and other hazardous materials

Certain products made available through the Site may include chemicals, agricultural materials or other material that may be subject to regulations or restrictions with respect to import or export, or to whom we may sell such material or where or how such material may be used. It is your responsibility to read and abide by all warning notices that accompany any products that you purchase. In addition, we reserve the right to request additional information from you, verify your identity, limit sales to certified educational or research institutions, or cancel or delay your order if required by law or if we believe it is necessary or advisable. Due to special shipping and handling requirements, freight companies routinely impose a surcharge on each package of hazardous material shipped. In such event, we will add such surcharge to your order.

Registration and account security

You may have the ability to create an account on or through the Site (an “Account”). If you submit registration information to create an Account, you represent and warrant that all information submitted to Company in connection with such registration is complete and accurate, and that you will update such information if it changes. If you create an Account, you are responsible for all use of your Account, and for maintaining the confidentiality of the information used to access your Account (including user name and password). You agree not to share your user name or password with anyone, or use anyone else’s Account at any time. You agree to notify Company immediately if you suspect any unauthorized use of, or access to, your Account (including your user name and password). You acknowledge that the reuse of your password in connection with accounts on other websites increases the risk that the security of your Account may be compromised.

The Site may make available, or third parties may provide, links to other websites, applications, resources, advertisements, Content or other products or services created, hosted or made available by third parties (“Third Party Services”), and such third party may use other third parties to provide portions of the Third Party Service to you, such as technology, development or payment services. When you access or use a Third Party Service, you are interacting with the applicable third party, not with Company, and you do so at your own risk. Company is not responsible for and makes no warranties, express or implied, as to the Third Party Services or the providers of such Third Party Services (including the accuracy or completeness of the information provided by such Third Party Service or the privacy practices of any third party). Inclusion of any Third Party Service or a link thereto on the Site does not imply approval or endorsement of such Third Party Service. Company is not responsible or liable for the content or practices of any Third Party Service or third party, even if such Third Party Service links to or is linked by the Site, and even if such Third Party Service is operated by an affiliate of Company or a company otherwise connected with us or the Site

Feedback

Unless we expressly agree otherwise in writing, if you provide us with any ideas, proposals, suggestions or materials (“Feedback”), whether related to the Site or otherwise, you hereby acknowledge and agree that (a) your provision of any Input is gratuitous, unsolicited and without restriction and does not place Company under any fiduciary or other obligation; and (b) any Feedback is not confidential and Company has no confidentiality obligations with respect to such Feedback.. You hereby grant to us a world-wide, royalty-free, fully paid-up, exclusive, perpetual, irrevocable, transferable and fully sublicensable (through multiple tiers) license, without additional consideration to you or any third party, to reproduce, distribute, perform and display (publicly or otherwise), adapt, modify and otherwise use and exploit such Feedback, in any format or media now known or hereafter developed, and you hereby represent and warrant that you have all necessary rights to grant the foregoing license. We may use Feedback for any purpose whatsoever without permission or notice, compensation or attribution to you or any third party. You are and remain responsible and liable for the content of any Feedback.

Privacy

Please review the Privacy Policy for the Site, available at http://www.amplify.com/privacy, to learn about our information collection, usage and disclosures practices with respect to information collected by us through the Site. Please note that certain products or services made available by us, other than the Site, may be subject to different privacy policies. In addition, the Site’s Privacy Policy does not address, and we are not responsible or liable for, the information collection, usage and disclosures practices of any third party or Third Party Service.

Disclaimers

THE SITE, USER CONTENT, THIRD PARTY SERVICES, AND ALL PRODUCTS AND SERVICES SOLD THROUGH THE SITE (COLLECTIVELY, THE “SITE PRODUCTS”) ARE MADE AVAILABLE “AS-IS” AND “AS AVAILABLE” AND COMPANY DOES NOT GUARANTEE OR PROMISE ANY SPECIFIC RESULTS FROM USE OF THE SITE PRODUCTS. COMPANY AND ITS AFFILIATES EXPRESSLY DISCLAIM ANY WARRANTIES AND CONDITIONS OF ANY KIND, WHETHER EXPRESS OR IMPLIED, INCLUDING THE IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN PARTICULAR, COMPANY AND ITS AFFILIATES MAKE NO WARRANTY THAT THE SITE OR USER CONTENT OR THIRD PARTY SERVICES, OR YOUR ACCESS TO OR USE THEREOF, WILL BE UNINTERRUPTED, TIMELY, SECURE, ERROR-FREE, ACCURATE OR RELIABLE. UNDER NO CIRCUMSTANCES SHALL WE BE LIABLE FOR ANY CONSEQUENCES OF ANY UNAUTHORIZED USE OF THE SITE PRODUCTS THAT VIOLATES ANY APPLICABLE LAW OR REGULATION. CERTAIN STATE LAWS DO NOT ALLOW LIMITATIONS ON IMPLIED WARRANTIES OR THE EXCLUSION OR LIMITATION OF CERTAIN DAMAGES. IF THESE LAWS APPLY TO YOU, SOME OR ALL OF THE ABOVE DISCLAIMERS, EXCLUSIONS, OR LIMITATIONS MAY NOT APPLY TO YOU, AND YOU MIGHT HAVE ADDITIONAL RIGHTS.

Under no circumstances will Company or its affiliates be responsible for any loss or damage, including property damage, personal injury or death, resulting from use of the Site, Products, problems or technical malfunction in connection with use of the Site, Products, attendance at any Company event or the conduct of any Site users, whether online or offline. Your use of the Site, Products is solely your responsibility and at your own risk. The User Content and Third Party Services do not necessarily reflect the opinions or policies of Company or its affiliates.

Limitations on liability

IN NO EVENT WILL COMPANY OR ITS AFFILIATES BE LIABLE TO YOU OR ANY THIRD PARTY FOR ANY INDIRECT, CONSEQUENTIAL, EXEMPLARY, INCIDENTAL, SPECIAL OR PUNITIVE DAMAGES, INCLUDING LOST PROFIT DAMAGES, ARISING FROM YOUR USE OF THE SITE PRODUCTS, EVEN IF COMPANY OR ONE OF ITS AFFILIATES HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. NOTWITHSTANDING ANYTHING TO THE CONTRARY CONTAINED HEREIN, THE TOTAL LIABILITY OF COMPANY AND ITS AFFILIATES TO YOU FOR ANY CAUSE WHATSOEVER AND REGARDLESS OF THE FORM OF THE ACTION, WILL AT ALL TIMES BE LIMITED TO THE AMOUNT PAID, IF ANY, BY YOU TO COMPANY FOR THE SITE PRODUCTS.

Indemnity

You agree to indemnify and hold harmless Company, its affiliates, subcontractors and other partners, and each of their respective officers, agents, partners and employees, from any losses, costs, expenses (including reasonable attorneys’ fees), liabilities, claims or demands, due to or arising out of your use of the Site, your breach or alleged breach of this Agreement, your violation or alleged violation of any rights of another, or any Content that you post or otherwise submit on, through or in connection with the Site.

Termination

This Agreement remains in full force and effect while you access or use the Site. If you create an Account, you may terminate your Account at any time, for any reason, by contacting us at general@amplify.com. Company may terminate or suspend your Account and/or your access to or use of the Site at any time, for any or no reason, with or without prior notice or explanation, and without liability. Upon any such suspension or termination, your right to access and use the Site will immediately cease, and Company may immediately deactivate or delete your Account and all files and other information associated with it, and/or bar any further access to such files and other information. Company shall not be liable to you or any third party for any suspension or termination of your Account or of access to or use of the Site or any such files or other information, and shall not be required to make such files and other information available to you after any such suspension or termination. Sections 2, 5, 13, 17, 18, 19, 22, and 26 shall survive any expiration or termination of this Agreement.

U.S. export controls

All software made available in connection with the Site (“Software”) may be subject to United States export controls. No Software may be downloaded from or through the Site or otherwise exported or re-exported in violation of U.S. export laws.

Governing law

The terms of this Agreement are governed by the laws of the State of New York, U.S.A., without regard to its conflicts of law provisions, and regardless of your location.

Arbitration

EXCEPT FOR DISPUTES THAT QUALIFY FOR SMALL CLAIMS COURT, ALL DISPUTES ARISING OUT OF OR RELATED TO THIS AGREEMENT, WHETHER BASED IN CONTRACT, TORT, STATUTE, FRAUD, MISREPRESENTATION OR ANY OTHER LEGAL THEORY, WILL BE RESOLVED THROUGH FINAL AND BINDING ARBITRATION BEFORE A NEUTRAL ARBITRATOR INSTEAD OF IN A COURT BY A JUDGE OR JURY, AND YOU AGREE THAT COMPANY AND YOU ARE EACH WAIVING THE RIGHT TO TRIAL BY A JURY. YOU AGREE THAT ANY ARBITRATION UNDER THIS AGREEMENT WILL TAKE PLACE ON AN INDIVIDUAL BASIS; CLASS ARBITRATIONS AND CLASS ACTIONS ARE NOT PERMITTED AND YOU ARE AGREEING TO GIVE UP THE ABILITY TO PARTICIPATE IN A CLASS ACTION.

Arbitration procedure

Any arbitration under Section 23 above will be administered by the American Arbitration Association under its Commercial Arbitration Rules and Supplementary Procedures for Consumer-Related Disputes (“Supplementary Procedures”), as amended by this Agreement. The Supplementary Procedures are available online at http://www.adr.org/aaa/ShowPDF?doc=ADRSTG_015820. The arbitrator will conduct hearings, if any, by teleconference or videoconference, rather than by personal appearances, unless the arbitrator determines upon request by you or by us that an in-person hearing is appropriate. Any in-person appearances will be held at a location which is reasonably convenient to both parties with due consideration of their ability to travel and other pertinent circumstances. If the parties are unable to agree on a location, such determination should be made by the AAA or by the arbitrator. The arbitrator’s decision will follow the terms of this Agreement and will be final and binding. The arbitrator will have authority to award temporary, interim or permanent injunctive relief or relief providing for specific performance of this Agreement, but only to the extent necessary to provide relief warranted by the individual claim before the arbitrator. The award rendered by the arbitrator may be confirmed and enforced in any court having jurisdiction thereof. Notwithstanding any of the foregoing, nothing in this Agreement will preclude you from bringing issues to the attention of federal, state, or local agencies, and, if the law allows, they can seek relief against us for you.

Employment opportunities

Company may, from time to time, post Company employment opportunities on the Site and/or invite users to submit resumes to Company. If you choose to submit your name, contact information, resume and/or other personal information to Company in response to such employment listings, you are authorizing Company to use this information for all lawful and legitimate hiring, employment and other business purposes. Company also reserves the right, at its discretion, to forward such information to Company’s affiliates for their legitimate business purposes. Nothing in this Agreement or contained on the Site will constitute a promise by Company to review any such information, or to contact, interview, hire or employ any individual who submits such information.

