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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.
    • We process all categories of personal information that we collect to comply with our legal obligations which includes, for example, to access, retain or share certain personal information where we receive a valid request from a government body, law enforcement body, judicial body regulator or similar, to deal with legal claims and prospective legal claims, and to ensure we are complying with applicable laws.
  • When we have a legitimate interest in doing so, which is not outweighed by the risks to the individual.
    • We process all categories of personal information that we collect to support the provision, effective management, and improvement of our Products where such activities are not strictly required under our contract. This is in our legitimate interests to ensure that we are providing the best possible service.
    • We process all categories of personal information that we collect to ensure the safety and security of our services where this is important but not required under the data protection law or cyber and information security laws. This is in our legitimate interests to ensure the security of our services and systems, to prevent threats, abuse or fraudulent or unlawful activity, to promote safety and security and to ensure our Products are used in accordance with our terms and conditions.
    • We process the contact information of Non-Student Authorized Users to manage our relationship, including to respond to queries or otherwise communicate with you in relation to our Products and the operation of our business where this is not strictly required under a contract with you. This is in our legitimate interests to communicate with and resolve queries from users of our Products and to ensure that we are providing the best possible service.

We process the contact information and survey data of Non-Student Authorized Users for internal research and 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 Students. This is in our legitimate interests to understand our customers and prospective customers, understand how our products and services are perceived in the market, to promote our products, and to grow and develop our business.

Your Data Subject Rights

Note for Requests Relating to School Data: Amplify acts as processor to its School customers with respect to all School Data. We work with our School customers 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, you have the following rights if you are in the EEA or UK, subject to certain exceptions:

  • Right of access: You have the right to ask us for confirmation on whether we are processing your personal information and access to that personal information.
  • Right to correction: You have the right to have your personal information corrected.
  • Right to erasure: You have the right to ask us to delete your personal information.
  • Right to withdraw consent: You have the right to withdraw consent that you have provided.
  • Right to lodge a complaint with a supervisory authority: You have the right to lodge a complaint with a supervisory authority.
  • Right to restriction of processing: You have the right to request the limiting of our processing under limited circumstances.
  • Right to data portability: You have the right to receive the personal information that you have provided to us, in a structured, commonly used, and machine-readable format, and you have the right to transmit that information to another controller, including to have it transmitted directly, where technically feasible.
  • Right to object: You have the right to object to our processing of your personal information

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

5. Submitting Requests

To exercise any of the rights described in sections 2 and 3 of this appendix, email us at privacy@amplify.com and specify which privacy right you intend to exercise. We may require additional information from you to allow us to confirm your identity. The verification steps will vary depending on the sensitivity of the personal information and whether you have an account with us. Please note that your rights may not apply in all cases. For example, we may need to retain your personal information to comply with our legal obligations, resolve disputes, prevent fraud and enforce our agreements. We will inform you if we are not able to fully respond to your requests. You may designate an authorized agent to make a request on your behalf. When submitting the request, please ensure the authorized agent identifies himself/herself/itself as an authorized agent and can show written permission from you to represent you. We may contact you directly to confirm that you have authorized the agent to act on your behalf or confirm your identity.

Complaints

If you have any issues, you have the right to lodge a complaint with an EEA or UK supervisory authority. We would, however, appreciate the opportunity to address your concerns before you approach a data protection regulator and would welcome you directing an inquiry first to us. To do so, please contact us by email at privacy@amplify.com or by mail at Amplify Education, Inc., 55 Washington St.#800, Brooklyn, NY, 11201.

6. Google APIs

Amplify uses Google’s Application Programming Interface (API) Services to enable Authorized Users to log in to Amplify, import classes and rosters from Google Classroom, create assignments in Google Classroom, and copy, edit, and publish Amplify content using Google Slides. Amplify will use and transfer information received from Google’s API in accordance with Google API Service User Data Policy, including the Limited Use requirements.

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.

What’s included in our Spanish language arts curriculum

Amplify Core Knowledge Language Arts® (CKLA) is available in both English and Spanish. Amplify Caminos al Conocimiento Esencial, our robust Spanish language arts companion for grades K–5, supports multiple teaching models, including dual language immersion and transitional classrooms.

A laptop screen displays a kindergarten instructional webpage in Spanish, showing lesson categories with illustrated thumbnails and navigation options.

Year at a glance

The program’s intentional Knowledge Sequence from K–5 connects knowledge and vocabulary within a grade level and across grade levels, for deeper reading comprehension and preparation for college, career, and life. Instead of “activating prior knowledge,” Amplify Caminos helps you build it in the classroom from day one, for every child, expanding each student’s knowledge base long before they transition to reading to learn.

Curriculum flowchart showing reading themes and activities from Kindergarten to Grade 5, organized by grade level and literary theme, with interconnected boxes for each topic.

Units & domains at a glance

Each Knowledge Domain in grades K–2 and Unit in grades 3–5 varies in the number of days based on instructional purpose. Just as with our top-rated Amplify CKLA program, the Amplify Caminos materials engage and delight young learners with resources that are both appealing and original.

Una mujer rubia con un vestido azul cuida ovejas blancas y negras, sosteniendo un bastón de pastor. Un cerdo vestido de azul corre y un hombre de negro toca el violín en una valla. Al fondo hay una casa.

Domain

Nursery Rhymes and Fables/Rimas y fábulas infantiles

Start learning about literature with these classic Mother Goose rhymes.

Ilustración de tres personas en un paisaje cubierto de hierba, una tratando de atrapar mariposas con una red, otra escondiéndose detrás de una escultura alta y frondosa de una mano y otra con binoculares.

Domain

The Five Senses/Los cinco sentidos

Learning about the body starts with learning about how we experience the world.

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

Domain

Stories/Cuentos

Learn about the parts of a book and some of the stories that go in one.

Una ilustración vibrante de una escena rural con colinas, una granja, una mariposa, un sol brillante, varias verduras como tomates y lechugas, y un gusano en el suelo.

Domain

Plants/Plantas

Discover the lifecycle of plants and the history of George Washington Carver.

Ilustración de una escena de granja que muestra un camión rojo que transporta verduras, campos de cultivo, vacas pastando en una colina, un granero y un molino de viento contra un cielo azul.

Domain

Farms/Granjas

Now we know how plants make their food… but what about animals?

Ilustración de un nativo remando en una canoa en un río con búfalos pastando en un campo, tipis al fondo y pájaros volando en el cielo bajo un sol brillante.

Domain

Native Americans/Los nativos americanos

Who were the first people in America? A look at the Lenape, Wampanoag, and Lakota Sioux.

Una ilustración muestra un rey y una reina en tronos, un castillo en un acantilado y una mujer con enanos cerca de un árbol. Cortinas rojas enmarcan la escena.

Domain

Kings and Queens/Reyes y reinas

To understand fairy tales, it’s best to first understand royalty.

Ilustración que muestra las cuatro estaciones: primavera con flores, verano con árboles verdes, otoño con hojas que caen e invierno con nieve y gente en trineo. Un niño lee debajo de un árbol.

Domain

Seasons and Weather/Las estaciones y el tiempo

The study of natural cycles continues with the weather and why it happens.

Un velero de madera con símbolos de cruz roja en sus velas navega cerca de una isla tropical con exuberante vegetación y palmeras. A lo lejos se ven otros dos barcos en el agua.

Domain

Columbus and the Pilgrims/Colón y los peregrinos

A look at the first contact between Europe and the Americas, and some of its results.

Una escena histórica muestra gente afuera de una gran mansión de estilo colonial con dos chimeneas. En primer plano se ve un carruaje tirado por caballos y a la izquierda se ve una casa más pequeña.

Domain

Colonial Towns and Townspeople/Las colonias y sus habitantes

Before the War for Independence, how did the town and country depend on one another?

Ilustración de personas clasificando materiales reciclables en un parque cerca de un río contaminado. Las fábricas emiten humo al fondo, mientras que las mariposas, las flores y los árboles están presentes en el primer plano.

Domain

Taking Care of the Earth/Cuidar el planeta Tierra

We only have one Earth—here are some ways to help care for it.

Ilustración del Monte Rushmore con los rostros tallados de cuatro presidentes de Estados Unidos. Un águila vuela en primer plano.

Domain

Presidents and American Symbols/Presidentes y símbolos de los Estados Unidos

Start learning about government through the lives of five presidents.

Una ilustración caprichosa que muestra animales de granja alrededor de una casa en un árbol junto a un río. Un zorro, un conejo y una oveja interactúan mientras la gente acampa junto a una fogata al fondo. Una araña cuelga del árbol.

Domain

Fables and Stories/Fábulas y cuentos

Learn some of the key elements of a story through classic fables.

Ilustración que presenta anatomía humana, actividades de estilo de vida saludable, profesionales médicos, símbolos dietéticos, una ambulancia y microorganismos, destacando la conexión entre salud, nutrición y ejercicio.

Domain

The Human Body/El cuerpo humano

What are germs? What are the organs? And what does it all have to do with health?

Una ilustración que presenta varias escenas de cuentos de hadas y folclore, incluida una calabaza grande, un tigre, Caperucita Roja, personas con atuendos tradicionales y una pagoda roja con una montaña de fondo.

Domain

Different Lands, Similar Stories/Tierras diferentes, cuentos similares

A world tour of storytelling, and the stories that stay the same across the world.

Ilustración que muestra el antiguo Egipto con pirámides, la Esfinge, agricultores arando un campo con bueyes y ganado pastando bajo un cielo soleado.

Domain

Early World Civilizations/Antiguas civilizaciones del mundo

Rivers, farming, writing, and laws: just what does it take to build a civilization?

Escena ilustrada de la antigua Mesoamérica con maíz, un río, agricultores y pirámides al fondo. En primer plano se ve a una persona con traje tradicional.

Domain

Early American Civilizations/Antiguas civilizaciones de América

What will we find in the great temples of the Aztec, Maya, and Inca civilizations?

Ilustración de la exploración espacial: se lanza un cohete, un astronauta se para cerca de un módulo de aterrizaje, una persona usa un telescopio y aparece un planeta distante con anillos sobre un fondo estrellado.

Domain

Astronomy/Astronomía

How the Earth relates to the moon, the sun, and the rest of the planets.

Dos paleontólogos en un paisaje volcánico examinan fósiles en primer plano, mientras un volcán emite humo y lava al fondo.

Domain

The History of the Earth/La historia de la Tierra

Just what lies beneath the Earth’s surface, and what can it teach us about the past?

Una escena de vida silvestre diversa que presenta un cactus del desierto con un pájaro, un conejo, elefantes, un león, un oso polar sobre el hielo y montañas distantes bajo un cielo nublado.

Domain

Animals and Habitats/Los animales y sus hábitats

A look at the connection between how animals live and where they make their homes.

Una princesa con un vestido rosa sostiene una rana junto a un arroyo con un castillo, árboles y gente al fondo. En primer plano camina un zorro con un sombrero con una pluma roja.

Domain

Fairy Tales/Cuentos de hadas

What do fairy tales have to teach us about how stories are told?

Ilustración que muestra una escena histórica con soldados, veleros y hombres con atuendo colonial discutiendo en el interior.

Domain

A New Nation: American Independence/Una nueva nación: la independencia de los Estados Unidos

The story of the birth of the United States out of the 13 Colonies.

Los pioneros con carros cubiertos y caballos señalan hacia un valle con tipis nativos, fogatas y humo elevándose. Un oso se encuentra sobre una roca y se ven montañas al fondo.

Domain

Frontier Explorers/Exploradores de la Frontera

The story of the journey west from the newborn U.S.A. to find the Pacific Ocean.

Un hombre con un hacha se encuentra entre paisajes exagerados con un castillo, un tren con humo, un buey azul y una persona con un mono observando la escena.

Domain

Fairy Tales and Tall Tales/Cuentos de hadas y cuentos exagerados

Learn about exaggeration and characterization on the frontier.

Ilustración de un paisaje vibrante que presenta diversos monumentos culturales, incluidos templos, palacios, pirámides, una escena de elefantes, montañas distantes y fuegos artificiales en el cielo.

Domain

Early Asian Civilizations/Antiguas civilizaciones de Asia

Tour the world of classical civilization, starting with India and China.

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

Domain

Ancient Greek Civilization/La civilización griega antigua

The tour continues with the philosophy and politics of Greece.

Illustration of various mythological scenes including greek gods, a flying horse, and roman architecture under a sunny sky.

Domain

Greek Myths/Mitos griegos

Dive deep into the characters and storytelling of classic myths.

Ilustración de una batalla entre barcos británicos y estadounidenses cerca de un fuerte. El barco británico está a la izquierda con soldados, mientras que el barco estadounidense está a la derecha. La gente porta una gran bandera estadounidense en primer plano.

Domain

The War of 1812/La guerra de 1812

Learn about America’s “Second War for Independence.”

Un paisaje nevado con un zorro durmiendo en una madriguera, gente corriendo y andando en bicicleta por un sendero y árboles que muestran los cambios estacionales.

Domain

Cycles in Nature/Los ciclos de la naturaleza

Introducing the natural cycles that make our lives possible.

Ilustración de carros cubiertos tirados por caballos a lo largo de un sendero en el desierto, con un coyote aullando sobre una alta formación rocosa y un tren de vapor al fondo.

Domain

Westward Expansion/La expansión hacia el oeste

Why did pioneers go west? What happened to the people who were there?

Ilustración de un jardín vibrante con flores, abejas, mariposas, una oruga en una hoja, una crisálida y un apicultor que maneja una colmena junto a un estanque.

Domain

Insects/Los insectos

Lay the grounds for animal classification by looking at solitary and social insects.

Ilustración de una escena histórica con gente escuchando el discurso de un hombre en una plataforma. Al fondo se ve un río y una procesión de personas. En primer plano hay un documento de proclamación.

Domain

The U.S. Civil War/La Guerra Civil de los Estados Unidos

Begin to grapple with U.S. history’s central crisis over slavery.

Una escena en la que aparece una persona explicando un diagrama anatómico humano, otra persona haciendo ejercicio, una cadena de ADN, campos y un microscopio de fondo.

Domain

Human Body: Building Blocks and Nutrition/El cuerpo humano: componentes básicos y nutrición

A deeper dive into the digestive system and the nutrition process.

Un grupo diverso de personas se encuentra en un muelle con vistas a un bullicioso puerto con barcos y un gran barco, un avión volando por encima y la Estatua de la Libertad al fondo.

Domain

Immigration/La inmigración

Why did people immigrate to the United States, and what did they find here?

Women in early 20th-century clothing march with signs for voting rights and justice in front of a yellow bus labeled "Cleveland Ave.," making history that can inspire lessons in a K–2 language arts curriculum.

Domain

Fighting for a Cause/Luchar por una causa

How people can do extraordinary things to make the world better for everyone.

Dos ratones antropomórficos en un bote de remos, uno de ellos remando, navegan por un río tranquilo rodeado de exuberante vegetación y árboles. El ratón que rema lleva una chaqueta azul y el otro ratón parece conversar.

Unit 1

Classic Tales: The Wind in the Willows/Cuentos Clásicos: El viento en los sauces

A deep dive into character, theme, and POV in classic stories from around the world.

Ilustración de un jaguar, una garza, una rana roja, una tortuga y un pez en un paisaje vibrante con montañas y vegetación bajo un cielo soleado.

Unit 2

Animal Classification/La clasificación de los animales

How do we classify different animals by their appearance and behavior?

Ilustración de una figura humana que muestra la anatomía interna, incluidos el cerebro, los pulmones, el corazón, el sistema digestivo y una articulación de la cadera resaltada sobre un fondo degradado.

Unit 3

The Human Body: Systems and Senses/El cuerpo humano: sistemas y sentidos

Let’s take a closer look at how the skeleton, muscles, and nervous system all work.

Un ángel se arrodilla ante una mujer sentada en un sofá dorado encima de un templo en una noche estrellada. Unas escaleras conducen al templo en un paisaje montañoso.

Unit 4

The Ancient Roman Civilization/La civilización romana antigua

What is Rome’s greatest cultural contribution? In this unit, your students decide.

Ilustración de un perro saltando bajo un árbol, persiguiendo una abeja, con una mesa en primer plano sosteniendo una jarra y vasos de limonada. El sol brilla intensamente en el cielo.

Unit 5

Light and Sound/La luz y el sonido

The science behind all the ways we see and hear the world.

Un barco vikingo con una proa en forma de dragón navega en el océano bajo un cielo azul con nubes. El barco tiene una sola vela grande y varios escudos recubren sus costados.

Unit 6

The Viking Age/La era vikinga

An immersive narrative experience about what life was like in Viking communities.

Ilustración de una escena espacial con varios planetas y anillos sobre un fondo de estrellas. Dos planetas grandes dominan el primer plano y se ven planetas más pequeños al fondo.

Unit 7

Astronomy: Our Solar System and Beyond/Astronomía: nuestro sistema solar y más allá

More about our universe, including a writing project about daily life on a space station.

Una persona sentada en el borde de un acantilado con vistas a un vasto paisaje desértico con nubes arremolinadas en el cielo.

Unit 8

Native Americans: Regions and Cultures/Los nativos americanos: regiones y culturas

How did Native American nations change their way of life in different parts of the world?

Ilustración de un velero en el océano con la costa este de América del Norte visible a la izquierda.

Unit 9

Early Explorations of North America/La exploración europea de América del Norte

What was it like to sail to North America with the early European explorers?

Una pintura representa una escena del siglo XVII con colonos, un velero al fondo y un hombre conduciendo un carro tirado por caballos cargado de mercancías. Se ve a otras personas descargando y trabajando cerca.

Unit 10

Colonial America/La época colonial en los Estados Unidos

A study of the very different ways of life in the different pre-U.S. colonies.

Ilustración que muestra el ciclo de la vida: un esqueleto en el suelo, un pájaro posado en una cerca, otro pájaro en una planta y un ave rapaz más grande arriba, todos conectados por flechas circulares.

Unit 11

Ecology/Ecología

Students keep ecologist’s journals to learn about our world and how best to protect it.

Una mano alcanza una manzana verde en una rama. Cerca hay una brújula, un termómetro, un lápiz, notas musicales y un granero rojo sobre un paisaje cubierto de hierba.

Unit 1

Personal Narratives/Narrativas personales

Read stories of personal experience… and learn to reflect on your own.

Ilustración medieval que representa un grupo de figuras con armadura a la entrada de un alto castillo gris con puente levadizo, adornado con banderas y rodeado por un paisaje decorado y fondos ornamentados.

Unit 2

Empires in the Middle Ages/Los imperios en la Edad Media, parte 1 & Los imperios en la Edad Media, parte 2

Explore the medieval history of Europe and the Middle East.

Ilustración dorada de un dragón con alas sobre fondo beige, rodeado de diversos elementos decorativos como estrellas, hojas y estampados abstractos.

Unit 3

Poetry/Poesía

Study the poetry of many nations using licensed text anthologies, and begin to write your own.

Vintage styled illustrations of a microscope, an old telephone, and a clock on textured background with geometric patterns.

Unit 4

Eureka! Student Inventor/¡Eureka! Estudiante inventor

Transform the class into a lab for students to build and present inventions.

Formaciones rocosas en un paisaje desértico con capas vibrantes y arremolinadas de arenisca roja, naranja y amarilla bajo un cielo parcialmente nublado.

Unit 5

Geology/Geología

Plate tectonics, volcanoes, erosion: all the forces that shape the Earth.

Una imagen abstracta y colorida que representa varias formas geométricas de edificios sobre un fondo azul estampado.

Unit 6

Contemporary Fiction with excerpts from The House on Mango Street/Ficción Contemporánea con Fragmentos de La Casa en Mango Street

Explore The House on Mango Street… and write a book while doing it.

Cuadro que representa a un hombre y un niño tocando una gran campana en una torre, con espectadores al fondo y un cartel de "LIBERTAD" visible.

Unit 7

American Revolution/La Revolución estadounidense

Why did America seek independence? Let’s investigate the causes and effects.

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

Unit 8

Treasure Island/La Isla del Tesoro

How dSeek the treasure of plot in this detailed study of a classic fiction adventure.

Unit 1

Personal Narratives/Narrativas personales

Through writing and sharing their writing, students begin to identify themselves as writers.

Unit 2

Early American Civilizations/Las primeras civilizaciones americanas

Students craft a codex to explain the rise and fall of the Maya, Aztec, and Inca people.

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

Unit 3

Poetry/Poesía

Students close read many forms of poetry… and learn to write them.

Collage ilustrado con un paraguas, un cuervo, un sextante náutico, estrellas, una luna creciente y una brújula sobre un fondo beige texturizado.

Unit 4

Adventures of Don Quixote/Las Aventuras de Don Quijote

Was Don Quixote right to fight the windmill? In this full-length novel study, students decide.

Unit 5

The Renaissance/El Renacimiento

Exploring the art and literature of the Renaissance through the works of its masters.

Tres hombres vestidos con ropa de época examinan una gran hoja de papel dentro de una imprenta. Un hombre parece llevar un delantal, mientras que otro señala el papel y el tercero observa de cerca.

Unit 6

The Reformation/La Reforma

How did the printing press transform the religion and society of Europe?

Patrón botánico morado y lila con hojas, plantas y formas abstractas, incluida una luna creciente y estrellas, sobre un fondo violeta oscuro.

Unit 7

William Shakespeare’s A Midsummer Night’s Dream/Sueño de Una Noche de Verano de William Shakespeare

Students enter the world of Shakespeare by reading, designing, and acting out his work.

Retrato en tonos sepia de una joven de pelo largo, con un collar de pedrería y un chal drapeado.

Unit 8

Native Americans/Los nativos americanos

How did the policies of the U.S. government impact Native American culture and lives?

Una lupa sobre documentos que contienen una pintura de paisaje de montañas, un dibujo con la etiqueta "Raptor Claw" y una nota adhesiva con la "Pista n.° 2". También se ven un sobre y una insignia exterior.

Unit 9

Chemical Matter/Química

Students use knowledge of chemistry to solve a mystery.

Print & digital components

The program includes instructional guidance and student materials for a year of instruction, with lessons and activities that keep students engaged every day.

Component

FORMAT

Knowledge (Conocimientos) Teacher Guides (K–2)

Knowledge Strand Teacher Guides contain Amplify CKLA’s cross-curricular read-alouds and application activities, all of which are standards-based to build mastery of content knowledge and literacy skills. There is one Teacher Guide per Knowledge Domain.

Print and digital

Knowledge Image Cards (K–2)

Amplify Caminos includes Image Cards for each Knowledge Domain to bring each topic to life through vivid visuals.

Print and digital

Knowledge Flip Books (K–2)

Projectable Flip Books are provided to accompany the read-alouds in each Knowledge Domain.

Digital

Teacher Guides (3–5)

Teacher Guides for grades 3–5 units are based on content-rich topics and incorporate reading, writing, speaking, and listening skills in the context of background knowledge. There is one Teacher Guide per unit.

Print or digital

Teacher Resource Site (K–5)

The program includes a one-stop-shop website for lesson projections, digital versions of all Amplify Caminos materials, lesson planning resources, multimedia (such as eBooks), and more.

Digital

Professional Learning Site (K–5)

The Professional Learning site includes training materials, best practices, and other resources to develop program expertise. Access professional development anywhere, anytime.

Digital

Component

FORMAT

Knowledge (Conocimiento) Activity Books (K–2)

Activity Books provide students with the opportunity to deepen world and word knowledge by responding to text in a diversity of ways.

Print

Student Readers (3–5)

Student Readers serve as content-rich anchor texts for each unit. Units such as Poetry and Contemporary Fiction feature authentic texts originally written in Spanish.

Activity Books (3–5)

Activity Books in grades 3–5 provide daily opportunities for students to hone reading and writing skills within the context of each unit.

Print and digital

Explore more programs

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

Amplify CKLA Skills

Amplify CKLA Skills offers the explicit skills instruction needed in today’s cla…

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S5.E6. Why skepticism is essential to the Science of Reading, with Dr. Claude Goldenberg

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S5-05. Math technology & hacks for math anxiety: research-based tips for caregivers

A blue graphic with text reading "Math Teacher Lounge" in multicolored letters and "Amplify." at the bottom, with abstract geometric shapes and lines as decoration.

We’ve been very lucky to have so many prolific and brilliant researchers on this season of Math Teacher Lounge, and our next guest is no exception.

Listen as we sit down with Dr. Marjorie Schaeffer to discuss what causes math anxiety, math hacks, and how the right math technology can make an incredible impact in children and caregivers coping with math anxiety.

Listen today and don’t forget to grab your MTL study guide to track your learning and make the most of this episode!

Download Transcript

Marjorie Schaeffer (00:00):

I think the most important thing we know from literature right now is that high math-anxious parents, when they interact with their children, their children learn less math over the course of the school year.

Bethany Lockhart Johnson (00:12):

Welcome back to Math Teacher Lounge. I’m Bethany Lockhart Johnson.

Dan Meyer (00:15):

And I’m Dan Meyer.

Bethany Lockhart Johnson (00:16):

We’re onto Episode 5, Dan, of our series on math anxiety. And I wanna say it feels so lovely to imagine all of these people out there doing work to help combat math anxiety. I dunno, it just makes me feel excited about the possibilities. This work is out there; it’s happening! Kids and teachers and caregivers are being impacted by these conversations. Not just — I mean, I don’t just mean the conversations we’re having on Math Teacher Lounge, but I mean, that these researchers are doing. Like, yes, we can change this!

Dan Meyer (00:53):

This is great. Yeah. We have people who are extremely smart, who have dedicated their professional lives to studying math anxiety and resolving it. And each of them that we’ve chatted with — they share lots of ideas in common, but I’ve loved how they each have their own different flavor or take or area of emphasis on a problem that hits everybody everywhere. It’s in your home, with kids and caregivers. It’s in schools. It’s in our places of teacher preparation and professional learning. Every place is a place where we can focus on resolving issues of math anxiety. It’s exciting.

Bethany Lockhart Johnson (01:26):

Yeah, I feel like … if there could be a course in — we all know that our teacher prep programs, in MOST teacher prep programs, there’s not nearly enough math methods or time to cover <laugh> — it’s like ready, set, go! And depending on who your mentor teacher is or what your math methods course … I mean, it can totally shape the way that you are prepared or really not prepared for going out there to teach math! And so I love that we’re having these conversations.

Dan Meyer (01:55):

What I love about today’s conversation is, one, it’s got a little bit of a technology flavor, so there’s that. But I also love, it’s got one of my favorite features about change, which is that it focuses on change to action, change to routine, rather than change to belief. Rather than saying like, “OK, everybody! Everybody stop thinking bad beliefs about math and transmitting them to your kids!” Instead, it says, “What we’ll do is just, hey, we’ll set that aside for a second and we’re gonna do a certain thing every day and watch as those actions make your beliefs change.” That to me is extremely cool. And I think it has a higher likelihood of success than just, like, me telling parents, “Hey, stop thinking these thoughts!”

Bethany Lockhart Johnson (02:37):

“Ready, set, stop being anxious!”

Dan Meyer (02:39):

Exactly. Exactly. So it’s an exciting conversation we’re gonna have here.

Bethany Lockhart Johnson (02:43):

Right. So it’s not a, you know, “wave the wand and all of a sudden, you’re not anxious about math anymore.” But these incremental changes, these incremental conversations, this validation, can really, really impact change. I’m with you on it, Dan. I hear what you’re saying.

Dan Meyer (03:01):

To help us talk through all of these ideas and more, we’re joined by Dr. Marjorie Schaeffer, Assistant Professor of Psychology at St. Mary’s College in Indiana.