The Digital Millennium Copyright Act of 1998 (“DMCA”) provides recourse for copyright owners who believe that material appearing on the Internet infringes their rights under U.S. copyright law. If you believe that any material residing on or linked to from the Site infringes your copyright, please send (or have your agent send) to Company’s Copyright Agent a notification of claimed infringement with all of the following information: (a) identification of the copyrighted work claimed to have been infringed, or, if multiple copyrighted works are covered by a single notification, a representative list of such works; (b) identification of the claimed infringing material and information reasonably sufficient to permit us to locate the material on the Site (such as the URL(s) of the claimed infringing material); (c) information reasonably sufficient to permit us to contact you, such as an address, telephone number, and, if available, an e-mail address; (d) a statement by you that you have a good-faith belief that the disputed use is not authorized by the copyright owner, the copyright owner’s agent or the law; (e) a statement by you that the above information in your notification is accurate and a statement by you, made under penalty of perjury, that you are the owner of an exclusive right that is allegedly infringed or are authorized to act on such owner’s behalf; and (f) your physical or electronic signature. Company’s Copyright Agent for notification of claimed infringement can be reached as follows: Copyright Agent, Amplify Education, Inc., 55 Washington Street, Brooklyn, NY 11201; Facsimile: 212-796-2311; Attn: Legal. Company’s Copyright Agent for notification of claimed infringement can also be reached electronically at: legal@amplify.com. Company reserves the right to terminate infringers’ and suspected infringers’ Accounts or their access to or use of the Site.

Notice for California residents

Under California Civil Code Section 1789.3, California users are entitled to the following consumer rights notice: If you have a question or complaint regarding the Site, please contact us by writing to Amplify Education, Inc., 55 Washington Street, Brooklyn, NY 11201 or by calling us at 212–213–8177 or sending a fax to 212–796–2311. California residents may reach the Complaint Assistance Unit of the Division of Consumer Services of the California Department of Consumer Affairs by mail at 1625 North Market Blvd., Sacramento, CA 95834, or by telephone at (916) 445–1254 or (800) 952–5210.

Other terms

This Agreement does not, and shall not be construed to, create any partnership, joint venture, employer-employee, agency or franchisor-franchisee relationship between you and Company. You may not assign, transfer or sublicense any or all of your rights or obligations under this Agreement without our express prior written consent. We may assign, transfer or sublicense any or all of our rights or obligations under this Agreement without restriction. The failure of Company to exercise or enforce any right or provision of this Agreement will not operate as a waiver of such right or provision. The Section titles in this Agreement are for convenience only and have no legal or contractual effect. References to and mentions of the word “include,” “includes,” “including,” or “e.g.” will mean “including, without limitation.” References to “discretion” will mean “sole discretion.” This Agreement operates to the fullest extent permissible by law. If any provision of this Agreement is unlawful, void or unenforceable, that provision is deemed severable from this Agreement and does not affect the validity or enforceability of any remaining provisions. Without limitation, you agree that a printed version of this Agreement and of any notice given in electronic form shall be admissible in judicial or administrative proceedings based upon or relating to this Agreement to the same extent and subject to the same conditions as other business documents and records originally generated and maintained in printed form. Company will not be responsible for failures to fulfill any obligations due to causes beyond its control.

Please contact us at legal@amplify.com with any questions regarding this Agreement.

Acceptable Use Policy

Amplify Education, Inc. (“Amplify”) products support classroom instruction and learning and include Amplify CKLA, Amplify ELA, Amplify Science, Amplify Desmos Math, Desmos Math, Boost Reading, Boost Math, mCLASS, Mathigon, services at classroom.amplify.com (for creating and assigning activities) and student.amplify.com (for use of the activities or curricula as directed by an instructor), and any other product or service that links to this Acceptable Use Policy (together, the “Products”). This Acceptable Use Policy (the “AUP”) provides the general terms and conditions applicable to your use of the Products. By accessing, downloading, or using the Products, you agree to be bound by the terms of this AUP. 

Notwithstanding the foregoing, nothing in this AUP supersedes or limits your rights under the terms of any other agreement you or your institution have entered into with Amplify regarding the use of Products. In the event of any conflict between the AUP and the terms and conditions of an applicable agreement that you or your institution have entered into with Amplify, the terms and conditions of such agreement shall control.

Our Products are geared towards K–12 students, educators, and staff who use the Products as authorized by their School District or State Agency (each as defined in the Privacy Policy (defined below), and together, “School”) (“Authorized School Users”). Student Data (defined below) is owned and controlled by the School, and Amplify receives Student Data as a “school official” under Section 99.31 of the Family Educational Rights and Privacy Act of 1974 (“FERPA”) for the purpose of providing the Products hereunder. In addition, we rely on the School acknowledging that it is acting as the parent’s agent and consenting on the parent’s behalf to process personal information of students under the age of 13 (“Child Users”) in accordance with the Children’s Online Privacy Protection Act (“COPPA”). 

Schools may provide authorization in two ways: 

(1) by the School agreeing to our Customer Terms and Conditions located at amplify.com/customer-terms or another agreement between Amplify and the School, as applicable; or 

(2) by an educator, staff member, or agent of a School (“Educator”) agreeing to this AUP. If you are an Educator and wish to use the Products in your classroom, you represent and warrant that the use of the Products in your classroom has been authorized by your School, and that you are authorized to accept this AUP on behalf of the School.

In each case, we provide these Products solely for the benefit of the School and for no other commercial purpose. We require all Schools to review our Privacy Policy, available at amplify.com/customer-privacy (“Privacy Policy”), and to make a copy of the Privacy Policy available to the parents or guardians of Child Users.

We also provide limited opportunities for individual users to sign up for a restricted account for at-home use of our Products (together, with Authorized School Users, “Authorized Users”). Please see Additional terms for Mathigon and Amplify Classroom accounts (Section 18) for additional information.

1. License

Subject to compliance with this AUP, you are granted a non-transferable, non-exclusive, non-sublicensable license to access and use the Products. You understand that your use of the Products does not confer to you any intellectual property rights held by Amplify or its licensors. Unless otherwise indicated, any future release, update, or other addition to functionality or content of the Products will be subject to this AUP. 

2. Restrictions

You may access and use the Products solely for non-commercial instructional and administrative purposes. Guidelines for such purposes may be set forth at http://amplify.com/amplify-program-usage-guidelines and additional guidelines may be detailed in materials associated with the Product You are accessing. Further, You may not, except as expressly authorized by Amplify: (a) copy, modify, translate, distribute, disclose, or create derivative works based on the contents of, sell, or otherwise exploit, the Products, or any part thereof; (b) decompile, disassemble, reverse engineer the Products, or otherwise use the Products to develop functionally similar products or services; (c) modify, alter, or delete any of the copyright, trademark, or other proprietary notices in or on the Products; (d) rent, lease, or lend the Products or use the Products for the benefit of any third party; (e) avoid, circumvent, or disable any security or digital rights management device, procedure, protocol, or mechanism in the Products; (f) use any content from the Products, including but not limited to text, images, videos, assessments, lesson plans, or code, as input or training material for any machine learning or artificial intelligence system, including large language models, neural networks, or other algorithmic models, for any purposes, commercial or non-commercial; or (g) permit any Authorized User or third party to do any of the foregoing. You also agree that any works created in violation of this section are derivative works, and, as such, You agree to assign, and hereby assign, all right, title, and interest in such works to Amplify. The Products and derivatives thereof may be subject to export control laws, restrictions, regulations, and orders of the U.S. and other jurisdictions (together, “Export Laws”). You agree to comply with all applicable Export Laws, and will not, and will not permit Authorized Users to, export, or transfer for the purpose of re-export, any Product to any prohibited or embargoed country in violation of any U.S. export law or regulation. Further, You represent that You are not located in a country that is subject to a U.S. Government embargo, subject to sanctions by the U.S. Office of Foreign Assets Control, or included on any restricted party list maintained by the U.S. Bureau of Industry and Security. The software and associated documentation portions of the Products are “commercial items” (as defined at 48 CFR 2.101), comprising “commercial computer software” and “commercial computer software documentation,” as those terms are used in 48 CFR 12.212. Accordingly, if You are associated with the U.S. Government or its contractor, You will receive only those rights set forth in this Agreement in accordance with 48 CFR 227.7201-227.7204 (for Department of Defense and their contractors) or 48 CFR 12.212 (for other U.S. Government licensees and their contractors).

3. Use of the products

In connection with your access to and use of the Products, you agree not to: (a) post, upload, or otherwise transmit or link to content that is: unlawful; threatening; harmful; abusive; pornographic or includes nudity; offensive; harassing; excessively violent; tortious; defamatory; false or misleading; obscene; vulgar; libelous; hateful; or discriminatory; (b) violate the rights of others, including patent, trademark, trade secret, copyright, privacy, publicity, contract, or other proprietary rights; (c) harass or harm another person; (d) exploit or endanger a minor; (e) impersonate any person or entity; (f) introduce or engage in activity that involves the use of viruses, bots, worms, Trojan horses, time bombs, spyware, or any other computer code, files, or programs that interrupt, destroy, or limit the functionality of any computer software or hardware or telecommunications equipment, or otherwise permit the unauthorized access to or use of a computer or a computer network; (g) interfere with, damage, disable, disrupt, impair, create an undue burden on, or gain unauthorized access to the Products or any account (as defined below), or Amplify’s servers or networks; (h) restrict or inhibit any other person from using the Products (including by hacking or defacing the Products); (i) remove, disable, block, or obscure any portion of the Products; (j) use technology or any automated system, such as scripts or bots, to collect user names, passwords, email addresses, or any other data from or through the Products, or to circumvent or modify any security technology or software that is part of the Products; (k) send or cause to send (directly or indirectly) unsolicited bulk messages or other unsolicited bulk communications of any kind through the Products; (l) solicit, collect, or request any information for commercial or unlawful purposes; (m) post, upload, or otherwise transmit an image, audio recording, or video of another person without that person’s consent; (n) use the Products to advertise, promote, or engage in any commercial activity (including engaging in advertising, sales, contests, sweepstakes, or other promotions) without Amplify’s prior written consent; (o) frame or mirror the Products without Amplify’s express prior written consent; (p) use the Products in a manner inconsistent with any applicable law, rule, or regulation; (q) use any robot, spider, search/retrieval application, or other manual or automatic device to retrieve, index, “scrape,” “data mine,” or in any way gather content of the Products or reproduce or circumvent the navigational structure or presentation of the Products; (r) attempt, facilitate, or encourage others to do any of the foregoing. In addition to the foregoing restrictions, your use of the Products may also be subject to an additional acceptable use policy provided to you by your School, as applicable. You are responsible for meeting the hardware, software, telecommunications, and other requirements listed at amplify.com/customer-requirements.