Bethany Lockhart Johnson (03:10):

Enjoy. <Jaunty music> So, yes, Dan, we are so excited to welcome Marjorie Schaeffer. She’s Assistant Professor of Psychology at St. Mary’s College. Dr. Schaeffer, we’re so excited you’re here. Hello!

Marjorie Schaeffer (03:28):

Thank you so much for inviting me.

Dan Meyer (03:29):

Yeah. We are super-lucky to have had so many prolific and brilliant researchers about math anxiety on our show. You’ll be no exception. And every time, we love to find out about how you came to study math anxiety, which winds up being a really interesting glimpse into your backstory bio. So tell us, what is the route by which you came toward studying math anxiety?

Marjorie Schaeffer (03:51):

Oh, I love that question. I’m really interested in how the attitudes and beliefs of parents and teachers influence children, especially around math. And I actually became interested in this idea in college, when no Child Left Behind was actually first starting to be implemented in schools with high-stakes standardized testing. So much so that I actually did my thesis on this thinking about, “Do children understand the importance of high-stakes testing? Do they have anxiety around that idea?” And so that was really my first foray into the anxiety literature. And that was kind of the entry point into math anxiety for me.

Dan Meyer (04:28):

So you started by studying a very high-stakes assessment, like our students connecting with this. And the assessment is once per year. And classroom instruction is every day. So how did you move from the assessments to the everyday instruction?

Marjorie Schaeffer (04:44):

That’s a great question. So, after college, I actually taught kindergarten. And so from that, I saw the day-to-day impact of instruction and the day-to-day impact of children’s individual attitudes and beliefs. And so I really became interested in thinking about, “How do we understand why some children are really successful from the instruction happening in classrooms and why other children need a little bit more support?” And so math anxiety was one way for me to really think about the individual differences I saw in my kindergarten classroom.

Dan Meyer (05:18):

It feels like you headed … you went farther upstream, is what it feels like. Where assessment … there’s like some kind of anxiety around assessment, let’s say. And then you ventured farther up the stream to classroom instruction and then still farther into kids’ homes. It seems like your research invokes a lot of curiosity about the sources of a kind of amorphous, flowing phenomenon called math anxiety. And I’d love to hear a bit about what you know about how caregivers transfer, transmit — whatever the word is — math anxiety to their kids.

Marjorie Schaeffer (05:55):

For parents … we think that the attitudes and beliefs of parents matter. And we see that for lots of areas, not just math anxiety. But I think math anxiety, we see that really clearly. And so, we can think about it both in terms of what kind of input parents provide. So, how do families talk about math with their children? What kind of support do they provide around homework? And those are ones that I think are a little obvious. But we can also think about the offhanded comments that parents say to children when they’re talking about math generally. Right? So, we see lots of memes going around, talking about how hard math homework is. And so, I think when parents say offhanded comments like, “I’m not a math person,” or “We’re just bad at math,” that communicates values to children. I think the most important thing we know from literature right now is that high math-anxious parents, when they interact with their children, their children learn less math over the course of the school year. And this specific mechanism by which that happens is still an area for a lot of research. And so some people think it’s about input. So maybe if I’m math anxious, I’m avoiding math. And so, when I have an option to read a picture book that has math content, I focus on the colors instead. And so, my child is actually getting less math than other children. We can also think it’s about these messages that are provided. So, when I talk about math, I send the message to my child, it’s not for them, and therefore the child wants to engage in it less. And some of my work looks at things like expectations and values. So, thinking about, “Do math-anxious families actually value math less than other families unintentionally?” And so, we have some support for this idea that they expect less of their children. And so maybe when they struggle, they respond in different ways than a family who’s lower in math anxiety.

Bethany Lockhart Johnson (07:53):

This is so fascinating to me. I also was a kindergarten teacher. And I remember a mom who just … she had such like palpable math anxiety. And during one of our conversations, she was talking about these homework sessions with her daughter. And I may have mentioned this on the podcast before. But she was talking about how every night they would sit together and they would do all this math. They’d do, like, extra math together. And it always ended in tears. And despite her math anxiety, she didn’t want her daughter to experience the math anxiety that she did. So she was trying to pile it on, so her daughter was more proficient and comfortable. And instead, it was perpetuating this anxiety about it. And so, it’s a phenomenon then, right? Even if a parent is saying, like you said, maybe completely unwilling, this mother was actually trying to do the opposite. She was trying to help, you know, imbue the love and comfort with math. Right?

Marjorie Schaeffer (09:01):

Absolutely. This is why I think in my research, it’s really important that we find low-stakes, low-stress ways for high math-anxious families to do math. They absolutely can support their children in doing math. But they need a little support. We want it to be a fun, low-stakes environment, right? So maybe that’s the connection back to high-stakes testing, that I want children to have fun math experiences.

Dan Meyer (09:28):

Yeah. This is challenging, because it feels like the more caregivers know about math anxiety, and its pernicious effects on students, and how easily transmitted it is, one could become quite anxious about math anxiety. And, you know, no one makes great decisions when they’re anxious. So if I’m recalling our various episodes we’ve done, we’ve heard from people say, “Well, you need to validate students’ math anxiety. This is not something to just ignore or brush past. But also, not validate it in a way that says, you know, ‘This is OK and generational and inevitable.’” Which presents parents with a very thin path to follow, it seems like. So I love what you’re saying about how we gotta just de-stress the whole process.

Bethany Lockhart Johnson (10:11):

You’re avoiding the whole, “I wasn’t a math person either” kind of thing. <laugh>

Dan Meyer (10:15):

Right, right, right. Yeah. So I’d love to know more. We’re excited about the technology that you have studied and helped develop, presumably, called Bedtime Math, anapp for caregivers. And I’d love to know more about what that is and what it offers parents who know enough about math to know that they don’t want to transmit math anxiety to their children, but also want to support. So what does that offer them?

Marjorie Schaeffer (10:39):

So Bedtime Math is an app. It’s freely available on iTunes or the Apple Store or Google Play. And what it’s designed to do is to provide a nightly topical passage. So one of my favorites is the one about Groundhogs Day. And so it talks a little bit about the history of Groundhogs Day, and then it asks math-related follow-up questions. So starting at a preschool level, going through late fifth grade. And it’s really meant for parents to pick the one that meets their children where they are. And so the preschool-level question asks children to pretend to be a groundhog and walk to the left and walk to the right. So a skill that families might not think about as being math, but we actually think that IS part of understanding math. Understanding left and right directionality. And then the next question can ask questions like, “If it took the groundhog three seconds to climb out of the hole, and then two more seconds to see its shadow, how much time did it take all together?” So a simple addition problem, but it’s phrased in a fun way. And so the hope is that for high math-anxious families, these interactions are fun and playful. They don’t look like fights over homework. They’re just conversations that families can have around topics that are naturally interesting to children. And our hope is that when families have lots of these positive low-stakes interactions, they actually can see that we can talk about math in unstressful ways. In lots of ways, right? We can also do this at the grocery store. We can also do this while we’re cooking in the kitchen. It doesn’t just have to be fights over homework.

Bethany Lockhart Johnson (12:14):

And I actually have the Bedtime Math — one of the Bedtime Math books. And I was so excited to find out that there’s an app. And I think one of the things that I loved about the book is that these are invitations, right? They’re exactly that. Low pressure <laugh>, and they’re invitations to have a conversation. And if we were just to tell parents, “Oh, just count!” or, “Hey, just count wherever you go!” You know? No. It’s, in a way, I think, like you said, it’s retraining the parents on what math could look like. Like, “Oh, I didn’t even think we could just kind of have this conversation and we’re actually doing math together.”

Marjorie Schaeffer (12:55):

Yes, absolutely. I absolutely agree. We want it to be fun and playful and not stressful. And we want it to also be things that are meaningful to children’s lives. So these are topics children are interested in. It’s not that we are using flashcards or making children practice math facts over and over again. These are things children should wanna do that can naturally fit into a child’s routine. So almost all families read books before bed, and what we hope is that math can also be a part of the nighttime routine.

Dan Meyer (13:27):

There’s something really subtle here going on that I just wanna name and ask a question about. First of all, it’s cool that you started with studying high-stakes stuff and now you are developing low-stakes stuff. And I’m really curious what makes a thing low-stakes? Like, a few things I’m hearing from you is that there’s, like … I have a small child that I read literature to on a nightly basis. And I feel very anxiety-free doing that. And it’s almost as though, because each of the — tasks is the wrong word for this, but experiences — involve some reading, it puts me, the parent, in a mode that is comfortable and familiar to me. I’m curious: Are there other, as you design, what, one per day for a year? All these different experiences. What are some of the principles that you lean on that help make a thing low-stakes for kids and for parents?

Marjorie Schaeffer (14:17):

Yeah, that’s a great question. So one thing we wanted to be really intentional about is that our app doesn’t look like a lot of traditional apps. There isn’t noises that go off. You don’t enter an answer. And so one of the things that we thought made it low-stakes is that while there is a right or wrong answer — there is a correct answer — we aren’t giving children upsetting feedback. Instead, what we wanna encourage families to do is, if you struggle to remember how many seconds it took the groundhog to come out of the hole, you can work through that with a parent. So it doesn’t feel like you’re getting negative feedback; you’re being told you’re bad at math; you did it wrong. Instead, you’re just getting natural support moving forward. And so that’s one thing we wanted to be really intentional about, was that it wasn’t going to be a negative experience for children. And we are trying to build on all of the positive interactions families are having around nightly book reading. So many ways this can look very similar. You get to read another story that’s topical and hopefully interesting. And then do these little questions together. And so for a lot of families, their children don’t actually really look at the question. It almost feels like the parent is just asking them on their own. Like, they just came up with it. They just wanted to know what would happen to the groundhog. If there were three more groundhogs? How many groundhogs would we have all together? Not like it’s gonna be like homework or other parts.

Dan Meyer (15:38):

So my understanding is that there isn’t a blank into which people type a number in, press “submit” for evaluation, receive the red X, the green check. That’s a key part of the design here.

Marjorie Schaeffer (15:50):

Yes, absolutely. And for research purposes, we would’ve loved to know what families were saying. But we think it’s really important that it’s fun, interactive, that families are working together to get to the right answer, that it’s not a test for children.

Bethany Lockhart Johnson (16:03):

In your research, when you were — maybe you could walk us through the study a little bit. But I’m also curious if you heard from parents that it was carrying over beyond the bedtime routine. Because I would imagine, if I am building these skills and reading these questions and learning that I could talk to my kid like this about math in a fun way, that’s gonna happen then, like you said, when I’m in the grocery store. Or when I’m waiting in line for at the bank. Or whatever, you know? People go into banks now still, right?

Marjorie Schaeffer (16:35):

Yeah, absolutely. So in our study, we recruited almost 600 families and we randomly assigned them. So they had an equal chance of getting both our math app and what we call our control app. And that’s really just a math app without the math. We think of it as a reading control app. And that’s because we wanna make sure that families are having a similar experience, that it’s not just that having high-quality, fun interactions with your child is actually impacting children’s math achievement. And so what we then did is followed those children over the course of early elementary school. And so we worked with them in schools in the fall and spring of first, second, and third grade, really to look at their math learning. And so what we find is that children of high math-anxious adults, when they have the reading app, so what we think of as what’s happening in the real world, we see that really classic gap between children of high math-anxious adults and children of low math-anxious adults. So if you have a high math-anxious parent, you’re learning about three months less math over the course of first grade. But for children who receive this math app, we see this gap as closed. Those children look no different than a low math-anxious parent. And so that’s leading us to think that we’ve helped families talk about math in fundamentally different ways. We did a little bit of just talking to families to see a little bit about what might be going on. And a lot of families do report exactly what you’re describing, where they say this did help them talk about math in different ways they were doing it other times.

Dan Meyer (18:10):

That’s a really extraordinary study design. I don’t know … I love that you folks gave the control group not nothing. Like it’s possible that just parents and kids bonding over a thing regularly would be enough to provoke some kind of academic gain. But you gave the control group a thing that had them interacting socially, bonding, and still this large common gap between high-anxious and low-anxious parents, their kids shrunk together. Is that what I’m gathering here?

Marjorie Schaeffer (18:41):

Yeah, absolutely. So we’re basically seeing we can no longer, when we look at children’s data, say that parents’ math anxiety explains individual differences. So these children look really similar. They’re learning more than children who has a high math-anxious parent and just got our reading control app.

Dan Meyer (19:01):

just diving into the study a little bit more here, what is the time commitment? Or, did you guide parents to say, “All right, we’re gonna do this do this delightful story about a badger for an hour”? Or did people do it for five minutes? And what was the time commitment, roughly, for people?

Marjorie Schaeffer (19:17):

So we tell families to do it however they see fit. Because it is an app, we are able to get some sense of how long, and we are talking about three to six minutes for many families. For a lot of families, they’re reading a paragraph, the paragraph and a half, and then answering one or two questions. They’re not going through every possible question. They’re just doing a little bit, really meeting their kids where they are.

Dan Meyer (19:39):

Roughly how many times per week was that?

Marjorie Schaeffer (19:41):

So we asked families to do it as much as it fit. But we’re seeing about two and a half on average in the first year. And so families are fitting it in a couple of nights a week. It’s not every night.

Bethany Lockhart Johnson (19:52):

So what it sounds like you’re saying is what really was powerful about this app is that it was the space and time and prompts between the caregiver and the child, that chance to really sit down and have some of these meaningful and positive math interactions. How did it shift those relationships?

Marjorie Schaeffer (20:12):

So one of the things I think that makes the app effective is the changing of expectations. After a year, families are really using the app a lot less. And I think that’s OK, that they have found other ways to incorporate math into their lives. And we find that we don’t see an impact on their math anxiety, that they aren’t becoming less math anxious from this experience. Which I think makes sense, because they have had a lifetime of math anxiety. But we do see a change in parents’ expectations and value of math. So they expect their children will be better at math, and they also report that math is more important in their children’s lives. And so I think that’s an important part of it, which is, we can change these values for families, even if we aren’t able to change the math anxiety of the adults in children’s lives.

Bethany Lockhart Johnson (21:01):

I want to for a second before — because I’m loving this idea of the app, and I’m excited to find out more ways to cultivate these conversations in my home and also share this with other folks. Because even folks who don’t even maybe realize they have math anxiety … like you said, so often it’s unconscious. So often we’re putting these little snippets into our everyday conversation, like, “Oh yeah, I’m not a math person.” And we don’t even realize how much is impacting our kiddos and ourselves, right? So I am really curious: What do you think … in your research, what were some other takeaways that you feel like are really strategies that we can think about for combating math anxiety in general?

Marjorie Schaeffer (21:47):

So I’m particularly interested in thinking about how math-anxious adults can help tone down their anxiety so that they can have high-quality interactions with their children, that they interact with. And so one of the big takeaways for my research, I think, is that math-anxious families can help their children with math. They just need support. And so I think there are lots of ways for that support to look like. One, I think it can be an app, but I also think reading a little bit about math can be really helpful. So it’s not new. So the first time you aren’t thinking about some of these ideas is as your child has their homework open in front of you. And so you can process your own feelings separately before you have to do it with a child. I also think reminding parents that math is everywhere and that math is actually lots of things that we all love to do. Math isn’t just calculus. Not that calculus isn’t wonderful. But that math is measuring, math is counting ducks at the park. Math is talking about how many times did I go down this slide. And talking about math in this way, I think reminds families that they are great at that. That even if maybe they’ve had bad math experiences before, they can do math. Especially the way their preschool or early childhood, early elementary school student needs them to. And I think that can then set the foundation for being really successful later.

Dan Meyer (23:13):

So is your research then, your subsequent studies, your line of inquiry, is moving more towards how to support parents, then? Is that what I’m hearing?

Marjorie Schaeffer (23:22):

Yeah. So I’m really interested in both understanding how the math anxiety of parents and teachers influences children. And so math anxiety is really common and we know that it’s particularly common in early elementary school teachers. And so it’s very likely that children are interacting with a highly math-anxious adult. And so I’m really interested in thinking about how we can support those individuals in doing it. And so both, I think, things like Bedtime Math, which provide fun, unscripted ways to do that, but I’m also interested in the teacher equivalent. So, thinking about whether having things like a math coach can help teachers have more positive experiences with math. So if you see someone else play math games with your students, can that help you do it as well?

Dan Meyer (24:09):

It makes me wonder a lot about an app for teachers or an app for parents, one that’s not designed to be co-consumed with kids and their parents. But what that would look like … yeah, that’s really interesting.

Bethany Lockhart Johnson (24:21):

If we have a parent who, let’s say they have a third grader, fourth grader, fifth grader, or a middle schooler, right? Outside of early education. And they say, “OK, but what do I do? I’m with my kiddo; I don’t remember this math.” And they’re realizing that their anxiety may be influencing their kiddos’ disposition of mathematics, Or maybe they’re just in the midst of the battle <laugh>. What would you say to those folks, especially if it’s math that maybe they’re not comfortable with?

Marjorie Schaeffer (24:56):

One, I think we should like tone down the stress, right? Remind ourselves that it’s homework and homework feels really high-stakes, but these other outcomes are really high-stakes too, right? And so I’m really interested in the idea that can we help parents feel more comfortable about math by watching their own children teach it to them. So what’s a concept that the fourth grader actually feels really good about? And can they remind their parent how to do it? Can, together, they problem-solve the math homework? And so it’s not just on the parent to give the child the right answer. We know that’s a recipe for communicating some negative things about math. But instead, help the parent-child pair figure it out together. So what are some resources we can do? Can we look it up on the internet together? Can we write an email to the teacher together? Can we think about what are other problems that maybe we know how to do, and therefore we can use that same model here? So I want parents to feel like they are not solely responsible for it. That they can help figure it out with their child together. And so it’s a fun interaction.

Bethany Lockhart Johnson (26:02):

I love that. I love that.

Dan Meyer (26:03):

Yeah. Yeah. That’s wonderful. Yeah. A conviction that I have, and I think it’s true, is that any math that we’re learning at middle school, the attraction can be dialed down to a degree that a very small child, or a parent who has a very small child’s understanding of math, can appreciate. So instead of calculation, estimation. Instead of proof, just make a claim about something. And it makes me wonder about a companion to the work that’s happening in schools that parents feel inadequate to support, that students might not want to teach their parents. But which they could both, on a daily basis, say, “Here’s a way we can engage in this at a level that is comfortable to both of us.” Just dreaming out loud here. No question asked. No response needed. I just love your work. And made me wonder about that. Can you let me know your thoughts about technology? It is very rare that we have someone on the call who is an academic and very well-versed in research, but who also is published not just in in papers and textbooks, but also in digital media. It’s consumed by lots of people. So I am trusting that you have opinions about how math looks in technology. And I wonder if you’d offer some thoughts about how it goes, right? How it goes wrong from your own eyes.

Marjorie Schaeffer (27:14):

OK. That’s a great question. I think that we need more research. I first wanna say that I think that technology has really exploded in the last few years. How children have access to technology and screen times has really changed. And what we need is high-quality research happening. That said, I think that all of the things we know from child-development research still apply to technology. And so we know that children learn best when they are engaging in interactions with their parents. And so when families can use technology together, or at least can talk about what’s happening, it can be really effective. I also think technology, especially math apps, are best at teaching concrete skills with very clear answers. So I think practicing math facts is a great use of technology. So I love that Sushi math app where you solve multiplication problems and then get to quickly pull the sushi off the cart, right? But for higher-level questions, where we’re thinking about word problems or where what we’re helping to teach students is complex thinking, apps have a harder time doing that. Because students can often figure out the answer without engaging in the thinking that we are hoping that they’ll learn. And so I think technology absolutely has a piece. I think technology is helpful for parents. I think the logistics of helping parents live their lives is a good reason to use technology. But I think we need to be conscious of what it’s replacing. And so I think a world in which we think fourth graders can learn math only from apps is not realistic. But absolutely apps can be a great supplement to what’s already happening in the classroom.

Dan Meyer (28:56):

Yeah, that’s super-helpful. We have done a lot of work in digital curriculum here at Amplify, and often face the question on a daily basis, “Should this math be digital or on paper? Should we have the students stand up and talk or type something?” And those decisions are way too crucial and way more sensitive than a lot of the app-based education gives credit to. So appreciate your perspective there.

Marjorie Schaeffer (29:22):

OK. And I don’t think there’s one answer, or one answer for all classrooms. I think it’s like always a balancing act. I do think that one of the reasons our work is successful is because the parent-child interaction. And we want parents to learn from these experiences. And I think the same thing is true for for teachers.

Bethany Lockhart Johnson (29:41):

Dr. Schaeffer, thank you so much for being with us today and for sharing about your research, and again, for inviting us to reconsider ways that we can develop a more positive relationship with math. And that parent or caregiver or teacher relationship with a child, we’re seeing just how incredibly impactful that is. And I really appreciate your work and your voice on this. Thank you so much for your time.

Dan Meyer (30:07):

Thank you.

Marjorie Schaeffer (30:08):

Thank you for having me.

Bethany Lockhart Johnson (30:12):

Thank you again, Dr. Schaeffer, and thank you all for listening to our conversation. You can check out the show notes for more on Dr. Schaeffer’s work and to see a link to the app that we shared about Bedtime Math.

Dan Meyer (30:25):

Please keep in touch with us on Facebook at Math Teacher Lounge Community, and on Twitter at MTLShow.

Bethany Lockhart Johnson (30:32):

We would love to hear … you’ve been listening to this series; we’re dipping our toe into all these aspects of math anxiety. Is there something that you’re still wondering about? Something you wanna share about your own story with math anxiety?

Dan Meyer (30:43):

And if you haven’t already, if this is your first exposure to the Math Teacher Lounge podcast, please subscribe to Math Teacher Lounge, wherever you get your fine podcast products. And if you like what you’re hearing, please rate us! Leave us a review. You’ll help more listeners find the show.

Bethany Lockhart Johnson (31:01):

And let a friend know. But you know, it’s, it’s nice and cozy here in the Lounge, right? There’s no pressure. We’re hanging out. It’s all about learning. We’re learning together. We’re glad you’re here and we want others in your community to join us in the Lounge as well. You can find more information on all of Amplify’s shows at our podcast hub. Go to amplifycom.wpengine.com/hub. Next time on Math Teacher Lounge, we’re gonna be chatting about where we are today that we weren’t a few months ago in this topic.

Dan Meyer (31:31):

We’ll be chatting about this last series about math anxiety, and trading our favorite insights and observations from the run of the season.

Bethany Lockhart Johnson (31:41):

I just love this series, Dan. And thanks, all, for listening. We really appreciate having you in the Lounge.

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What Marjorie Schaeffer says about math

“We want it to be a fun, low-stakes environment, especially in high-stakes scenarios like testing. We want children to have fun math experiences.”

– Marjorie Schaeffer

Assistant Professor of Psychology at Saint Mary’s College

Meet the guest

Marjorie Schaeffer is an assistant professor of psychological sciences at Saint Mary’s College. She received her Ph.D in developmental psychology from the University of Chicago. Marjorie is interested in the role parents and teachers play in the development of children’s math attitudes and performance. She is specifically interested in the impact of expectations and anxiety and on children’s academic performance. Her work has been published in outlets including ScienceJournal of Experimental Psychology: General, and Developmental Science.

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About Math Teacher Lounge

Math Teacher Lounge is a biweekly podcast created specifically for K–12 math educators. In each episode co-hosts Bethany Lockhart Johnson (@lockhartedu) and Dan Meyer (@ddmeyer) chat with guests, taking a deep dive into the math and educational topics you care about.

Join the Math Teacher Lounge Facebook group to continue the conversation, view exclusive content, interact with fellow educators, participate in giveaways, and more!

You might also like:

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Math Teacher Lounge study guides

Track the tips and strategies you’re hearing with the MTL study guide!

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Free professional learning for math…

Join these live webinars to find tips and practices for enriching math instructi…

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Desmos Math 6–8 receives perfect sc…

Learn more about Desmos Math 6–8 green rating from EdReports!

See what math that motivates looks like.

In Amplify Desmos Math, a structured approach to problem-based learning builds on students’ curiosity while strategically developing math fluency and lasting grade-level understanding.

This video library will give you a sense of what Amplify Desmos Math looks like in the classroom.

See it in action
Two girls sit at a table with open books, one making hand gestures while smiling, the other looking at her and giving a thumbs up. Behind them are shelves filled with books, capturing the lively atmosphere of a math classroom.

Amplify Desmos Math in Action (K–5)

See the teachable structure in action with these videos showing a typical Amplify Desmos Math lesson. View print resources and try this lesson for free: Grade 3, Unit 2, Lesson 5: Rectangles and Arrays. In this lesson, students describe how the areas of rectangles are alike or different.

Warm-Up

Every Amplify Desmos Math lesson begins with a whole-class Warm-Up, an invitational Instructional Routine intended to provide a social moment at the start of the lesson in which every student has an opportunity to contribute. Some Warm-Ups build fluency or highlight a strategy that may be helpful in the current lesson. Other Warm-Ups act as an invitation into the math of the lesson. The Warm-Up for the first lesson of each unit introduces the Unit Story for the Unit.

Launch

The launch is a short, whole-class conversation that creates a need or excitement, provides clarity, or helps students connect to their prior knowledge or personal experience, which ensures that everyone has access to the upcoming work.

Monitor

As students work individually, in pairs, or in groups, teachers explore student thinking, ask questions, and provide support to help move the conversations closer to the intended math learning goal.

Connect

Teachers connect students’ ideas to the key learning goals of the lesson, facilitating class discussions that help students synthesize and solidify the big ideas.

Synthesis

Teachers ensure that students end the lesson with accurate and enduring understandings of the math goal through a synthesis of student ideas, explicit instruction, and reflection.

Show What You Know

Each lesson has a daily formative assessment focused on one of the key concepts in the lesson. Show What You Know moments are carefully designed to minimize the time students take to complete while maximizing the insight the teacher receives on a daily basis to attend to student needs during the following class.

Explore digital samples

Amplify Desmos Math in Action (6–A1)

See the teachable structure in action with these videos showing a typical Amplify Desmos Math lesson. View print resources and try this lesson for free: Grade 7, Unit 2, Lesson 9: Gallon Challenge. In this lesson, students use graphs to identify constants of proportionality.

Warm-Up

Every Amplify Desmos Math lesson begins with a whole-class Warm-Up, an invitational Instructional Routine intended to provide a social moment at the start of the lesson in which every student has an opportunity to contribute. Some Warm-Ups build fluency or highlight a strategy that may be helpful in the current lesson. Other Warm-Ups act as an invitation into the math of the lesson. The Warm-Up for the first lesson of each unit introduces the Unit Story for the Unit.

Launch

The launch is a short, whole-class conversation that creates a need or excitement, provides clarity, or helps students connect to their prior knowledge or personal experience, which ensures that everyone has access to the upcoming work.

Monitor

As students work individually, in pairs, or in groups, teachers explore student thinking, ask questions, and provide support to help move the conversations closer to the intended math learning goal.

Connect

Teachers connect students’ ideas to the key learning goals of the lesson, facilitating class discussions that help students synthesize and solidify the big ideas.

Synthesis

Teachers ensure that students end the lesson with accurate and enduring understandings of the math goal through a synthesis of student ideas, explicit instruction, and reflection.

Show What You Know

Each lesson has a daily formative assessment focused on one of the key concepts in the lesson. Show What You Know moments are carefully designed to minimize the time students take to complete while maximizing the insight the teacher receives on a daily basis to attend to student needs during the following class.

Explore digital samples

Hear from teachers.