4. Intellectual property

The Products and any Product logo, and certain other of the names, logos, and materials displayed in the Products, may constitute trademarks, trade names, or service marks (“Marks”) of Amplify or other entities. You are not authorized to use any such Marks. Ownership of all such Marks and the goodwill associated therewith remains with Amplify or those other entities. The content provided to you in the Products, including the software, graphs, text, and graphics, is protected under copyright laws, is subject to other intellectual property and proprietary rights and laws, and is owned by Amplify or its licensors. Your access to the Products does not transfer to you or any third party any rights, title, or interest in or to such intellectual property rights. You may not use the content of the Products, in whole or in part, to train or fine-tune any machine learning or artificial intelligence model or system, including for research, product development, commercial services, or any other purpose, commercial or non-commercial. Such use constitutes unauthorized derivative work and a violation of Amplify’s intellectual property rights. Your rights to make use of the Products are limited to those provided under this AUP, any additional terms as may be agreed upon between your School and Amplify, and any available exceptions under applicable intellectual property laws. Amplify Products are protected by patents (see amplify.com/virtual-patent-marking).

5. Account information

Your authentication to enable your access and use of these Products is based in part upon information supplied by you. You are required to (a) provide accurate information to Amplify and promptly report any changes to such information, (b) not share or allow others to use your account, (c) maintain the confidentiality and security of your account information, and (d) use the Products solely via such authorized accounts. You may not share your credentials (i.e., username and password) to access the Products with anyone except the person for whom that account was created. You agree to notify Amplify immediately of any unauthorized use of your account or related authentication information. Amplify will not be responsible for any losses arising out of the unauthorized use of your account.

6. Student data

The parties acknowledge and agree that in the course of providing the Products, Amplify may collect, receive, or generate information that directly relates to an identifiable current or former student of a School (“Student Data”). Student Data may include personal information from a student’s “educational records,” as defined by FERPA. Student Data is owned and controlled by the School and Amplify receives Student Data as a “school official” under Section 99.31 of FERPA for the purpose of providing the Products hereunder. Individually and collectively, Amplify and School agree to uphold our obligations, as applicable, under FERPA, COPPA, the Protection of Pupil Rights Amendment (“PPRA”), and applicable state laws relating to Student Data privacy. Amplify’s Privacy Policy governs the collection, use, and disclosure of Student Data collected or stored on behalf of the School under this AUP. The School is responsible for providing notice or obtaining appropriate consents under applicable laws to authorize Authorized School Users’ use of the Products, including making a copy of the Privacy Policy available to the parents or guardians of Child Users. Please see Additional Terms for Mathigon and Amplify Classroom accounts (Section 18) for additional information.

7. Confidentiality

You acknowledge that in connection with these terms, Amplify may provide you with certain sensitive or proprietary information (“Confidential Information”), including software, source code, assessment instruments, research, designs, methods, processes, customer lists, training materials, product documentation, know-how, or trade secrets, in whatever form. You agree (a) not to use Confidential Information for any purpose other than use of the Products in accordance with the AUP, and (b) to take all steps reasonably necessary to maintain and protect the Confidential Information of Amplify in strict confidence. Confidential Information shall not include information that, as evidenced by your contemporaneous written records: (i) is or becomes publicly available through no fault of your own; (ii) is rightfully known to you prior to the time of its disclosure; (iii) has been independently developed by you without any use of the Confidential Information; or (iv) is subsequently learned from a third party not under any confidentiality obligation.  

8. User materials

You represent, warrant, and covenant that you have all the necessary rights, including consents and intellectual property rights, in connection with any data, information, content, and other materials provided to or collected by Amplify from you or on your behalf in connection with your use of the Products, including materials and content that you post, upload, transmit, email, or otherwise make available on, through, or in connection with the Products (“User Materials”), and that except as otherwise agreed by your School and Amplify, you retain any ownership rights that you have in your User Materials. You hereby grant to Amplify and its affiliates, licensees, and authorized users, a perpetual, non-exclusive, fully paid-up, royalty-free, sublicensable (through multiple tiers), transferable (in whole or in part), worldwide license to use, modify, excerpt, adapt, create derivative works and compilations based upon, publicly perform, publicly display, reproduce, and distribute such User Materials in connection with the Products, subject to Amplify’s Privacy Policy. You and your School are responsible for the accuracy, integrity, completeness, quality, legality, and safety of such User Materials. You further represent and warrant that the posting of such User Materials through or in connection with the Products does not violate the privacy rights, publicity rights, copyrights, contract rights, or any other rights of any person or entity. Amplify and your School reserve the right (but have no obligation) to monitor the Products, including for inappropriate content or conduct, and to remove any content in their discretion without liability to you or any third party. Further, Amplify reserves the right to investigate and take appropriate legal action against anyone who, in Amplify’s discretion, violates this AUP or attempts to do so, including terminating or suspending a user’s account or access to or use of the Products, or reporting any content or conduct to law enforcement authorities. You are solely responsible for creating and maintaining your own backup copies of your User Materials. Amplify is not responsible for any loss, theft, or damage of any kind to any User Materials. 

9. Feedback

If you provide us with any ideas, proposals, or suggestions related to the Products (“Feedback”), you hereby acknowledge and agree that your provision of any Feedback is gratuitous, unsolicited, and without restriction, and does not place Amplify under any fiduciary or other obligation. You hereby grant to Amplify a worldwide, royalty-free, fully paid-up, exclusive, perpetual, irrevocable, transferable, and fully sublicensable (through multiple tiers) license to reproduce, distribute, perform and/or display (publicly or otherwise), adapt, modify, and otherwise use such Feedback, in any format or media now known or hereafter developed, and you hereby represent and warrant that you have all necessary rights to grant the foregoing license.

10. Third party links and services

The Products may make available, or third parties may provide, links to websites, software, applications, resources, advertisements, content, or other products or services created, hosted, or made available by third parties (“Third Party Services”). When you access or use a Third-Party Service, you are interacting with the applicable third party, not with Amplify, and you do so at your own risk. Inclusion of any Third-Party Service or a link thereto within the Products does not imply approval or endorsement of such Third-Party Service. Amplify does not control any content that is not Amplify content, and as such, you may be exposed to offensive, indecent, inaccurate, or otherwise objectionable content in the course of accessing or using such Third-Party Services linked from the Products. You are solely responsible for your interactions with other users of the Products, providers of Third-Party Services, and any other third parties with whom you interact on, through, or in connection with the Products. AMPLIFY IS NEITHER RESPONSIBLE NOR LIABLE FOR ANY THIRD-PARTY SERVICES, INCLUDING THE ACCURACY, INTEGRITY, COMPLETENESS, QUALITY, LEGALITY, USEFULNESS, OR SAFETY OF, OR INTELLECTUAL PROPERTY RIGHTS RELATING TO, SUCH THIRD-PARTY SERVICES. ANY ACCESS TO OR USE OF SUCH THIRD-PARTY SERVICES MAY BE SUBJECT TO THE TERMS AND CONDITIONS AND INFORMATION COLLECTION, USAGE, AND DISCLOSURE PRACTICES OF THIRD PARTIES. THIS AUP DOES NOT CREATE ANY RELATIONSHIP BETWEEN YOU AND ANY PROVIDER OF THIRD-PARTY SERVICES, AND NOTHING IN THIS AUP WILL BE DEEMED TO BE A REPRESENTATION OR WARRANTY BY AMPLIFY WITH RESPECT TO ANY THIRD-PARTY SERVICE.

11. Digital Millennium Copyright Act

The Digital Millennium Copyright Act of 1998 (“DMCA”) provides recourse for copyright owners who believe that material appearing on the Internet infringes their rights under U.S. copyright law. If you believe that any material residing on or linked to from the Products infringes your copyright, please send (or have your agent send) to Amplify’s Copyright Agent, by email, fax, or regular mail, a written notification of claimed infringement with all of the following information: (a) identification of the copyrighted work claimed to have been infringed, or, if multiple copyrighted works are covered by a single notification, a representative list of such works; (b) identification of the claimed infringing material and information reasonably sufficient to permit us to locate the material on the Products (such as the URL(s) of the claimed infringing material); (c) information reasonably sufficient to permit us to contact you, such as an address, telephone number, and, if available, an e-mail address; (d) a statement by you that you have a good-faith belief that the disputed use is not authorized by the copyright owner, the copyright owner’s agent or the law; (e) a statement by you that the above information in your notification is accurate, and a statement by you, made under penalty of perjury, that you are the owner of an exclusive right that is allegedly infringed, or that you are authorized to act on such owner’s behalf; and (f) your physical or electronic signature. Amplify’s Copyright Agent for notification of claimed infringement can be reached as follows: Amplify Education, Inc., 55 Washington Street #800, Brooklyn NY 11201; Attn: Copyright Agent. Amplify’s Copyright Agent for notification of claimed infringement can also be reached electronically at legal@amplify.com. Amplify reserves the right to terminate infringers’ and suspected infringers’ accounts or their access to or use of the Products.

12. Changes to the products

Amplify may, without prior notice, change any Product or stop providing any features of any Product. We may permanently or temporarily terminate or suspend your access to any Product features without notice for any reason, including if in our sole determination you violate any provision of this AUP. Upon termination, you continue to be bound by this AUP.

13. Warranty disclaimer

PRODUCTS ARE PROVIDED “AS IS” AND WITHOUT WARRANTY OF ANY KIND BY AMPLIFY. AMPLIFY EXPRESSLY DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING ANY WARRANTY AS TO TITLE, NON-INFRINGEMENT, MERCHANTABILITY, OR FITNESS FOR A PARTICULAR PURPOSE OR USE. YOU ASSUME RESPONSIBILITY FOR SELECTING THE PRODUCTS TO ACHIEVE YOUR INTENDED RESULTS AND FOR THE ACCESS AND USE OF THE PRODUCTS, INCLUDING THE RESULTS OBTAINED FROM THE PRODUCTS. WITHOUT LIMITING THE FOREGOING, AMPLIFY MAKES NO WARRANTY THAT THE PRODUCTS WILL BE ERROR-FREE OR FREE FROM INTERRUPTIONS OR OTHER FAILURES OR WILL MEET YOUR REQUIREMENTS. AMPLIFY IS NEITHER RESPONSIBLE NOR LIABLE FOR ANY THIRD-PARTY CONTENT OR SOFTWARE INCLUDED IN PRODUCTS, INCLUDING THE ACCURACY, INTEGRITY, COMPLETENESS, QUALITY, LEGALITY, USEFULNESS, OR SAFETY OF, OR IP RIGHTS RELATING TO, SUCH THIRD-PARTY CONTENT AND SOFTWARE. ANY ACCESS TO OR USE OF SUCH THIRD-PARTY CONTENT AND SOFTWARE MAY BE SUBJECT TO THE TERMS AND CONDITIONS AND INFORMATION COLLECTION, USAGE, AND DISCLOSURE PRACTICES OF THIRD PARTIES.