Hear from teachers, administrators, and students across the country who are using Amplify Desmos Math in their classrooms right now.

View success stories
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What’s included in our Spanish language arts curriculum

Amplify Core Knowledge Language Arts® (CKLA) is available in both English and Spanish. Amplify Caminos al Conocimiento Esencial, our robust Spanish language arts companion for grades K–5, supports multiple teaching models, including dual language immersion and transitional classrooms.

A laptop screen displays a kindergarten instructional webpage in Spanish, showing lesson categories with illustrated thumbnails and navigation options.

Year at a glance

The program’s intentional Knowledge Sequence from K–5 connects knowledge and vocabulary within a grade level and across grade levels, for deeper reading comprehension and preparation for college, career, and life. Instead of “activating prior knowledge,” Amplify Caminos helps you build it in the classroom from day one, for every child, expanding each student’s knowledge base long before they transition to reading to learn.

Curriculum flowchart showing reading themes and activities from Kindergarten to Grade 5, organized by grade level and literary theme, with interconnected boxes for each topic.

Units & domains at a glance

Each Knowledge Domain in grades K–2 and Unit in grades 3–5 varies in the number of days based on instructional purpose. Just as with our top-rated Amplify CKLA program, the Amplify Caminos materials engage and delight young learners with resources that are both appealing and original.

Una mujer rubia con un vestido azul cuida ovejas blancas y negras, sosteniendo un bastón de pastor. Un cerdo vestido de azul corre y un hombre de negro toca el violín en una valla. Al fondo hay una casa.

Domain

Nursery Rhymes and Fables/Rimas y fábulas infantiles

Start learning about literature with these classic Mother Goose rhymes.

Ilustración de tres personas en un paisaje cubierto de hierba, una tratando de atrapar mariposas con una red, otra escondiéndose detrás de una escultura alta y frondosa de una mano y otra con binoculares.

Domain

The Five Senses/Los cinco sentidos

Learning about the body starts with learning about how we experience the world.

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

Domain

Stories/Cuentos

Learn about the parts of a book and some of the stories that go in one.

Una ilustración vibrante de una escena rural con colinas, una granja, una mariposa, un sol brillante, varias verduras como tomates y lechugas, y un gusano en el suelo.

Domain

Plants/Plantas

Discover the lifecycle of plants and the history of George Washington Carver.

Ilustración de una escena de granja que muestra un camión rojo que transporta verduras, campos de cultivo, vacas pastando en una colina, un granero y un molino de viento contra un cielo azul.

Domain

Farms/Granjas

Now we know how plants make their food… but what about animals?

Ilustración de un nativo remando en una canoa en un río con búfalos pastando en un campo, tipis al fondo y pájaros volando en el cielo bajo un sol brillante.

Domain

Native Americans/Los nativos americanos

Who were the first people in America? A look at the Lenape, Wampanoag, and Lakota Sioux.

Una ilustración muestra un rey y una reina en tronos, un castillo en un acantilado y una mujer con enanos cerca de un árbol. Cortinas rojas enmarcan la escena.

Domain

Kings and Queens/Reyes y reinas

To understand fairy tales, it’s best to first understand royalty.

Ilustración que muestra las cuatro estaciones: primavera con flores, verano con árboles verdes, otoño con hojas que caen e invierno con nieve y gente en trineo. Un niño lee debajo de un árbol.

Domain

Seasons and Weather/Las estaciones y el tiempo

The study of natural cycles continues with the weather and why it happens.

Un velero de madera con símbolos de cruz roja en sus velas navega cerca de una isla tropical con exuberante vegetación y palmeras. A lo lejos se ven otros dos barcos en el agua.

Domain

Columbus and the Pilgrims/Colón y los peregrinos

A look at the first contact between Europe and the Americas, and some of its results.

Una escena histórica muestra gente afuera de una gran mansión de estilo colonial con dos chimeneas. En primer plano se ve un carruaje tirado por caballos y a la izquierda se ve una casa más pequeña.

Domain

Colonial Towns and Townspeople/Las colonias y sus habitantes

Before the War for Independence, how did the town and country depend on one another?

Ilustración de personas clasificando materiales reciclables en un parque cerca de un río contaminado. Las fábricas emiten humo al fondo, mientras que las mariposas, las flores y los árboles están presentes en el primer plano.

Domain

Taking Care of the Earth/Cuidar el planeta Tierra

We only have one Earth—here are some ways to help care for it.

Ilustración del Monte Rushmore con los rostros tallados de cuatro presidentes de Estados Unidos. Un águila vuela en primer plano.

Domain

Presidents and American Symbols/Presidentes y símbolos de los Estados Unidos

Start learning about government through the lives of five presidents.

Una ilustración caprichosa que muestra animales de granja alrededor de una casa en un árbol junto a un río. Un zorro, un conejo y una oveja interactúan mientras la gente acampa junto a una fogata al fondo. Una araña cuelga del árbol.

Domain

Fables and Stories/Fábulas y cuentos

Learn some of the key elements of a story through classic fables.

Ilustración que presenta anatomía humana, actividades de estilo de vida saludable, profesionales médicos, símbolos dietéticos, una ambulancia y microorganismos, destacando la conexión entre salud, nutrición y ejercicio.

Domain

The Human Body/El cuerpo humano

What are germs? What are the organs? And what does it all have to do with health?

Una ilustración que presenta varias escenas de cuentos de hadas y folclore, incluida una calabaza grande, un tigre, Caperucita Roja, personas con atuendos tradicionales y una pagoda roja con una montaña de fondo.

Domain

Different Lands, Similar Stories/Tierras diferentes, cuentos similares

A world tour of storytelling, and the stories that stay the same across the world.

Ilustración que muestra el antiguo Egipto con pirámides, la Esfinge, agricultores arando un campo con bueyes y ganado pastando bajo un cielo soleado.

Domain

Early World Civilizations/Antiguas civilizaciones del mundo

Rivers, farming, writing, and laws: just what does it take to build a civilization?

Escena ilustrada de la antigua Mesoamérica con maíz, un río, agricultores y pirámides al fondo. En primer plano se ve a una persona con traje tradicional.

Domain

Early American Civilizations/Antiguas civilizaciones de América

What will we find in the great temples of the Aztec, Maya, and Inca civilizations?

Ilustración de la exploración espacial: se lanza un cohete, un astronauta se para cerca de un módulo de aterrizaje, una persona usa un telescopio y aparece un planeta distante con anillos sobre un fondo estrellado.

Domain

Astronomy/Astronomía

How the Earth relates to the moon, the sun, and the rest of the planets.

Dos paleontólogos en un paisaje volcánico examinan fósiles en primer plano, mientras un volcán emite humo y lava al fondo.

Domain

The History of the Earth/La historia de la Tierra

Just what lies beneath the Earth’s surface, and what can it teach us about the past?

Una escena de vida silvestre diversa que presenta un cactus del desierto con un pájaro, un conejo, elefantes, un león, un oso polar sobre el hielo y montañas distantes bajo un cielo nublado.

Domain

Animals and Habitats/Los animales y sus hábitats

A look at the connection between how animals live and where they make their homes.

Una princesa con un vestido rosa sostiene una rana junto a un arroyo con un castillo, árboles y gente al fondo. En primer plano camina un zorro con un sombrero con una pluma roja.

Domain

Fairy Tales/Cuentos de hadas

What do fairy tales have to teach us about how stories are told?

Ilustración que muestra una escena histórica con soldados, veleros y hombres con atuendo colonial discutiendo en el interior.

Domain

A New Nation: American Independence/Una nueva nación: la independencia de los Estados Unidos

The story of the birth of the United States out of the 13 Colonies.

Los pioneros con carros cubiertos y caballos señalan hacia un valle con tipis nativos, fogatas y humo elevándose. Un oso se encuentra sobre una roca y se ven montañas al fondo.

Domain

Frontier Explorers/Exploradores de la Frontera

The story of the journey west from the newborn U.S.A. to find the Pacific Ocean.

Un hombre con un hacha se encuentra entre paisajes exagerados con un castillo, un tren con humo, un buey azul y una persona con un mono observando la escena.

Domain

Fairy Tales and Tall Tales/Cuentos de hadas y cuentos exagerados

Learn about exaggeration and characterization on the frontier.

Ilustración de un paisaje vibrante que presenta diversos monumentos culturales, incluidos templos, palacios, pirámides, una escena de elefantes, montañas distantes y fuegos artificiales en el cielo.

Domain

Early Asian Civilizations/Antiguas civilizaciones de Asia

Tour the world of classical civilization, starting with India and China.

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

Domain

Ancient Greek Civilization/La civilización griega antigua

The tour continues with the philosophy and politics of Greece.

Illustration of various mythological scenes including greek gods, a flying horse, and roman architecture under a sunny sky.

Domain

Greek Myths/Mitos griegos

Dive deep into the characters and storytelling of classic myths.

Ilustración de una batalla entre barcos británicos y estadounidenses cerca de un fuerte. El barco británico está a la izquierda con soldados, mientras que el barco estadounidense está a la derecha. La gente porta una gran bandera estadounidense en primer plano.

Domain

The War of 1812/La guerra de 1812

Learn about America’s “Second War for Independence.”

Un paisaje nevado con un zorro durmiendo en una madriguera, gente corriendo y andando en bicicleta por un sendero y árboles que muestran los cambios estacionales.

Domain

Cycles in Nature/Los ciclos de la naturaleza

Introducing the natural cycles that make our lives possible.

Ilustración de carros cubiertos tirados por caballos a lo largo de un sendero en el desierto, con un coyote aullando sobre una alta formación rocosa y un tren de vapor al fondo.

Domain

Westward Expansion/La expansión hacia el oeste

Why did pioneers go west? What happened to the people who were there?

Ilustración de un jardín vibrante con flores, abejas, mariposas, una oruga en una hoja, una crisálida y un apicultor que maneja una colmena junto a un estanque.

Domain

Insects/Los insectos

Lay the grounds for animal classification by looking at solitary and social insects.

Ilustración de una escena histórica con gente escuchando el discurso de un hombre en una plataforma. Al fondo se ve un río y una procesión de personas. En primer plano hay un documento de proclamación.

Domain

The U.S. Civil War/La Guerra Civil de los Estados Unidos

Begin to grapple with U.S. history’s central crisis over slavery.

Una escena en la que aparece una persona explicando un diagrama anatómico humano, otra persona haciendo ejercicio, una cadena de ADN, campos y un microscopio de fondo.

Domain

Human Body: Building Blocks and Nutrition/El cuerpo humano: componentes básicos y nutrición

A deeper dive into the digestive system and the nutrition process.

Un grupo diverso de personas se encuentra en un muelle con vistas a un bullicioso puerto con barcos y un gran barco, un avión volando por encima y la Estatua de la Libertad al fondo.

Domain

Immigration/La inmigración

Why did people immigrate to the United States, and what did they find here?

Women in early 20th-century clothing march with signs for voting rights and justice in front of a yellow bus labeled "Cleveland Ave.," making history that can inspire lessons in a K–2 language arts curriculum.

Domain

Fighting for a Cause/Luchar por una causa

How people can do extraordinary things to make the world better for everyone.

Dos ratones antropomórficos en un bote de remos, uno de ellos remando, navegan por un río tranquilo rodeado de exuberante vegetación y árboles. El ratón que rema lleva una chaqueta azul y el otro ratón parece conversar.

Unit 1

Classic Tales: The Wind in the Willows/Cuentos Clásicos: El viento en los sauces

A deep dive into character, theme, and POV in classic stories from around the world.

Ilustración de un jaguar, una garza, una rana roja, una tortuga y un pez en un paisaje vibrante con montañas y vegetación bajo un cielo soleado.

Unit 2

Animal Classification/La clasificación de los animales

How do we classify different animals by their appearance and behavior?

Ilustración de una figura humana que muestra la anatomía interna, incluidos el cerebro, los pulmones, el corazón, el sistema digestivo y una articulación de la cadera resaltada sobre un fondo degradado.

Unit 3

The Human Body: Systems and Senses/El cuerpo humano: sistemas y sentidos

Let’s take a closer look at how the skeleton, muscles, and nervous system all work.

Un ángel se arrodilla ante una mujer sentada en un sofá dorado encima de un templo en una noche estrellada. Unas escaleras conducen al templo en un paisaje montañoso.

Unit 4

The Ancient Roman Civilization/La civilización romana antigua

What is Rome’s greatest cultural contribution? In this unit, your students decide.

Ilustración de un perro saltando bajo un árbol, persiguiendo una abeja, con una mesa en primer plano sosteniendo una jarra y vasos de limonada. El sol brilla intensamente en el cielo.

Unit 5

Light and Sound/La luz y el sonido

The science behind all the ways we see and hear the world.

Un barco vikingo con una proa en forma de dragón navega en el océano bajo un cielo azul con nubes. El barco tiene una sola vela grande y varios escudos recubren sus costados.

Unit 6

The Viking Age/La era vikinga

An immersive narrative experience about what life was like in Viking communities.

Ilustración de una escena espacial con varios planetas y anillos sobre un fondo de estrellas. Dos planetas grandes dominan el primer plano y se ven planetas más pequeños al fondo.

Unit 7

Astronomy: Our Solar System and Beyond/Astronomía: nuestro sistema solar y más allá

More about our universe, including a writing project about daily life on a space station.

Una persona sentada en el borde de un acantilado con vistas a un vasto paisaje desértico con nubes arremolinadas en el cielo.

Unit 8

Native Americans: Regions and Cultures/Los nativos americanos: regiones y culturas

How did Native American nations change their way of life in different parts of the world?

Ilustración de un velero en el océano con la costa este de América del Norte visible a la izquierda.

Unit 9

Early Explorations of North America/La exploración europea de América del Norte

What was it like to sail to North America with the early European explorers?

Una pintura representa una escena del siglo XVII con colonos, un velero al fondo y un hombre conduciendo un carro tirado por caballos cargado de mercancías. Se ve a otras personas descargando y trabajando cerca.

Unit 10

Colonial America/La época colonial en los Estados Unidos

A study of the very different ways of life in the different pre-U.S. colonies.

Ilustración que muestra el ciclo de la vida: un esqueleto en el suelo, un pájaro posado en una cerca, otro pájaro en una planta y un ave rapaz más grande arriba, todos conectados por flechas circulares.

Unit 11

Ecology/Ecología

Students keep ecologist’s journals to learn about our world and how best to protect it.

Una mano alcanza una manzana verde en una rama. Cerca hay una brújula, un termómetro, un lápiz, notas musicales y un granero rojo sobre un paisaje cubierto de hierba.

Unit 1

Personal Narratives/Narrativas personales

Read stories of personal experience… and learn to reflect on your own.

Ilustración medieval que representa un grupo de figuras con armadura a la entrada de un alto castillo gris con puente levadizo, adornado con banderas y rodeado por un paisaje decorado y fondos ornamentados.

Unit 2

Empires in the Middle Ages/Los imperios en la Edad Media, parte 1 & Los imperios en la Edad Media, parte 2

Explore the medieval history of Europe and the Middle East.

Ilustración dorada de un dragón con alas sobre fondo beige, rodeado de diversos elementos decorativos como estrellas, hojas y estampados abstractos.

Unit 3

Poetry/Poesía

Study the poetry of many nations using licensed text anthologies, and begin to write your own.

Vintage styled illustrations of a microscope, an old telephone, and a clock on textured background with geometric patterns.

Unit 4

Eureka! Student Inventor/¡Eureka! Estudiante inventor

Transform the class into a lab for students to build and present inventions.

Formaciones rocosas en un paisaje desértico con capas vibrantes y arremolinadas de arenisca roja, naranja y amarilla bajo un cielo parcialmente nublado.

Unit 5

Geology/Geología

Plate tectonics, volcanoes, erosion: all the forces that shape the Earth.

Una imagen abstracta y colorida que representa varias formas geométricas de edificios sobre un fondo azul estampado.

Unit 6

Contemporary Fiction with excerpts from The House on Mango Street/Ficción Contemporánea con Fragmentos de La Casa en Mango Street

Explore The House on Mango Street… and write a book while doing it.

Cuadro que representa a un hombre y un niño tocando una gran campana en una torre, con espectadores al fondo y un cartel de "LIBERTAD" visible.

Unit 7

American Revolution/La Revolución estadounidense

Why did America seek independence? Let’s investigate the causes and effects.

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

Unit 8

Treasure Island/La Isla del Tesoro

How dSeek the treasure of plot in this detailed study of a classic fiction adventure.

Unit 1

Personal Narratives/Narrativas personales

Through writing and sharing their writing, students begin to identify themselves as writers.

Unit 2

Early American Civilizations/Las primeras civilizaciones americanas

Students craft a codex to explain the rise and fall of the Maya, Aztec, and Inca people.

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

Unit 3

Poetry/Poesía

Students close read many forms of poetry… and learn to write them.

Collage ilustrado con un paraguas, un cuervo, un sextante náutico, estrellas, una luna creciente y una brújula sobre un fondo beige texturizado.

Unit 4

Adventures of Don Quixote/Las Aventuras de Don Quijote

Was Don Quixote right to fight the windmill? In this full-length novel study, students decide.

Unit 5

The Renaissance/El Renacimiento

Exploring the art and literature of the Renaissance through the works of its masters.

Tres hombres vestidos con ropa de época examinan una gran hoja de papel dentro de una imprenta. Un hombre parece llevar un delantal, mientras que otro señala el papel y el tercero observa de cerca.

Unit 6

The Reformation/La Reforma

How did the printing press transform the religion and society of Europe?

Patrón botánico morado y lila con hojas, plantas y formas abstractas, incluida una luna creciente y estrellas, sobre un fondo violeta oscuro.

Unit 7

William Shakespeare’s A Midsummer Night’s Dream/Sueño de Una Noche de Verano de William Shakespeare

Students enter the world of Shakespeare by reading, designing, and acting out his work.

Retrato en tonos sepia de una joven de pelo largo, con un collar de pedrería y un chal drapeado.

Unit 8

Native Americans/Los nativos americanos

How did the policies of the U.S. government impact Native American culture and lives?

Una lupa sobre documentos que contienen una pintura de paisaje de montañas, un dibujo con la etiqueta "Raptor Claw" y una nota adhesiva con la "Pista n.° 2". También se ven un sobre y una insignia exterior.

Unit 9

Chemical Matter/Química

Students use knowledge of chemistry to solve a mystery.

Print & digital components

The program includes instructional guidance and student materials for a year of instruction, with lessons and activities that keep students engaged every day.

Component

FORMAT

Knowledge (Conocimientos) Teacher Guides (K–2)

Knowledge Strand Teacher Guides contain Amplify CKLA’s cross-curricular read-alouds and application activities, all of which are standards-based to build mastery of content knowledge and literacy skills. There is one Teacher Guide per Knowledge Domain.

Print and digital

Knowledge Image Cards (K–2)

Amplify Caminos includes Image Cards for each Knowledge Domain to bring each topic to life through vivid visuals.

Print and digital

Knowledge Flip Books (K–2)

Projectable Flip Books are provided to accompany the read-alouds in each Knowledge Domain.

Digital

Teacher Guides (3–5)

Teacher Guides for grades 3–5 units are based on content-rich topics and incorporate reading, writing, speaking, and listening skills in the context of background knowledge. There is one Teacher Guide per unit.

Print or digital

Teacher Resource Site (K–5)

The program includes a one-stop-shop website for lesson projections, digital versions of all Amplify Caminos materials, lesson planning resources, multimedia (such as eBooks), and more.

Digital

Professional Learning Site (K–5)

The Professional Learning site includes training materials, best practices, and other resources to develop program expertise. Access professional development anywhere, anytime.

Digital

Component

FORMAT

Knowledge (Conocimiento) Activity Books (K–2)

Activity Books provide students with the opportunity to deepen world and word knowledge by responding to text in a diversity of ways.

Print

Student Readers (3–5)

Student Readers serve as content-rich anchor texts for each unit. Units such as Poetry and Contemporary Fiction feature authentic texts originally written in Spanish.

Activity Books (3–5)

Activity Books in grades 3–5 provide daily opportunities for students to hone reading and writing skills within the context of each unit.

Print and digital

Explore more programs

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

Amplify CKLA Skills

Amplify CKLA Skills offers the explicit skills instruction needed in today’s cla…

See all programs

S5-02. Uncovering the causes of math anxiety

A blue graphic with text reading "Math Teacher Lounge" in multicolored letters and "Amplify." at the bottom, with abstract geometric shapes and lines as decoration.

We’re continuing our season theme of math anxiety, going beyond the basics, diving deeper into what causes it, and how we can help students move forward. In this episode, we talk to Dr. Erin Maloney from the University of Ottawa to better understand what’s actually happening in the brain when a person experiences math anxiety, and how we can take steps to shift student mindsets in a positive direction.
 
Listen now and don’t forget to grab your MTL study guide to track your learning and make the most of this episode!
 
Enjoy this episode and explore more from Math Teacher Lounge by visiting our main page. 

Download Transcript

Dr. Erin Maloney (00:00):

It’s the anxiety itself in many ways that can cause people to underperform.

Bethany Lockhart Johnson (00:06):

Welcome back to Math Teacher Lounge. I’m Bethany Lockhart Johnson.

Dan Meyer (00:10):

And I’m Dan Meyer.

Bethany Lockhart Johnson (00:11):

This is episode two of our new season, all about math anxiety. Who has it? What is it? What do we do about it?

Dan Meyer (00:20):

I’m learning so much, learning a ton.

Bethany Lockhart Johnson (00:22):

I loved our first conversation with Dr. Gerardo Ramirez, episode one, our first episode of the season. Really, our goal with that conversation was just to—we need to talk about the basics of it, for reals. Like, what is math anxiety?

Dan Meyer (00:36):

What is it? How do you measure it? How’s it defined? Super-helpful stuff.

Bethany Lockhart Johnson (00:40):

There’s not only one way that it’s measured. But it’s like, in active research right now, how are folks making sense of it? And I think Dr. Ramirez did such a fantastic job of sharing that with our listeners. And I learned a lot. You learned a lot, Dan?

Dan Meyer (00:56):

I did. And I’m also super-excited to take that knowledge that we have developed together and go and build on top of it and keep on climbing up up the mountain here, and learn more about math anxiety. Which is why we’re super-excited to have a guest on, Dr. Maloney, who is going to help us learn more—especially about what happens to the brain when it’s experiencing math anxiety. There’s some really complex stuff that happens there, including the role of parents and educators in creating and resolving math anxiety. And I think we’ll also learn that the whole situation is a bit of a hot mess. And we’ll try to make it a little bit less messy together.

Bethany Lockhart Johnson (01:34):

Little bit less messy. Dan, if we do nothing else, can we make it a little less messy?

Dan Meyer (01:41):

I sometimes prefer more mess, but in this case I prefer less. So.

Bethany Lockhart Johnson (01:45):

I have a two-year-old, so everything is a mess.

Dan Meyer (01:47):

Your life is mess. Yes. <laugh> Right. Well, I’m excited for you folks to hear this. It was a delightful conversation, so yeah, tune in. We are joined by Dr. Erin Maloney.

Bethany Lockhart Johnson (01:56):

Let’s go. We are joined by Dr. Erin Maloney, associate professor in the School of Psychology at the University of Ottawa, where she directs the Cognition and Emotion Laboratory, as well as serving as the Canada Research Chair in Academic Achievement and Well-being. Welcome to the show, Dr. Maloney. We’re so excited to have you in the Lounge.

Dr. Erin Maloney (02:20):

Yeah, thank you so much for having me. This is fantastic.

Bethany Lockhart Johnson (02:24):

So our last season was all about math and joy. And even when I read your title, I felt more joyful. Like, somebody is thinking about academic achievement, but with well-being in mind. I love it.

Dr. Erin Maloney (02:39):

Aw, thank you.

Dan Meyer (02:40):

Cognition and emotion!

Bethany Lockhart Johnson (02:42):

E-mo-tion!

Dr. Erin Maloney (02:43):

I don’t think they can be separate. I think that you have to think about them together, ’cause they’re so intricately connected.

Dan Meyer (02:49):

Love that. People try, but we love that. Yeah. That’s our vibe here, too.

Bethany Lockhart Johnson (02:52):

People try. That was a big problem with my math anxiety. They just wanted…there was no room for my emotion. They’re like, stop weeping at your desk—

Dan Meyer (03:00):

It’s rearranging neurons….

Bethany Lockhart Johnson (03:01):

—you’re distracting the other children. So would you mind telling us the story of how you even got interested in this topic? You know, when you tell people that you study math anxiety—or, actually, I don’t know how you describe it to them; I’m hopeful you bring in that well-being part—but how did you get here? What do you, what do you, what do you…yeah, tell us! We love it!

Dr. Erin Maloney (03:23):

<laugh> I feel like what you’re actually asking is, “How did you make life choices that got you to here?” <Laugh>

Bethany Lockhart Johnson (03:29):

Justify your life choices! Ready? Go!

Dr. Erin Maloney (03:32):

<laugh> Whoo. OK. So, all right. So we often, in psychology, we joke that instead of doing research, we do “me-search.” And that’s, that’s admittedly true in my case. I was a student who absolutely loved math up until about eighth grade, and then something changed, and all of a sudden I was terrified of math and I had absolutely no sense of self-efficacy in it. Despite trying really hard, I was extremely anxious about it. And so I initially, I set out…my parents were completely convinced that I was absolutely capable of doing mathematics and that I was getting in my own way. And when I went to university, I decided to prove them wrong. So I set out to prove that some people just can’t do math, and that’s the end of it. And, you know, 20 plus years later, my parents were right. And it turns out that many people—well, I would argue virtually everyone—can do math. And that if you are really anxious about it, it can get in the way. And interestingly, you know, in, in the years that we’ve been doing this research, there’s really good strategies that can be used—that hopefully we get a chance to chat about—that can really help reduce the amount of anxiety that students are experiencing. But I really did set out, like the bold teenager that I was, to prove my parents wrong. And that backfired <laugh>. So I know it’s kind of a strange answer, but it’s the truth. So I was really interested in understanding why it was some people just could not do math.

Dan Meyer (05:10):

That makes two for two so far, on guests for this season who did a version of me-search. And I feel like this is pretty common for a lot of researchers. Like, I wanna figure out…my experience as a teacher, the part where you, I think, diverge from a lot of people I knew in grad school, myself included, is that you actually let counter evidence change your perspective on things. Whereas I feel like a lot of us go in: “I know this is true and I’m gonna gather data!” and lo and behold, I’m true! But only now, with the research TM, you know, trademarked research, attached to it. So that’s, really exciting. Thanks for sharing that.

Dr. Erin Maloney (05:43):

No, you’re welcome.

Bethany Lockhart Johnson (05:44):

But don’t people say that the more personal you get, the more universal it is? Right? So if you go and get your doctorate about something that you think is just your experience or in your brain, then people are gonna be gonna be like, “Wait a second; you think that too?” “Wait, that math anxiety isn’t just you?” I don’t know, it sounds like a pretty great path to me. When you tell folks that you study math anxiety or when you’re speaking to folks about your research, do you find that there is a lot of folks who relate to what you’re studying? Or how does that conversation typically go?