14. Limitation of liability

IN NO EVENT WILL AMPLIFY BE LIABLE TO YOU FOR ANY INCIDENTAL, SPECIAL, CONSEQUENTIAL, PUNITIVE, RELIANCE, OR COVER DAMAGES, DAMAGES FOR LOST PROFITS, LOST DATA, LOST BUSINESS, OR ANY OTHER INDIRECT DAMAGES, EVEN IF AMPLIFY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. TO THE EXTENT PERMITTED BY APPLICABLE LAW, AMPLIFY’S ENTIRE LIABILITY TO YOU ARISING OUT OF PERFORMANCE OR NONPERFORMANCE BY AMPLIFY OR IN ANY WAY RELATED TO THE SUBJECT MATTER OF THIS AUP, REGARDLESS OF WHETHER THE CLAIM FOR SUCH DAMAGES IS BASED IN CONTRACT, TORT, STRICT LIABILITY, OR OTHERWISE, WILL NOT EXCEED $100 IN AGGREGATE. UNDER NO CIRCUMSTANCES WILL AMPLIFY BE LIABLE FOR ANY CONSEQUENCES OF ANY UNAUTHORIZED USE OF THE PRODUCTS THAT VIOLATES THIS AUP OR ANY APPLICABLE LAW OR REGULATION.

15. Termination

Amplify may terminate or suspend your access to the Products at any time for any reason, including if Amplify believes that you have violated the AUP or have engaged in conduct that violates applicable law or is otherwise harmful to the interests of Amplify, any other Amplify user, or any third party. Upon termination, you will: cease using the Products and return, purge, or destroy all copies of any Products and, if so requested, certify to Amplify in writing that such surrender or destruction has occurred. Sections 3–13, 16, and 17 will survive the termination of this Agreement.

16. Governing Law

This Agreement will be governed by and construed and enforced in accordance with the laws of the U.S., state of New York, without giving effect to the choice of law rules thereof.

17. Additional terms for iOS apps

By downloading any Products through Apple, Inc.’s App Store (“iOS Products”), you agree that the following additional terms apply to your use of our iOS Products:

  1. This AUP is not a legal agreement with Apple, Inc. (“Apple”). As between Amplify and Apple, Amplify (not Apple) is responsible for the iOS Products and the contents thereof.
  2. The license to use the iOS Products under Section 3 above is limited to use (i) on iOS devices that you or your School owns or controls, separate from and in addition to any specific technical requirements for any iOS Product, and (ii) as permitted by the Usage Rules set forth in Apple Media Services Terms and Conditions.
  3. You must comply with applicable third-party terms of agreement when using the Products.
  4. Without limiting Section 13 above and solely as between Amplify and Apple, you acknowledge that: (i) Apple has no obligation whatsoever to furnish any maintenance and support services with respect to the iOS Products; (ii) Amplify (not Apple) is responsible for addressing any claims of yours or of any third party relating to the iOS Products or your possession and/or use of the iOS products, including but not limited to (1) product liability claims, (2) any claim that the iOS Products fail to conform to any applicable legal or regulatory requirement, and (3) claims arising under consumer protection, privacy, or similar legislation; (iii) in the event of any failure of the iOS Products to conform to any applicable warranty, you may notify Apple, and Apple will refund the purchase price for the iOS Products to you; to the maximum extent permitted by applicable law, Apple will have no other warranty obligation whatsoever with respect to the iOS Products, and any other claims, losses, liabilities, damages, costs, or expenses attributable to any failure to conform to any warranty will be Amplify’s sole responsibility; and (iv) in the event of any third-party claim that the iOS Products or your possession and use of the iOS Products infringes that third party’s intellectual property rights, Amplify (not Apple) will be responsible for any investigation, defense, settlement, and discharge of any such intellectual property infringement claim.
  5. You represent and warrant that: (i) you are not located in a country that is subject to a U.S. Government embargo, or that has been designated by the U.S. Government as a “terrorist supporting” country; and (ii) you are not listed on any U.S. Government list of prohibited or restricted parties.
  6. Apple and Apple’s subsidiaries are third-party beneficiaries of these Terms, and upon your acceptance of these Terms, Apple will have the right (and will be deemed to have accepted the right) to enforce these Terms against you as a third-party beneficiary thereof.
  7.  Any questions, complaints, or claims with respect to the Products should be directed to: 

Email: privacy@amplify.comMail: Amplify Education, Inc., 55 Washington St. #800, Brooklyn, NY, 11201

18. Additional terms for Mathigon and Amplify Classroom accounts.

a. Mathigon updates: Amplify no longer offers accounts for Child Users, but we will continue to allow Child Users to access their active legacy Mathigon accounts where verifiable parental consent was obtained. We will continue to protect personal information in accordance with the Privacy Policy and applicable law.

b. Mathigon and Amplify Classroom:

i. School Use:

  1. Educators: If you are an Educator, you can create a Mathigon or an Amplify Classroom account using any existing email or through an existing third-party account (e.g. Google, Microsoft). Go to https://mathigon.org/signup#teacher  to sign up for Mathigon. Go to classroom.amplify.com to sign up for Amplify Classroom.
  2. Students can also sign up using a unique class code provided by an Educator. Educators are responsible for gaining appropriate authorization or permission from their School to use the Products with students, including Child Users, before providing their unique class code or linking the Products to a third-party service like Google Classroom. For such use in the school context, we do not request additional consent from parents in accordance with the “school official” exception under FERPA and relevant COPPA guidance. For more information, visit our Privacy Policy, which describes how we collect, use, and disclose personal information and data through the provision of our Products in schools. 

ii. Outside of School Use: If you are an individual user using the Products at home or otherwise outside of the school context, you are prohibited from collecting or providing any personal information from students or minors. You are permitted to access the platform for instructional purposes, but you may not enroll or roster minors, create accounts for minors, or input any personal information of minors into the Product.

19. Updates to this policy

We may change this Acceptable Use Policy in the future. For example, we may update it to address changes in our product offerings, or to address changes in the law or best practices. If we make changes that materially impact your legal rights or use of our products, we will provide prominent notification to you (e.g. via the Site or by email).  Otherwise, we will post any updates to the policy with an updated “Last Revised Date” and all changes will become effective immediately. Please check the Last Revised Date to confirm if the policy has been revised.

Last Modified: February 2, 2026

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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Check out another episode from Science Connections!

S2-02: Developing your own teaching style: Tips from a veteran teacher.

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In this episode, Eric Cross sits down with veteran educator and former Miami-Dade County Public Schools (M-DCPS) Middle School Science Teacher of the Year, Marilyn Dieppa. During the show, Marilyn shares tips for new teachers, ways to inspire students, and how she utilizes her journalism background to develop literacy skills within her science classroom. She also shares her experiences developing a robotics academy, and the VEX IQ World’s Competition. Explore more from Science Connections by visiting our main page.

Download Transcript

Marilyn Dieppa (00:01):
I think my favorite thing is their success. Whether it’s robotics, whether it’s in the classroom, that they pass a test for the first time, those are my moments of success. And that’s what makes me happy.

Eric Cross (00:15):
Marilyn Dieppa is a veteran middle-school science educator at Miami-Dade County public schools. Dieppa launched her school’s STEM Academy in 2016 and developed professional development through the STEM Transformation Institute of Florida International University. Dieppa’s coached numerous new teachers and was the 2018 Miami-Dade County public schools’ middle-school Science Teacher of the Year. In this episode, we discussed her transition from a career in journalism to the science classroom and the value of personal and professional support systems for teacher longevity. And now, please enjoy my conversation with Marilyn Dieppa.

Marilyn Dieppa (00:52):
Nice to meet you, Eric.

Eric Cross (00:53):
Nice to meet you too. Thank you for being willing to come on the podcast.

Marilyn Dieppa (00:58):
Not a problem.

Eric Cross (00:59):
So you’re out in, you’re out in Florida. In Dade County. I’m out here in San Diego. So I’m like literally on the other side of the country. Have you—were you born and raised in Florida?

Marilyn Dieppa (01:09):
I’ve been here for 40 years, so I’ve been here most of my life. Yeah. I’m Puerto Rican, but I was, you know, my young childhood, I was in New Jersey. And then when I was 15, I came down.

Eric Cross (01:23):
I looked at like your—some of your accolades, which are really impressive. The things that you’ve done for students with robotics, and all the education, or, kind of like teacher enrichment, a lot of mentoring and coaching that you do now.

Marilyn Dieppa (01:35):
I am part of leadership team for the district. I do a lot of training. I work on curriculum. I help with pacing guides to make sure that everything is based on what the state wants, what the district wants. I have done a lot for the district in the last, probably 20 years.

Eric Cross (01:52):
What got you into teaching initially? What was your…like, why middle school science? We’re like a unique group.

Marilyn Dieppa (01:57):
This is the second career choice for me. So I’ve only been doing this for 24 years. I was a journalism major and then I got married and then I had my child and I wanted to do something. My thing was that I wanted to go to Iraq. I wanted to cover the news. I have a minor in Middle Eastern culture. so there was a lot of things that were in my mind when I was young, pre-married. and after, you know, you have children, priorities kind of change. So I totally changed, pretty much had to start from scratch, with my degree, because nothing kind of transferred over from journalism to teaching. So before I actually did that, I started subbing just to see if I liked it. And I fell in love with teaching right away. And that’s how I got into it. So my degree is really in elementary.

Eric Cross (02:45):
Now, when you were subbing, you were doing elementary school.

Marilyn Dieppa (02:47):
Yes. Pretty much elementary.

Eric Cross (02:48):
How did you go from there to like, middle-school science?

Marilyn Dieppa (02:50):
My thing was writing, not necessarily math and science. But I ended up with my cooperating teacher, my CT, she was a math and science teacher. So I was put with her, and who knew that I liked science and I liked math? So I ended up with that and I infused a lot of labs. So in elementary you tend to—I think teachers are a little bit afraid of the labs, so I infused a lot of literature with my labs. I infused all my—I did it like a whole-group type thing, everything I did with my labs, I incorporated the math. I incorporated the science. I incorporated, you know, the reading with it. And from there, I just—you know, they ended up putting me in a lot of leadership roles with science. And then my principal was opening up the school where I’m at now, my former principal. And she, you know, she took me with her. And so her dissertation was in looping, on how following your students, did that really make a difference in test scores? So I was part of her like test study, and I had students that I followed for two years in a row. And she would look at data and that was part of her dissertation. So that really made a difference. So I ended up moving with my students and my first group of middle-school students, I had them for four years.

Eric Cross (04:10):
Oh, wow.

Marilyn Dieppa (04:10):
And that was—those were my children. I, like, boohooed when they left. And I ended up, you know, literally following them from fourth grade all the way to more than four years. Because it was all the way until they left eighth grade.

Eric Cross (04:21):
What did you think of that model of looping with students?

Marilyn Dieppa (04:24):
I think it’s a great model, depending on the kids that you have. I love, you know, the school that I’m at. I’m very blessed, because it’s a great school. It’s really a wonderful school. I’ve had really good relationships with students. They always come back, and they always come back when they wanna tell me that they’re in something in science, right? They’re an engineer or they’re a nurse, or they’re, you know, doctors at this point. So I’ve seen a little bit of everything with my students. And it’s very rewarding.

Eric Cross (04:52):
That’s super-exciting, right? When they come back and they’re either telling you about their college major or what career they’re in. And I like to recruit them at that point and ask them to come talk to my students. Because Google photos gives you unlimited storage, if you have a teacher account, I actually have photos of students from like 10 years ago.

Marilyn Dieppa (05:09):
Oh, wow.

Eric Cross (05:10):
And I’ll put their middle school picture next to their—and then their current picture.

Marilyn Dieppa (05:14):
Oh, that’s awesome. I’ve never done that.

Eric Cross (05:17):
Yeah. You could see, like, they could see the younger version of them.

Marilyn Dieppa (05:19):
And it’s funny because even with the STEM Academy, which I have now, I have the same group of kids for three years. So I’ve had already few groups that have gone by, and those kids come back to me, they come back to our competitions, they help out, you know, they’re very integrated with the robotics. So I’m getting those students back as well. So I’ve maintained that relationship with them as well.

Eric Cross (05:46):
How do you develop your own classroom management style? How did you figure out where your—where you fit and what works for you? What was your process like for that?

Marilyn Dieppa (05:55):
You know what I think, just by teaching, teaching them to respect. And one thing that I’ve developed that—I don’t scream in my classroom; I just talk to the kids. I have very good one-on-one communication with them. I show them respect. I treat them as an equal.

Eric Cross (06:12):
And what grade are you teaching currently?

Marilyn Dieppa (06:14):
Eighth grade. So I do science. I teach high school science. I teach comprehensive, which is like our regular students. I have kids who are inclusion. I have kids that are ESL. So I teach all, you know, dynamics of students. And then I have the academy, which is something separate. But I infuse a lot of physics and of course that they need in order for them to be competitive.

Eric Cross (06:38):
So tell me about that. What is the STEM Academy?

Marilyn Dieppa (06:40):
It is an enrichment program. So it is an advanced enrichment program, because they do follow like the math enrichment. so they have to be really good at math in order for them to be accepted into the program. So, one day we got like a grant, and we got a little robot, the VEX. I don’t know if you’re familiar with VEX. I know it’s big in California. So I was told, “Here, this is for you. See what you can do with it.” So I started with an after-school club, the following year. It kind of hit off. We went to our first little competition. The kids did really well. And then the following year, they told me, “Hey, we need an academy, make it happen.” So it’s not like I had a curriculum. I kind of do my own thing. But we do a lot of different types of things. Our big portion is the VEX, but I also do sec me, we do Future City. We do a whole bunch of competitions within the district. You know, Math Bowl. So I get my kids prepared for anything that really has to do competitive-based. I do that with those students.

Eric Cross (07:38):
What age range or which grade range?

Marilyn Dieppa (07:40):
Sixth to eighth. We have kids who stay the three years and then we have kids that after, you know, sometimes it’s more the parents that want them to be part of the engineering. but sometimes we lose kids after the first year and you know, that’s fine because we wanna really have kids who really wanna be there and are, you know, committed to it. Because there’s a lot of commitments to that program.

Eric Cross (08:01):
Those types of programs, there’s so many like outside-of-the-classroom things that you need to take care of. If you’re going to competitions, and weekends, and all those types of things. Is there a team of teachers that are doing this or is it just you?

Marilyn Dieppa (08:10):
Team of one! .

Eric Cross (08:11):
A team of one! Right? Like, yeah. And how long have you been running this yourself?

Marilyn Dieppa (08:16):
This is probably like my sixth year.

Eric Cross (08:19):
OK.

Marilyn Dieppa (08:20):
So we’ve been very successful. That program is totally inquiry. It’s totally on them. I don’t know how to use a little, you know, remote control. I don’t know how to do anything. I’m there for troubleshoot and to make sure that they’re on task, but they have been very successful because I do put everything on them. And I go, “It’s not my robot. This is your robot.” So they build everything

Eric Cross (08:40):
And that seems to be the theme, especially with, a lot of times, with science teachers. And encouraging them to say, “You don’t have to be the expert in everything.” Teachers tend to be more like risk-taking and innovative when they’re willing to like, not have to be—I don’t have to know everything in order to do something.

Marilyn Dieppa (08:54):
Exactly. So we’ve been very successful. Very proud of my students because you know, we’ve, gone to Worlds twice. We’ve qualified three times in the six years. Actually, I had two teams that went last year.

Eric Cross (09:07):
What is, what is Worlds? That sounds like a big deal.

Marilyn Dieppa (09:10):
It’s a huge thing. And it’s teams from all over the world. You can actually look it up online. It’s—from this year, there were teams, although they said China was not gonna be in there, there were actually some teams from China. There were teams from New Zealand. There were teams from South Africa, the UK, a lot of teams from, from Europe. And then there are teams from here. We are the host country. We’ve been the host country for a while. But it’s amazing. The first time we went, the first team that we were paired up with was a Russian team. So, you know, there was Google Translate and the kids—and it’s, they didn’t need to know the same language because they communicated with the robots. So it was really amazing. They work collaboratively. So it’s not like a battle box. So they work two teams together and whatever, they both get together, they both earn the same points. So it teaches leadership, and there’s so much more to it than just a robot. They have to know how to communicate, because they do get interviewed. They do online challenges. It’s so many things. It’s just—I think it’s one of the best things that our district has really invested in, because these kids are so into it, and they love it so much. For the last year and this year I have the same kids that are in the robotics. I’m also gonna be teaching them physical science. So I have to teach them that separation between what we’re doing in our science classes versus what they’re doing in the class. So there has to be a separation. So they see one side of me in this class where it’s very laid back. It’s very chill. No, no, you, you guys do it. There’s no sitting down. It’s like organized chaos, I call it all the time. But then in the classroom, it has to be a little bit more organized.

Eric Cross (10:53):
Is that something that, as far as getting the parts—like people do, like, GoFundMes and donations and Donors Choose. Can you—

Marilyn Dieppa (11:00):
We get grant money, grant money from the town of Miami Lakes, the town that I work in. So the town actually sponsors us. Without them, we could not do that. It is a very expensive activity to do. If you go online and you look up the prices, you’ll be, “Oh my gosh, goodness, it’s very expensive.” You know? But the smiles on their faces when they come back and they have those little certificates, it means nothing, you know, it’s a little piece of paper. But that, to me, to them, it means the world.

Eric Cross (11:27):
Well, teachers, if you’re looking for ways to get that stuff funded, be fearless on behalf of asking for free things for your kids. Find a local business that somewhat connects to even robotics and say, “Hey, look, I’ve got 50 kids that really want to get after it. And we need X amount of dollars so we can buy those robotics kits. We’ll put your banner up somewhere. We’ll do all these other things. But come support our students. Come to the competition. Donate whatever you can for our students.” And many organizations will say, will say yes. Many just aren’t asked.

Marilyn Dieppa (11:57):
Right. And a lot of towns do have, like, education advisory boards. You wanna reach out to those people. ‘Cause those are the communities where they have money set aside in order to assist things like this.

Eric Cross (12:09):
Do you notice any carryover between the students that do get involved with these extracurriculars into the regular science classroom?

Marilyn Dieppa (12:16):
For sure. They’re more, they’re more disciplined. They tend to care more about the sciences because they see that link in the science. I mean, my kids are talking about gear ratios. They’re talking about, you know, mass accelerations. They had—they infuse all these things. And when they see it in the science class, they’re making that connection, which is really wonderful.

Eric Cross (12:41):
It seems like there’s a high level of engagement because this is an authentic thing. It’s almost, this should be science.

Marilyn Dieppa (12:46):
Yes. And not only that, the writing skills that have to be interpreted because part of the program is that they, they don’t necessarily have to have it, but in order for them to go far and make it to Worlds, they have to have an engineering notebook. So our strength sometimes is not the robot, but the engineering notebook.

Eric Cross (13:02):
his is where the journalism major shines.

Marilyn Dieppa (13:05):
Yes. And I go, “Guys, this is your Ikea manual. You have to explain what you’re doing, what pieces you’re using, what’s going right.” You know, and then they have to interpret and see what didn’t work. How can they fix it? So there’s so much problem-solving. It’s real life, it’s what they’re doing there. More so than sitting and learning rote, you know, vocabulary or whatever the case might be, ’cause they’re actually applying what they’re learning.

Eric Cross (13:31):
Yeah. And that’s, that’s so critical, the communication piece. Because seems like now in society, more than ever, even just being able to communicate something with bad science is convincing to people. Versus if you have great science, but you can’t communicate it, you’re not gonna be able to get it out into the public. It’s so great to see a program that exactly brings together this literacy aspect, in addition to kind of this content and skills aspect of doing the science.

Marilyn Dieppa (13:57):
And that’s what really, you know, since I started, that’s pretty much what I’ve done. My strength, believe it or not, when I was growing up, was not the science. I think I didn’t really have a really good science background. But I remember reflecting and saying, “I don’t want my students to feel like I felt when I was a child.” I wanna make sure that I give them everything, you know, give them the hands-on experience. I think I had one teacher when I was growing up and I still remember him. He was my second-grade teacher and he was just so amazing with the science. And it was just like the only really good experience I had. And I think that always stayed in the back of my mind. And when I started teaching and I go, “I wanna give these kids these experiences.” You know, sometimes I see kids in eighth grade and I go, how sad! They see water boiling and they’re just, like, in a lab room. And they’re just like, in awe, because there’s water boiling. And I go, “You guys haven’t seen water boil before?” And he goes, “No, no, no, not like this!” And I go, oh wow.

Eric Cross (14:58):
Even if it’s simple, everyday phenomena, everyday things that people deal with in a science classroom, or when you’re a teacher in that setting, it’s just—it just hits different, right? Like you, you know, you drop dye into water and watch it diffuse. And it’s like, whoa! Because they’re looking at it through that different lens. And that’s why one of the reasons why—I’m super-biased, but as science teachers, we get to do the coolest stuff.

Marilyn Dieppa (15:21):
Yeah, we do.