Dr. Erin Maloney (06:20):

Yeah, so it is I think an extremely relatable topic. Not in the sense that everyone experiences anxiety about math, but everyone seems to know somebody who’s really anxious about math. Or everyone’s at least aware of the stereotype that like some people are math people and some people aren’t, and that’s just the way it is. So it feels like everyone has feelings about math and everyone seems very happy to share those feelings. So one thing I’ve always found really interesting, and actually, so I, I know you mentioned that you had Gerardo on recently. Gerardo and I have had really interesting conversations about how people are really quick to tell you that they hate math and they can’t do math, and they’re anxious about math. And I’ve yet to have anyone ever tell me they hate reading, they can’t read, they’re really anxious about reading as an adult. So for some reason math seems really different. And in that sense people always seem to be pretty excited to talk about their feelings towards math.

Dan Meyer (07:23):

Yeah, definitely. Been on an airplane or two myself and had those conversations. You know, people asking to be reseated because they found out that I do math for a living or whatever. Or just unburdening themselves, for sure. I’m super-curious: I think that the fact that you are doing the me-search is reason enough to want to dedicate your life to this study. But I am curious: If you were gonna justify to someone else, why is math anxiety important to study? What are its consequences, even outside of math education? What would you say to that?

Dr. Erin Maloney (07:57):

So I think it’s probably not hard to convince people that success in math is important, right? So we know that children who start elementary school behind in mathematics tend to stay behind in mathematics, unless they have any kind of very targeted intervention. We know that children who do worse in mathematics throughout K to 12 education in general get lower-paying jobs when they’re older. We also know that when they do worse than mathematics relative to their peers, there’s fewer jobs that are open to them, relative to if they excelled in math. Right? And so I think in many ways there are really clear consequences for students who are not comfortable with math and who avoid it. But I think one of the really, really interesting things about math anxiety, and maybe part of why I’ve fallen in love with it as a research topic is that it’s the anxiety itself in many ways that can cause people to underperform. So it’s not just the case that people who are bad at math are anxious about it. It’s actually that the anxiety itself can cause you to do worse in math. And that for me is really exciting, ’cause it means that if we can change your mindset, then we can really set you on a path with several more options available to you career-wise. And I think that is really empowering.

Dan Meyer (09:18):

Hmm. Yeah, definitely. And I’d love for you to explore — your laboratory is the cognition and emotion laboratory, which I love, how you’re creating those linkages between how you feel about a thing and what your opportunities or your aptitude for learning it. I’m really curious, can you say more about the, the relationship there? How does feeling anxiety impair your ability to do mathematics?

Dr. Erin Maloney (09:41):

Yeah, so feeling anxiety, typically what you tend to experience is these negative thoughts and ruminations. So you can imagine, you’re somebody who doesn’t really love math, you’re pretty anxious about it; you know, Bethany, maybe you’ve had this kind of experience before. I’m gonna call you out on it. I’ve had it many times, where you sit down to do a math test and all of a sudden you’re not focusing on the actual math test in front of you. You’re focusing on things like the consequences of not doing well on this. Right? Or “my parents are gonna be really disappointed if I don’t pass this test,” or “my teacher is gonna think negatively negative of me,” or sometimes we see things like, “I’m a girl, girls don’t do math.” These types of stereotypes. And what happens is that those thoughts actually tie up really important cognitive resources, like, really important memory resources, that you need to do the math test. And so if you are trying to essentially do two things at once, right? You’re trying to deal with all these negative thoughts that are distracting you and you’re trying to do the math test, then you’re not going to do as well as someone who’s sitting down and doesn’t have all of these distracting thoughts to deal with. And we actually know that from research that we have in our lab right now, where we just ask people like, “Hey, when you did this math test, what kind of stuff are you thinking about?” what we find is that the people who are really anxious about math report a whole bunch of thoughts that are unrelated really to the math test, per se. It’s more about the consequences of doing poorly. And as a result of those thoughts, they actually end up doing worse.

Dan Meyer (11:14):

This has been really helpful to figure out, how the emotional state of doing math affects the ability to do math. And it’s really interesting how you’re saying that the direction of the causality can go from the emotions to the cognition. And I’m just curious then, what is the source of the bad emotions about math? Where does that come from? Is it nature? Is it nurture? Some combination? How do you see it?

Dr. Erin Maloney (11:39):

Yeah, so one, that’s a fantastic question. And there’s been a whole bunch of people all around the world that have been spending a lot of time really trying to pinpoint that down. And I think the answer is that it’s, you know, it’s complex. So most of what it’s looking like right now is that it is a combination of both. So essentially what we find is that kids who start elementary school who are a little bit behind in math—and for the question of why they’re behind, that’s also complex; it could be genetics, it could be just environmental input, before the child ever entered formal schooling kind of thing—but in essence, what we find is that kids that start school behind in mathematics, those are the children who are most likely to develop anxiety about math by the time they’re finished first grade. OK? But we also know that once they’ve developed the anxiety about math, then that’s when they get these thoughts and ruminations that kind of tie up those memory resources, that then is gonna make it harder for them to succeed in math tests. So you get into this sort of vicious cycle, right? Where maybe you start behind a little bit and then you develop the anxiety, the anxiety causes you to underperform relative to what you should be able to, so now you’re even further behind, you get more anxious because you’re not doing as well as you’d like to…but again, kind of coming back to the “Why are the children starting behind in the first place?” Some of that seems to be the role that parents are playing in the household. So some kids come from a household where parents are playing a lot more math games with them, talking about mathematical concepts on a regular basis. Maybe they have older siblings who are, you know, practicing arithmetic and, and mathematical processing in front of them. And so those kids are exposed to more math before they ever even start formal schooling. Those kids seem to do better. And then we also know that the parents’ attitudes matter a lot too. So what we find is that when parents are high in math anxiety themselves, especially when they help their children a lot with their math homework in really early ages, we find that those kids end up being more anxious about math by the end of the school year, and they also end up doing worse in mathematics. So it really does seem to be, you know, kind of a complex set of factors that have something to do with both maybe genetic predisposition to success in math and genetic predisposition to anxiety, but then also the social attitudes and stereotypes about math to which you’re exposed at home that really seem to be coming together to create this anxiety in young children.

Bethany Lockhart Johnson (14:24):

I feel like everything you’re saying is <laugh>…it makes so much sense and yet it’s so often not talked about, right? Because it’s just more like, it gets boiled down to, “Oh, they’re just not a math person,” instead of all these other factors that are at play. And I completely remember the anxiety I felt, whether it was a test or not, walking into my math classroom when I was in ninth grade. And there’s no way I was set up and ready to learn. Right? <Laugh>. And something with—we mentioned Dr. Ramirez, he was talking about validating that anxiety. If teachers validate that like, “Oh, you know what, sometimes you might feel stumped, or this might feel overwhelming.” Even the power in creating space for that in the classroom, right? And acknowledging that it doesn’t—math doesn’t have to “come easy” to you in order for you to have access or make sense, is such a powerful concept. And I love the way that you are looking at all these different factors and saying, “Hey, it’s both simple and also a lot more complicated than we’re we’re making it.” Right?

Dr. Erin Maloney (15:36):

No, and I agree with that sentiment so much. Like, I think, though—one thing I will sort of caution is that I think when teachers are validating the anxiety, or when parents are validating the anxiety, I think there’s a very fine line that needs to be walked where we need to be able to say, you know, “It’s OK to struggle with something. That’s, that is completely OK.” And as we’re, you know, as we’re working towards something that’s really valuable, right? We can, we can work hard at something and by working hard at it, we’re going to get better. And I think that type of validating is really, really important and valuable. I think what we wanna be careful of is not to say things like, “Oh, it’s OK. I also never loved math.” And, you know, “Oh, I was never a math person either.” And so even though we might be bringing comfort to the the child, I think that that’s sending the wrong message. And so sometimes it’s really well intentioned and really not great—

Bethany Lockhart Johnson (16:37):

A hundred percent.

Dr. Erin Maloney (16:38):

—in terms of the messaging. So that’s the only…so just for people listening, the only sort of caution that I would give there is that I think there’s nuances to the validating of the feelings that are important.

Bethany Lockhart Johnson (16:50):

I am so glad you said that because as a kindergarten teacher, I vividly remember—and this is as early as, you know, the kids are five years old, right?—and I remember in a parent-teacher conference, a parent saying, “Oh, I wasn’t a math person either,” or, “Oh, no, ugh.” And they were so quick, like you said, they wouldn’t say that about reading, but they were so quick to talk about their lack of natural math aptitude, right? And, and it was really interesting because you know that even if they’re not saying that specific thing at home, those attitudes are absolutely carrying over at home. And they’re absolutely carrying over to, to how they interact with their kiddo around math and around what’s happening in the conversations about math. And I felt like a lot of times my work as a teacher was also to help support parents through their own math anxiety, and help give them some new language for how they can talk about math. And that math is more than just getting to an answer quickly. Like, let’s talk about, let’s go on math walks, let’s go on number walks, what numbers are around the home? Or oh, is that bigger than this? Do you have more of this? And even those little things, I, my hope was that it was starting to shift the conversation around what math was possible in the home, particularly when you saw that it was the parents who had palpable math anxiety. Right? And how much you know that that’s gonna impact what’s happening when you sit down to do homework together.

Dr. Erin Maloney (18:22):

Yeah. And I love that you have worked to encourage parents to do that. So we do similarly. Like even from a research perspective, where I will often give talks to parents and teachers and we talk about the idea of trying to mathematize everything, right? So just the idea that math is absolutely everywhere, and you know, whether it’s a matter of playing games in the car with your kids where you’re thinking of a number and it’s “My number is higher than 42, but lower than 80, and what number do you think I might be thinking of?” And, and gradually trying to get the child to that number. Or, you know, asking questions like, “What’s your favorite even number and why?” And just little things like that that, that I think can make math fun for kids, that help—I don’t even know how to explain it, but just that idea of bringing joy into it, so it’s not always this heavy subject that kids have to come to. So we definitely try to talk to parents about the idea of, like I said, mathematizing everything. And usually it’s well-received, ’cause often parents find it empowering, right? They’re like, “Oh, well, I could do that! But like, that’s not math!” And you’re like, “No, but it is.”

Dan Meyer (19:33):

Yep.

Dr. Erin Maloney (19:34):

Like, it is! And sometimes parents will say like, “Well, I don’t know how to do fractions.” And you’re like, “OK, but how do you bake?” “Well, I don’t know! I just, like, I know how to do those fractions!” And you’re like, “OK, but that’s the starting point. Let’s work with that.” Like, let’s, you know. And I think a lot of times, it’s reminding the parents that they’re actually far more capable than what they think they are, despite the fact that maybe they struggled with math when they were younger.

Dan Meyer (19:58):

Yeah. This is so interesting. And I feel like part of the challenge around conversations about anxiety and math and how to, how to resolve it and where it comes from, is that it, like, it presupposes a single definition of math. And so, you know, we’re talking about like how to be more mindful about math. But you know, like if kids were walking every day through a treacherous street, you know, the solution might not be become more mindful about that street. It’s just like, we gotta fix the treacherous nature of the street, really. You know, I love that we’re talking also about redefining what math is, making it more playful. That feels like a super-important component here. I’d love to know more about what you know about the role of gender in all of this. Are there differences in the way boys and girls experience math anxiety and how it relates to achievement in math?

Dr. Erin Maloney (20:48):

Yeah, so, there’s really, really interesting research on gender in math anxiety. So in general, we find that girls tend to experience more anxiety about math than boys do. So one hypothesis is that it has to do with just social stereotypes that, you know, girls are, are good at reading; boys are good at math, kind of thing. So there’s some evidence to suggest that that might be playing a role. There’s other evidence to suggest as well that maybe boys actually do experience as much anxiety, they just don’t really own up to it.

Dan Meyer (21:20):

Ooh, yikes.

Dr. Erin Maloney (21:21):

So thoughts are, you know, there’s a bit of an apprehension for males to admit experiencing the anxiety. But I think one of the things that is extremely interesting about it—at least to me—is that we don’t tend to see gender differences in young children. So in early elementary school, even though we’ll see that kids as young as six years old will experience anxiety about math, and that that anxiety is related to how well they do in math and how much they enjoy math, it doesn’t seem to vary as a function of gender at that young age. It doesn’t seem to be related to gender until kids are at about sixth, seventh grade that we really start to see this gender difference coming online. And so that, to me, suggests that it’s probably something more social than biological at play. It probably has something more to do with these stereotypes and stuff. But another really interesting—or at least, I’m biased, but to me—another really interesting line of research that comes into play—and some of this is stuff out of my own lab—so we know that boys in general tend to do better at spatial processing than girls. And we know that spatial processing is really important for math, right? So math and space are pretty connected. And by spatial processing, I mean things like being able to picture something rotating in your mind or, you know, envisioning how these puzzle pieces might fit together. And so we know that boys tend to do better at that type of processing. And the gender difference there seems to be related to gender differences in math anxiety. So there’s some speculation, too, that it might be that as the math starts to become more reliant on spatial processing, that that’s when we see this separation between boys and girls with respect to how much anxiety they feel about math. So a lot of this is to say, I think the answer to the gender question right now is what I think what we would officially call a bit of a hot mess, <laugh> where I think there’s probably more questions than answers. But I think that there’s definitely something going on. And it really seems to be coming on later in elementary school.

Dan Meyer (23:32):

That’s a refreshingly honest admission from a social scientist, that it’s a hot mess and not perfectly clear, <laugh> so I appreciate that. It’s interesting what you said about the spatial reasoning. In our work creating curriculum at Amplify, I find we lean a lot on trying to tie abstract math towards spatial topics. Like, can you estimate a quantity before you calculate it? Can you identify a pattern and where it breaks before you prove it abstractly? And, I dunno, it’s just interesting to me. I’m just thinking out loud about how I feel like math becomes more abstract rather than more spatial. The farther you venture into secondary math…I’m wondering if I misunderstand what you’re meaning by spatial, and the progression of math from K–12.

Dr. Erin Maloney (24:20):

Yeah, so I think you can still have—you can have math be abstract, but still really relying on spatial processing. Right? And I think part of that is maybe a bit of us having different definitions of when we say “spatial.” So in cognitive science, when we talk about spatial representations or spatial reasoning, it’s really like anything you’re picturing in your mind, any time you’re really picturing these things in your mind and manipulating those images at all. So if you imagine, even like at a simple level, but it’s gonna hold when you’re going more complex as well. So doing like equivalence problems, for example, where you have to balance the equations.