Eric Cross (15:22):
We just do. It’s so much fun. And basically anything that happens, that’s cool, like in, innovation and things like that, we can figure out ways to incorporate into our classroom. Now, as a coach and as a mentor, you’ve had multiple student teachers in your classroom. And we have, you know, huge need for new teachers. I teach teachers who are getting their CR, getting their credential. And the landscape of education is, is constantly shifting. You’ve watched it shift over the years. What are your biggest tips that you give to new teachers?

Marilyn Dieppa (15:49):
Well, I just had an intern last semester. I’ve had a few interns where, you know, not only are they doing this, but they’re also learning robotics too. So they’re really getting aspect in how to incorporate that. You don’t have to have everything separate. You can include everything together. But I think, I think it just comes from the foundation where they’re not exposed. Even me, when I went to college, I don’t remember doing so many labs as I should have. And I think it’s just a fear of them trying new things and failing. And I go, you know what? I, sometimes my first class is my guinea pig class, because I always change my labs. I don’t like to do the same thing over and over again. If I see something online, I go, “Oh wow. You know what, I’m gonna try it.” And I go, “Hey guys, this is the first time; we’re gonna do this together.” And it’s really—it’s just for them not to be fearful. And I think especially for science teachers or like even elementary, to give the kids the foundation that they need, they’re afraid. They’re afraid of failing and not trying something new, and say, “Hey, it’s OK. There’s other ways of doing this.” You know? So I always say, “My first class is always my guinea pig class, ’cause that’s the class I’m gonna try this on.” And then, you know, when you have to tweak, reflect, then we do that.

Eric Cross (17:06):
What are some of the things that you’ve seen or encouragements that you give to teachers who are teaching, kind of, in this kind of newer landscape, where as teachers, you become more than just a science teacher. I mean, you’re a mentor. You’re an encourager. Sometimes you’re a counselor for students. And then there, there are things that happen externally that impact teachers as well. It’s a tough job.

Marilyn Dieppa (17:24):
So I always say, you know, when you have a child, we have to be very aware of what’s happening with our children. Especially after these two years of the pandemic. That was kind of crazy. Last year was a really tough year, I think, for most educators that were back in the classroom. But I always tell ’em, you have to be really aware of what’s going on with these kids outside. When you see somebody who’s not doing anything and then you have the parents are there supporting. There’s something going—I mean, there has to be something going on. Kids are not just going to be so, so defiant. You’re gonna have very few that will be like that. But most of them it’s just gotta see and read those kids and see what’s going on, and don’t be afraid to—and I always say, I’m not there to really be your friend, but I’m there to help you. And you gotta tell ’em, you know, if you need to talk, come talk to me. Have an open-door policy with those kids.

Eric Cross (18:16):
What’s been your favorite part of the job? Something you really enjoy about the job? Especially having been teaching for as long as you have.

Marilyn Dieppa (18:23):
I think my favorite thing is their success. Whether they have struggled all the year and they’ve had that one piece of success or they don’t realize what they got out of middle school until they get to high school and they come back to you and they tell you it’s, you know, seeing my kids, whether it’s robotics, whether it’s in the classroom, that they pass a test for the first time, those are my moments of success. And that’s what makes me happy.

Eric Cross (18:52):
So you get those ahas, you get those wins, those turnarounds. And it’s like, “Ah, this keeps me going. This is so good!” But there’s something that I say to myself when I do get challenges in the classroom is teaching seventh grade, I say, “They’re 12. They’re 13. They’ve been on earth for 13 years. And for the first five or six, like, you know, they’re just kind of coming online at that point. And they’re going through all these changes.” And it grounds me in the fact that ’cause sometimes the things that you experience can be really, really challenging kind of interpersonally. And I remind myself, “Well, it’s like—you’re not 28 years old. Like, you’re, 12 and 13, and you need me to not be Mr. Cross, the science teacher. You need me to be, you know, Mr. Cross, the mentor, or Mr. Cross, the coach.” Like you were saying, open door. Keeping that open door, keeping that relationship. Because so much of what we’re doing is like life coaching in addition—and that connects to their success in the classroom. There’s a direct relationship.

Marilyn Dieppa (19:45):
Yes, yes, yes, absolutely.

Eric Cross (19:46):
Now what gets you back each fall? Because at the end, you know, every school year it’s like, “That was a tough one!” Especially with the last couple years. Right? So what’s been something, what gets you back in the classroom every fall, so that you’re ready for your students?

Marilyn Dieppa (20:02):
I think the support I get at home. I have a husband who is the most supportive person ever. He always tells me, “Your kids are grown up.” You know, my kids are adults now. “Enjoy these kids, what they’re doing. You don’t know how much they need you.” So he does tell me that. He goes, “And don’t complain! You love it!” And also my administration, they back me up. And that’s what I think what keeps you coming back. I love my administration. Whatever I ask for, they don’t tell me no. They tell me I’m crazy, but they don’t tell me no. You know, we have these huge competitions once a year at our school, administration has to be involved ’cause they have to be there, and they go, “We do this because we love you! But you know, you’re crazy!”

Eric Cross (20:48):
It’s interesting, ’cause both of these things, they involve human connection. And one is your support system at home, which is incredibly valuable. Shout out to your husband; I don’t know if he’s around. And then the culture, like, feeling supported. Teachers, you know—and it’s not just in education, but people, I’ve experienced—will work harder, longer, be more committed, when they have that intangible. When they feel like they’re connected to something bigger than them. Or on a team, not in a silo. And one person can really create or break whether that happens. And just like us in the classroom as a teacher, right? Like, “What makes you like this teacher’s class?” “Well, I feel connected. I feel safe. I feel it’s fun. It’s the culture!” I like to end with asking this question and you kind of alluded to an answer earlier, but who is one, or it could be multiple teachers, that you’ve had in your own life as a kid growing up or young person in kindergarten through 12th grade, could even be college, that has inspired you? Or made a difference in your life one way or another? Like, who pops out? I feel like we all have somebody.

Marilyn Dieppa (21:58):
One was my second grade teacher, as I mentioned before. Mr. Fernandez, never forget him. And my other teacher was my high school teacher, Mr. Velazquez. It was in New Jersey as well. And he was the one that really got me into the love of writing. He was my Spanish teacher, actually. He wasn’t even, you know—he was like an elective teacher. But he just made me believe like, “Wow, you’re like a really good writer!” To me, those two gentlemen really stood out. Very fond memories of being in school and really enjoying what I was doing.

Eric Cross (22:33):
There are so many teachers that we all have been impacted by. And many of us now who are teachers, we sit in that same seat. We fill those same shoes. And going back to what you had said earlier, one of the most rewarding things is when those kids come back to you. And I’m thinking about all the work that you’ve done, all the students you’ve poured into, all the competitions you’ve done. The ones that have come back to you are a small fragment of the ones that you’ve impacted.

Marilyn Dieppa (22:59):
Mm-hmm, yeah.

Eric Cross (23:00):
‘Cause we think about our own story, right? Like you’ve gone on and paid dividends for that one teacher in second grade. You know, Mr. Fernandez or Mr. Velasquez like, they went and they just gave you exposure to something or helped you fall in love with something. And you went on this trajectory. And if we could see the timeline of, like, this teacher created Marilyn, and Marilyn went and did this, and then what do all those students do? And that, I don’t know, there’s so many jobs that are gonna be hard work and that are gonna be challenging and stressful. But that is the thing that I think fills me when I listen to your story. I just think about like all the students throughout Florida that you have—you probably will never hear from, but have gone on to do amazing things or become great people who would go back and talk about you and say you were an inspiration for them. Marilyn, thank you for taking the time out to be on the podcast and for not only teaching students, but inspiring and coaching younger teachers and new teachers. It’s so critical. And for being willing to spend so much of your time beyond the classroom to create these opportunities for students to do this awesome, fun, engaging science, and go to Worlds. I wish you a great school year.

Marilyn Dieppa (24:11):
Thank you. You too.

Eric Cross (24:12):
We hope you make it to Worlds again and crush, in a competitive, collaborative type of environment. We’ll be checking out—I’m sure other teachers will check out Vex Robotics. Thanks for being on the podcast.

Marilyn Dieppa (24:23):
Thank you. You too, Eric.

Eric Cross (24:26):
Thanks so much for listening. Now we want to hear more about you. Do you have any educators who inspire you? You can nominate them as a future guest on Science Connections by emailing STEM@amplify.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 Marilyn Dieppa says about science

“I think as science teachers, we’re afraid of failing and not trying something new, and I say, ‘Hey, it’s okay!’ You have to tweak, reflect.”

– Marilyn Dieppa

STEM Academy Coach/Teacher, 2018 Miami-Dade County Public Schools (M-DCPS) Middle School Science Teacher of the Year

Meet the guest

Marilyn Dieppa is a long-time educator and STEM Academy coach at Miami Dade County Public Schools. Currently in her 24th year, Marilyn teaches 8th grade science and coaches the STEM Academy at Bob Graham Education Center. She launched the Science, Technology, Engineering and Math (STEM) Academy during the 2016-2017 school year, and the teams compete in VEX IQ World’s Competition representing both the district and the state. She has been the middle school department chairperson since 2003, attends the district department meetings and Instructional Capacity-building Academy (ICAD), and trains her science department.

Dieppa holds a bachelor of science in Elementary Education and a master of science in reading education. She is also a Nationally Board-Certified Teacher in Science.

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About Science Connections

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

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Weaving Literacy Instruction Into the Science Classroom to Accelerate Learning

S2-06: Making time for science in the K–5 classroom

Promotional graphic for "Science Connections" podcast, Season 2 Episode 6, featuring Lauran Woolley discussing making time for science in K–5 classrooms.

In this episode,  Eric Cross sits down with TikTok star and podcast host Lauran Woolley about her experience teaching science content within her K–5 classroom. Lauran shares how she’s learned how to make time for science, and what most K–5 teachers experience when creating their own science curriculum. Lauran also talks about her rise in popularity on TikTok, her podcast, Teachers Off Duty, and establishing strong relationships with her 5th grade students. Explore more from Science Connections by visiting our main page.

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Lauran Woolley (00:00):

I wanna make sure that they’re ready for the real world, and I wanna make sure that they’re able to apply these things that I’m teaching them in their life, not on a multiple choice test.

Eric Cross (00:11):

Welcome to Science Connections. I’m your host Eric Cross. My guest today is Lauren Woolley. Lauren is a full-time fifth grade teacher in Leetonia, Ohio, who has amassed a following of 5.5 million subscribers on TikTok and over 1 million followers on YouTube. She’s also co-host of the podcast, Teachers Off Duty. Lauren has combined her teaching vocation and her talent for entertaining to connect with her students and encourage teachers across the world using her own unique style of edutainment. My most vivid memory from our discussion was her sincerity and openness about her experiences. It quickly became obvious to me that her personal transparency was a characteristic that she has remained grounded in despite her social media success. And now, please enjoy my discussion with Lauren Woolley.

Eric Cross (00:53):

You’re currently teaching fifth grade?

Lauran Woolley (00:55):

Yes.

Eric Cross (00:55):

What is it like to teach all content areas? ‘Cause I’m a middle school science teacher.

Lauran Woolley (00:59):

I didn’t always teach all content areas. First I started in second grade, so I used to teach like primary. I taught that for about three years. And I only really got my 4-5 endorsement because it was told to me that it would make me more marketable as a teacher. So I got it <laugh>. I was like, I’m never gonna use that. And then, my second year teaching, my class had low numbers and they collapsed my second grade classroom, split up my students, and then moved me to fifth grade in January. I had to take over a fifth grade class with all content areas in the middle of a school year. And it was really hard. It was like probably one of the most challenging things I’ve ever had to do teaching. When I got my job at my current school, it was only language arts, social studies.

Lauran Woolley (01:46):

So we only have two fifth grade classes. My other teacher would teach math, science. I taught language arts, social studies, and then the timeframes weren’t matching up. Like, I didn’t have enough time in my schedule for all the things we had to do in our curriculum. And she had like a little bit too much time. We realized as a district that it would be better for our fifth grade classes to just be self-contained. And last year was the first year I taught all five subjects. And I liked the variety of teaching everything because when I taught just language arts, social studies, I just felt like I was repeating myself twice a day. <laugh>. It was kind of boring for me. So like, I like doing all of it. <laugh>.

Eric Cross (02:24):

Yeah. With all of your talents and like your background and what I’ve seen, I could totally see why having all the different content areas would like make sense. Are you using a set curriculum? How do you come up with what to teach? Do you do it with teams? Like who comes up with that?

Lauran Woolley (02:36):

Uh, me, myself and I.

Eric Cross (02:38):

Well done.

Lauran Woolley (02:39):

My school, for literacy we’re using literacy collaborative. Then for math, we just adopted bridges, which I love and it’s very hands-on, very like student-led. For science, we had nothing. And I am not a science, or was not a science teacher at the time when I took over. So I panicked a bit and I was like, “Hey, can we have some kind of science curriculum? ‘Cause I got nothing.” And it’s not hard to look at the state standards and figure out what you need to teach them, but having no resources to go off of is extremely difficult. And luckily I have an older brother, he’s like three years older than me and he’s also a teacher. He actually is a science teacher. ‘Cause that first year that I was teaching all subjects, I was like, “Hey Ryan, can you just like send me all of your Google Drive files for science <laugh>?

Lauran Woolley (03:33):

And he’s like, “Yeah, sure.” So he kind of was like a mentor for like the first year that I taught science. And this year being my second full year teaching science, I feel much more confident. I’m still using his resources. We don’t have a dedicated curriculum at my school. So that’s like one thing I’ve been fighting my school on. And not that they don’t wanna get us one, but like they were focused on getting the math curriculum last year. And then I was told, okay, this year will be science because in my state, fifth grade is a tested area for science and we have no curriculum.

Eric Cross (04:04):

Ryan, keep doing what you’re doing big bro. Second, thank you to every teacher who’s had a Google Drive folder full of curriculum that you graciously shared to a new teacher or someone else that they could have.

Lauran Woolley (04:18):

Can we just say like, can schools, like schools, please get your teacher’s science curriculums.

Eric Cross (04:24):

No, absolutely right. And there is this way of thinking that, especially as a science teacher, it’s something that is dear to my heart, but we do want to develop these math and English skills that’s important and we need that for science. But we’ve always taught so siloed for so long, but that’s not the way that we learn and that’s not the way life works. Something that intrigued me about what you said, and I think a lot of people can relate to it, and I know I can because that was me, is you created your own content or your science content. Like you’re kind of piecing that together from what Ryan had shared with you. How do you make time for that with all of the other things that you’re doing and pressures of state testing and things like that. Like how do you weave that into your teaching?

Lauran Woolley (05:02):

So we have like things that are non-negotiable in our schedules. Like we have to have so many minutes of this, so many minutes of that, so many minutes of whatever else. Well, the first year, I was self-contained. I was like, okay, my main goal, because science is a tested area, I wanna make sure that I get in science every single day, 90% of the time I’m able to get anywhere from 30 to 45 minutes of science every day. But this year it was my goal to make sure that I was getting science done and like we were doing meaningful lessons. And last year I didn’t do this, but this year I’m doing a Christmas center for STEM. So I got it off of Teachers Pay Teachers. I’m sorry, I can’t remember who it was made by, but it’s called Jingle All the Way and it’s like building Santa’s new sleigh. And so like the kids have an activity where they have popsicle sticks, straws, a plastic cup and then like tape. And they have to build a new sleigh for Santa and see how many pennies their sleigh can hold. Like talk about a sleigh being lightweight but also strong and like what would make it strong and different things like that. So I’ve been trying to incorporate a lot more STEM activities. And then something I really like to use for experiment days, I call them lab days, is Gizmo. Have you heard of Gizmo?

Eric Cross (06:15):

Yeah. The simulations.

Lauran Woolley (06:16):

Yeah. My brother showed me that too and he was using it in his class. I mean there’s so many different ones that they have that align with the standards and they have like student lab sheets that go with them and teacher guides and stuff. I’ve just been trying to like up my game a little bit more this year, because last year I was like struggling to get all of the standards in before state testing came around because, can we agree, state testing should not be as early as it is? Our state test happens in like March and we have two months of school left. So like, we better be done with standards by February so we could review, because otherwise we’re kind of outta luck because we run outta time.

Eric Cross (06:59):

Yes. That and there’s all kinds of other things that state testing brings with it that we could spend a lot of time probably critiquing and talking about like as far as what’s ideal for kids and what’s the best way to measure and assess learning. That is one question I wanna ask you though, because I know with your work on TikTok and Instagram and YouTube, you must be connected to a pretty vast teacher network and maybe you have like, kinda like more of an inner circle of people, but you must come across so many different perspectives and get into great discussions. Is there <laugh>, is there anything that kind of stands out to you as far as if you were in charge of what we’re doing? Because that’s kind of the system that we all live in and we kind of are trying to internally change it, but it’s been that way for a long time and we just kind of have to work within it until we can make changes. But if you were to, I dunno from an elementary school perspective, change or modify the way kids are learning, what would you do if you had Monarch ability?

Lauran Woolley (07:54):

Okay, I got three main things I’m thinking in my head. Okay, first things first, we got Maslow’s hierarchy of needs. Okay. If kids are coming to school hungry, if they’re coming to school and don’t have, you know, fresh clothing to put on, if they’re coming to school and they have issues at home that they are dealing with, that they are not okay with, the learning is not happening. That’s secondary. They don’t, it doesn’t matter to them. It doesn’t matter to me because what’s most important is that child as a human being and whether or not they’re okay. If I had unlimited resources, I would love to be able to build like a little mini village inside a school and have like a clothing store that kids could grab stuff from. Or like a, you know how I know how school have like closets and food pantries, but like a real place they could get some new clothes, not like hand-me-down clothes, like a store they could go and grab some food if they needed food for their homes or whatever. We have like an onsite counselor but not like a school counselor, like a therapist-type counselor for like mental health. Having some kind of like health clinic, not just like a school nurse because, let’s be real, our school nurses see everything <laugh> and they do not get enough credit, but like to have like a little like urgent care clinic, like basically a small town <laugh> inside a school that like kids would have all of the resources that they need met. Like that would be my number one thing that I would love to do. I have taught in, you know, I’ve only taught in two different schools, but like I’ve seen a lot of things and the number one thing that keeps coming back is just like home lives and mental health and having someone to talk to.

Lauran Woolley (09:41):

And I think our kids don’t have enough of that. Second of all, would be obviously state testing. Because I mean, it’s good to see like where our kids are at. I don’t think it should be used punitively and I don’t think that it should be putting as much pressure on teachers and students the way that it is. It’s not effective that way at all. Let teachers do their jobs without us having to, like, ’cause honestly, who’s not gonna say that they’re not trying to set their students up to do the best on that test. Our evaluation depends on it. I’m gonna make sure my students are prepared for it. I’m gonna teach all the standards, but like, I shouldn’t have to be teaching so that they could do well on a test. I wanna make sure that they’re ready for the real world and I wanna make sure that they’re able to apply these things that I’m teaching them in their life, not on a multiple choice test. Third of all, <laugh>.

Eric Cross (10:33):

This, this is great. And I think a lot of teachers will listen and be like, “That’s what I’m talking about right there.” Keep going. You’re on three.

Lauran Woolley (10:40):

That would be two teachers in every classroom. Either two teachers in each room or like a teacher and a paraprofessional in each room, because there’s not even an argument that teachers are more effective when they have help.

Eric Cross (10:54):

I would even carry the math on further and say that it’s a force multiplier, like exponentially, that it’s not just, it’s not just like a one plus one equals two teachers. It’s almost like you can almost have like three or four just because of the energy and the synergy that can be created between the two. And you can push off of each other, encourage one another and both support different types of students. So I agree a hundred percent. I think that if you had two teachers that were in sync and planning together and talking about kids all of the time, you would be able to go deeper with students. You’d be able to find out those things that you talked about in Maslow’s because sometimes we don’t find out about it until a parent-teacher conference or kids left our classroom. I wish I would’ve known that. The student was without these things in the very beginning.

Lauran Woolley (11:41):

Absolutely. Mm-hmm.

Eric Cross (11:42):

So when do you start in the school and do we go on LinkedIn to sign up and apply or is it like a lottery system? Like, ’cause you know, I was gonna get a lot of attention.

Lauran Woolley (11:52):

I would love to Oprah Winfrey this and like build my own school <laugh>.

Eric Cross (11:56):

We gotta get those followers up. We gotta build up the sponsorships. We gotta get you up to a hundred million.

Lauran Woolley (12:01):

Listen, if all of my followers across all my platforms donated like $2, we could have $12 million to build a school. <laugh>.

Eric Cross (12:10):

Think about like, DonorsChoose, right? People do that. And I know there’s mixed feelings about it because we need stuff in our classroom. I’m just gonna say that. All right. So, whether I have to ask for it on a website or whatever, but people want to give directly to kids, or people who need it. And I think when there’s opportunities like that, that are visible, people are more likely to want to.

Lauran Woolley (12:29):

In reality, should other people have to fund education in classrooms? No. That’s literally what your taxes are for. A government-funded classroom versus a teacher-funded classroom are two different things. And we know that. But if teachers are asking for things or asking for donations on Amazon or on DonorsChoose, just know in your heart that that teacher has probably already shelled out a lot of their own cash to do that. It’s not that they’re, you know, asking for handouts or anything like that. They’re trying to give their students the best that they can and that’s the thought process behind it. And until we get changes in our education system or changes in legislature that will allow us to do that or will allow classroom budgets, I mean, our hands are tied. Like there’s only so much teachers can do. I’m very fortunate to teach in a district that sees the value in spending money on their teachers and students. And, like my school, like I said, they just shelled out thousands of dollars on a new math curriculum. They bought school supplies. Literally every teacher made their school supply list this year. And then the district went in and paid for every single student’s school supplies in the entire district.

Eric Cross (13:49):

Can we get a shout out to your district real quick?

Lauran Woolley (13:51):

Uh, yeah. I mean, shout out Leetonia schools like, I mean, you guys are awesome and I’ll shout that from the rooftops. I love where I teach. Like I really do think that they value our students and they care about our students and our admin is great. We got a new superintendent a couple years ago. He’s been doing a phenomenal job and I really love it and I’m glad I teach there.

Eric Cross (14:12):

When you move out of the classroom, you know, in any position of leadership, you do have the microscope or magnifying glass on you and a lot of times it’s critical. And not unjustifiably so, I mean, there’s a lot of things that can be critiqued. However, what we don’t always hear is the success stories or where it’s working for teachers and why. And we need leaders to be able to talk to each other and find, “Hey, it’s working in your district? Oh, I just heard, I just heard this district get shot out. I’m gonna go reach out to those people. Hey, what are you doing?” Because we connect with each other, but I think when you go like a level up, that kind of getting up the top of the mountain, the, the connection sometimes can become more difficult for people. There’s not a lot of, I don’t know, maybe there are, but admin influencers.

Lauran Woolley (14:54):

Oh yeah, there definitely are. And I’ve met some really incredible ones. I’m on a committee at my school, it’s called NNPS, it’s the National Network of Partnership Schools. It was started out of Ohio State University. Essentially it is a committee in the school that’s dedicated to bringing together the community and businesses and partnering with people to make our school as strong as it can be. We started last year and we did a bear breakfast, ’cause our mascot is a bear. And we had Christmas things and we had the choir caroling, and we had pancake breakfast for everybody and it was completely free. It was just really nice to see everybody come together. And it feels like the culture changes when people work together and come together for the betterment of the school and for the students. And I think what’s challenging is that so many people have such a negative experience from their schooling that they’re hesitant to get involved in their kids’ schooling. I urge any parents out there, any guardians out there that are, you know, in that mindset where you’re like, I didn’t like my teachers in school, or I had this, this, this and happened to me at school. Give it a chance to know that things have changed and things are changing.

Eric Cross (16:11):

I definitely agree with you about parent engagement and getting involved and sometimes parents, they just don’t know that they should. But wow, your voice is so powerful, especially at board meetings and things like that. Getting stakeholders involved, creating community, which it sounds like your school did a great job or your district did a great job of. The last question I wanna ask you, and it’s kind of going back to who your influencer was, is you now are in a position where your impact exceeds more than, you know. You’re planting so many seeds you’re sharing, and you’ll hear maybe a few, or I’m sure you’ll hear the things that kind of come back to you, but that’s only a fraction. But I wanted to ask you, like, as you think back on your career as an educator or when you were in school K through five or K through 12, is there anyone who stands out to you or who was maybe your influencer or teacher who made a big difference that was memorable? And if so, who was it and what was it about them or what did they do?

Lauran Woolley (17:01):

So I had a lot of teachers that I really had good relationships with and I loved school growing up. But one always stood out in particular, and that was my ninth grade English teacher and her name is Andrea Reid. She was the first person who really told me that I was talented at something and that I could succeed in something because she was the English teacher. She was also a coach of the speech and debate team at my high school. Just one day after school. She was like, “Hey, like you should come to speech tryouts.” So I went to tryouts, like I did it not thinking like I cared if I made it or didn’t, and then I made the team. And honestly, I feel like speech was the starting point of all of it. I competed in speech and debate for four years of high school and she was my coach.

Lauran Woolley (17:49):

I always have horrible nervousness with public speaking, even though I do it a lot. And she would always give me like the best hype speeches and the best confidence boosters. And I feel like speech started my love of acting and started my love of like, you know, comedy and stuff like that. And so therefore TikTok happened and I don’t think any of this would’ve happened had it not been for her and her opening that door for me and telling me, “Hey, you would be good at this. You should try it.” We’re still friends to this day, 15 years later, and she is like an older sister to me and I love it.

Eric Cross (18:26):

That’s amazing. Andrea Reed, that’s her name.

Lauran Woolley (18:28):

Andrea, yep.

Eric Cross (18:29):

Andrea. Andrea Reid. Ms. Reid, thank you, for inspiring Lauran and <laugh> because of your impact, now it’s impacting so many others and as teachers, like, we don’t even, we don’t know, but it’s so humbling to know that like the words that we say to people have that impact and power. It’s so, it’s, it’s so inspiring to me. One of the things that resonate with you so much is your transparency. Like in your depth. Like even as just listening to you talk, you normalize and humanize so many things that we experience and I’m sure that’s what a lot of the people that watch you connect with. You show your life, your family, your house, all these things that are happening. And I was just looking through the comments and there’s just so many people that are warmed. Not just your students, but like so many teachers. So thank you for doing what you’re doing and I wish you tremendous success. Thank you for your time.

Lauran Woolley (19:17):

No, thank you so much for having me. This was awesome. I just wish everybody a great school year and I hope that we all make it through winter break. <laugh>.

Eric Cross (19:27):

Thanks so much for listening to this season of Science Connections. I love learning about science educators just like you. You can nominate educators that inspire you to become a future guest on Science Connections by emailing STEM@amplify.com. That’s S T E M at amplifycom.wpengine.com. Make sure to click subscribe wherever you listen to podcasts and tune in for a brand new season of Science Connections coming soon.

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What Lauran Woolley says about science

“I want to make sure they’re ready for the real world and I want to make sure they’re ready to apply these things I’m teaching them in their life, not just on a multiple choice test.”

– Lauran Woolley

5th Grade Teacher, Northeast Ohio

Meet the guest

Lauran Woolley is a fifth grade teacher in Northeast Ohio. She has loved being able to combine her love of education and entertainment into one career. Her goal is not only to humanize educators to both families and students, but to create a safe space for her students on the internet. She has had the privilege of collaborating with educators around the world to shed a light on this amazing career. You can listen and watch the Teachers Off Duty podcast here!

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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. 

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2025

September 18, 2025

Edutopia: “Using Virtual Manipulatives in Math Class”

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August 19, 2025

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

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August 18, 2025

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

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August 5, 2025

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

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August 4, 2025

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

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July 9, 2025

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

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June 25, 2025

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

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May 28, 2025

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

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May 27, 2025

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

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May 20, 2025

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

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April 23, 2025

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

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April 21, 2025

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

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March 19, 2025

Education Next: “School Reinvention in Practice”

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February 28, 2025

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

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February 26, 2025

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

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January 24, 2025

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

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January 16, 2025

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

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2024

December 18, 2024

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

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December 6, 2024

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

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November 27, 2024

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

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November 6, 2024

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

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October 1, 2024

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

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September 18, 2024

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

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August 22, 2024

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

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August 2, 2024

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

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July 31, 2024

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

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July 23, 2024

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

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July 7, 2024

The Economist: “Will artificial intelligence transform school?”

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June 24, 2024

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

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June 6, 2024

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

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May 24, 2024

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

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May 2, 2024

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

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April 25, 2024

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

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April 4, 2024

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

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March 22, 2024

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

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March 15, 2024

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

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March 5, 2024

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

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February 21, 2024

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

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February 19, 2024

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

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February 7, 2024

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

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2023

December 19, 2023

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

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December 8, 2023

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

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December 6, 2023

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

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November 27, 2023

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

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November 2, 2023

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

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October 31, 2023

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

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October 19, 2023

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

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October 16, 2023

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

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October 6, 2023

Language Magazine: “Embracing Bilingual Assessment”

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September 18, 2023

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

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September 18, 2023

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

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September 7, 2023

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

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August 14, 2023

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

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August 6, 2023

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

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August 4, 2023

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

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August 3, 2023

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

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July 28, 2023

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

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July 17, 2023

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

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July 11, 2023

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

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July 6, 2023

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

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June 29, 2023

The Report Card: “Larry Berger on Curriculum”

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June 2, 2023

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

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May 25, 2023

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

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April 21, 2023

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

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April 18, 2023

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

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April 5, 2023

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

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April 5, 2023

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

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March 24, 2023

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

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March 24, 2023

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

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March 15, 2023

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

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March 7, 2023

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

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March 3, 2023

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

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March 2, 2023

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

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March 2, 2023

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

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March 1, 2023

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

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February 27, 2023

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

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February 27, 2023

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

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February 7, 2023

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

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January 13, 2023

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

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January 6, 2023

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

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January 5, 2023

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

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2022

December 20, 2022

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

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December 14, 2022

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

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December 14, 2022

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

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November 21, 2022

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

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October 24, 2022

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

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October 20, 2022

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

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August 30, 2022

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

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August 29, 2022

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

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August 28, 2022

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

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August 18, 2022

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

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August 16, 2022

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

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July 20, 2022

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

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July 19, 2022

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

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June 28, 2022

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

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May 24, 2022

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

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April 24, 2022

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

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April 18, 2022

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

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April 15, 2022

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

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March 23, 2022

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

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March 15, 2022

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

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March 11, 2022

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

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March 10, 2022

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

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March 10, 2022

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

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March 9, 2022

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

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March 9, 2022

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

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March 8, 2022

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

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March 7, 2022

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

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February 28, 2022

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

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February 24, 2022

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

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February 24, 2022

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

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February 23, 2022

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

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February 22, 2022

ABC 7 Buffalo: “Children falling behind in reading”

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February 18, 2022

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

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February 16, 2022

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

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February 16, 2022

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

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February 4, 2022

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

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January 26, 2022

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

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January 19, 2022

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

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2021

December 15, 2021

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

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December 8, 2021

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

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November 13, 2021

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

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October 20, 2021

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

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September 2, 2021

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

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September, 2021

SIIA Education: “ED TECH SUCCESS STORIES”

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August 23, 2021

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

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August 18, 2021

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

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August 12, 2021

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

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August 3, 2021

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

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July 28, 2021

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

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July 28, 2021

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

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July 20, 2021

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

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July 5, 2021

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

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June 15, 2021

Language Magazine: “Using Evidence to Overcome Adversity”

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May 7, 2021

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

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April 20, 2021

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

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March 24, 2021

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

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March 23, 2021

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

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March 17, 2021

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

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March 16, 2021

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

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March 16, 2021

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

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February 25, 2021

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

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February 24, 2021

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

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February 17, 2021

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

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February 5, 2021

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

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February 4, 2021

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

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January 5, 2021

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

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2020

December 15, 2020

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

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December 9, 2020

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

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December 3, 2020

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

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September 29, 2020

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

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May 25, 2020

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

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February 5, 2020

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

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