Dan Meyer (24:58):

Yeah.

Dr. Erin Maloney (24:59):

Even just being able to envision things kind of moving around that equal sign and bringing one piece of the equation from this side to the other is actually an extremely spatial kind of reasoning. Right? Or when you’re expanding, that’s actually extremely extremely spatial, despite the fact that it might not feel like it initially. Obviously anything in geometry is going to be very spatial. So I think, in that sense, we would argue that the spatial processing is still playing a pretty important role. But it’s maybe a different type of spatial processing than what we’re seeing at a very early level in elementary school. That said, you can completely disagree with me too. ‘Cause I could also just be wrong, and that’s fair. My kids tell me I’m wrong all the time. So I’m used to <laugh> being told that I’m wrong.

Dan Meyer (25:47):

Well, we’re a bit more deferential on this here show, with our guests. So I would not do that. But it makes sense, what you’re saying about how these are things that you manipulate in your mind, whether they are Xs and Ys or numbers and fractions. These are all things that we manipulate. That ties into differences in this spacial reasoning category, it sounds like, which then contributes to math anxiety. And it does start to feel like there’s a lot going on here, is what it feels like.

Bethany Lockhart Johnson (26:14):

You mean hot mess?

Dan Meyer (26:16):

I meant hot mess.

Dr. Erin Maloney (26:17):

Yeah. <laugh>, I think that’s the technical term, right? I’m pretty sure that’s the technical term for it.

Dan Meyer (26:21):

I didn’t know the citation for it. So I didn’t say it. But I knew who in literature named that. But yeah.

Dr. Erin Maloney (26:28):

I’ll write something at some point.

Dan Meyer (26:30):

We’ll cite Maloney, 2022. Yeah. Yes.

Bethany Lockhart Johnson (26:34):

So I will say that one of my dreams in thinking about this season and last season, but particularly this season, since we’re really getting to talk to some researchers who get to think about this, and have really interesting conversations about it all the time…one of my dreams is that we’re bringing—’cause we do have some folks who are researchers that are listening, right? But then we also have teachers and folks who are in the classroom every day, and parents and caregivers listening. And so I think one of the beautiful things about the way that I hear you talking about it is you’re thinking about the research, but it’s so applicable. Right? And I wonder if there’s anything else you can say around it. I wanna reduce that divide, that gap, between the research that’s happening and then what’s happening with the kiddos and in the classroom and at home. And I don’t know if it’s like a magic wand thing where like <laugh> if there were changes you’d wanna see at a societal level, to try to combat math anxiety, but you see where I’m going. You know, it’s like <laugh>….

Dr. Erin Maloney (27:39):

  1. So I’m gonna answer maybe in two ways. So I think the first thing that I’m hearing from you is that idea of diminishing this divide, right? And so one thing I try to keep in mind, as someone who’s a researcher and working in the lab, I will often be called in to talk to teachers and give professional development sessions. And they often want the sage-on-the-stage academic, that stands up there and tells you the answers to things. And one of the first things that I’m gonna admit when I get up there is, “I am not on the front lines.” So what I do in the lab, for me to tell you that that’s gonna work in a classroom of 30 kids who may or may not have eaten dinner that day, and may or may not have snow pants, and may or not…like it’s–

Bethany Lockhart Johnson (28:23):

Mmm, yes.

Dr. Erin Maloney (28:24):

You know, I think we also need to be a little bit reasonable. So I try really hard in my own program of research to make sure that I’m always talking to teachers and to principals and to curriculum designers to make sure that the ideas that I have make sense. In fact, one of the most recent book chapters that I wrote, I wrote in collaboration with a really good friend of mine who’s a principal, an elementary school principal, and a former math consultant. And we wrote it together, to really say like, “Hey, here’s how we can help each other inform how research can inform practice and how practice can also inform research.” ‘Cause he can come to me and say, “I’m doing this. I can’t find anything in the literature to support this, but I’m sure it works!” And we can design something in the lab to test whether or not it seems like it’s gonna work.

Bethany Lockhart Johnson (29:11):

That’s huge. Yeah.

Dr. Erin Maloney (29:12):

Empirically. And so I think that open communication is massive. One thing that we’re doing in my own lab to try to keep that open communication available. So to anyone listening who’s ever tried to get access to a journal article, they’re held behind paywalls, right? So one, the way it works, my understanding of this anyway, is that the journal owns the formatted version of the paper. So what we do is we put up audio recordings of all of the research papers that we ever publish. So I’m pretty sure I own the words as the author, and the journal owns the prettified version that you can buy. So we audio-record all of our papers, so that if teachers or parents ever want to hear the actual science that’s going into some of these decisions, they have access to at least the stuff that we do in our lab. And we also put up an infographic for every paper, just highlighting kind of the main questions and main findings. And we do that because I think that the only way for the information to actually be useful is if it gets into the hands of the stakeholders that actually need that information.

Bethany Lockhart Johnson (30:21):

And is accessible. That’s huge. That’s huge!

Dr. Erin Maloney (30:24):

Yeah. Yeah. So that’s one way that we try to do it. And like I said, the other thing, we try to always be working with principals and with teachers. I joke that the way that I remedied this in my own life…so my husband’s a teacher; it’s like, I just married one! It’s fine! <laugh> I can grill him on a regular basis, and be like, “I wanna try this experiment. Do you think it’s gonna work?” And he can say, like, “It’s not going to. Here’s why.”

Dan Meyer (30:47):

That’s awesome. Marrying a participant—you know, a research participant—is unethical, of course. Would not clear IRB. But turning your partner into a participant? Like, what are you gonna do? That’s great.

Dr. Erin Maloney (30:57):

Yeah, no, that’s fair game.

Dan Meyer (30:58):

Yep.

Dr. Erin Maloney (30:59):

Yeah. So that’s—I think we we compensate each other <laugh>. So, no…so I do joke a little bit about that. He was a teacher simply ’cause he wanted to be one. Not ’cause I needed him to be one. But, I think that communication part is, is really key. That’s one thing. Then the other part of the question or the other sort of piece of the question that I was hearing is that idea of, how do we fix math anxiety. Right? Like, what’s the great, “I’m glad that there’s a whole bunch of time and effort and energy going into trying to understand this, but what, where are we at?” And I think with that, it’s really, really promising. So there’s been a lot of research coming out looking at how best to help children or even adults manage their own anxiety about math. And there’s a few really interesting strategies that seem to be quite effective. So one, and I don’t know if—um, it feels weird calling him Dr. Ramirez, just ’cause I know him well!—but I don’t know if Dr. Ramirez would’ve talked about this when he chatted with you, but he has some really interesting work on expressive writing. Did he chat about that at all?

Bethany Lockhart Johnson (32:07):

He didn’t, but I’ve read some of his work about it and I think it’s so fascinating.

Dr. Erin Maloney (32:11):

Yeah! So, OK, well, I’ll tell you about his work on it.

Bethany Lockhart Johnson (32:13):

Yes, please. Please.

Dr. Erin Maloney (32:14):

Because it’s super-useful. So when we talked about that idea of how anxiety causes these thoughts and ruminations, and they tie up the memory resources that you need, what Gerardo has found is that when you get students to write about their anxiety for about 10 minutes before they do a test, what ends up happening is they end up doing better on the test, relative to if they would not have written about their anxiety at all. And this is particularly true for students who are really high in anxiety. OK? And the idea is that all of those thoughts that they were going to have about the test or the consequences of the test, et cetera, you just kind of get ’em…it’s like a mind dump where you get ’em all onto the page at first before you even go to do the test. And now when you go to do the test, you’re not having to do two things at once. You’re no longer dealing with these thoughts ’cause you got ’em all out on the paper beforehand. And so Gerardo has some really interesting work showing that that works for math anxiety. And then it also works for just testing anxiety in general. And so that’s a strategy that I love. I also—part of what I really love about it is it’s so low-cost, right? You need a paper and a pencil and it’s great. So those are always my favorite strategies, the ones that don’t really cost us anything. So that’s one way of dealing with like the cognitive part of the anxiety. The other thing you can do is try to deal with the anxiety part of the anxiety. So for that, what we find is that the typical strategies that you’re gonna see for anxiety tend to work for math anxiety. So things like focused breathing. Right? Making sure you’re doing deep inhales and exhales. That really diaphragmatic breathing seems to be quite helpful. We know that what we call progressive desensitization is really key. That’s the idea of doing things, you know, starting with the questions that you know how to handle. And then gradually working up to the more difficult questions. So you’re sort of gradually exposing yourself to the more complex stuff. And how that can play out on an actual test at school is, you sit down, and instead of just starting with question number one, you actually read the whole test, see which questions you feel like you know the best, start with those questions, and that helps build your confidence so that you’re better able to tackle the questions that are maybe a little bit outside of where you’re currently at. So that seems to be really helpful. The other part that I will say, too, that’s extremely helpful: So we know that anxiety really ties up those memory resources. And so the more you can make the math automatic, the more immune it’s going to be to anxiety in the moment. And so I know that this part can be a little bit controversial, because we don’t wanna necessarily demotivate children, and kill the enthusiasm for math that we’re trying to cultivate…but really, you know, really committing your arithmetic facts to memory can be extremely helpful. So really learning those times tables, really learning your addition and subtraction facts. ‘Cause what happens is, then when you’re in a situation where you need that information, even if you’re anxious and you’re working with fewer cognitive resources than what you would normally have, you actually don’t need that many cognitive resources to be able to pull something from memory that you’ve memorized. So it really helps to kind of protect you against some of the negative impacts of the anxiety while you’re doing that test.

Bethany Lockhart Johnson (35:37):

And you’re not using all your cognitive resources to figure out seven times eight, because you can really focus on what you’re trying to do with that. Oh, that’s fascinating. Yeah. Yeah.

Dr. Erin Maloney (35:47):

Yes. No, a hundred percent right. And so I know that’s one that, like I said, I know it can be somewhat controversial because it’s…you know, we’ve talked about—or we haven’t talked about in this conversation, but we often talk about—the idea of drilling and killing. Right? So you drill the facts, you kill the, the enthusiasm. But I think that there are ways that we can drill arithmetic facts, or help make them automatic, but still fun, right? It doesn’t have to always be in a high-pressure kind of way.

Bethany Lockhart Johnson (36:16):

Totally. And we’ve talked about fluency, and I’m sure we’ll talk about it more in the Lounge. And that is interesting, that link between anxiety when the fluency isn’t there, that—or, of course we hear about anxiety with timed tests, but the idea of that IS something you can do to reduce it, because you have those facts just at your ready. Right?

Dr. Erin Maloney (36:37):

Yeah. So I actually, again, I’m gonna be a little bit controversial. So I don’t hate timed tests in the way that a lot of people do. But I love time to practice. So I think once we’ve got to a point where children have a fairly decent understanding of skills, of a skill, once they’ve got a fairly decent grasp on it, then I love the idea of the timed practice. So it can be still in a low-pressure situation, where in many ways it doesn’t matter if you get the answer to the question correct. But we’re practicing doing it in a situation in which you might be feeling a little bit of pressure, but it’s not real pressure, if that makes sense. And I think that can be really, really useful for students. And again, it can be done in a fun way, right? It doesn’t have to be these super-intense ways. It can be fun. But I think that in life there are situations in which the time that it takes you to complete a problem matter. And I think that we have to make sure that we don’t get too far away from that.

Dan Meyer (37:40):

Yeah. It feels like we should do an entire other episode thinking about ways to develop that fluency and automaticity that don’t contribute to anxiety, or create further disparities between people who are high math anxiety and low math anxiety. Not a small question, I’m sure. And I appreciate you alluding to all of that. You know, this whole thing, as you said, is quite the hot mess. And I feel like you, Dr. Maloney, have helped us make this a little less messy, in our heads, and hopefully the listeners’ heads. I really appreciate that. I just love…you’ve mentioned lots of resources that you have. You’ve alluded to them: audiobook-style readings of your research, which I need ’cause I just finished, you know, Harry Potter, the seventh book, so I need a new thing to listen to like that. Also infographics. Can you tell our listeners where they can find this work of yours, and if there are any other kinds of resources that you wanna plug for our listeners here?

Dr. Erin Maloney (38:32):

Yeah, for sure. So all of our resources can be found on my lab website. So the address for that is www.ErinMaloney.ca. So there we have, like you said, the infographics and the audio articles and all that stuff. And then we also have a link to a new kids’ book out, actually, that a colleague of mine and I have published recently, that really walks through some of these strategies on combating math anxiety. The book is written as a children’s book, so it’s Peyton & Charlie Challenge Math. But it secretly is a book that would also work for adults. So if you are a parent that’s a little bit anxious about math, or a teacher that maybe is a little bit anxious, and you wanna see how some of these strategies can play out, in that book—we linked to it on the website, but it is available for purchase on Amazon. And the one thing I will say about the book, ’cause this is something that we were pretty proud of, so Sheri-Lynn Skwarchuk, who is a school psychologist, and I wrote the book. And it’s available for purchase at our cost price, so we don’t actually make any money on the book. It was literally just a way of getting some of the science out to people who might be able to benefit from it.

Bethany Lockhart Johnson (39:45):

Reducing that divide!

Dr. Erin Maloney (39:46):

Yeah, well that’s what we’re trying to do! Right? So I think in the U.S., I think it’s like $6 on Amazon. And then in terms of other resources, we’re in the process right now of creating some informational videos and and stuff like that that hopefully will be useful for parents and for teachers, just in terms of understanding a little bit more about the anxiety and understanding how to deal with the anxiety in the classroom more, at home or wherever it might be coming up.

Dan Meyer (40:15):

Well, thanks so much. I really appreciate—we appreciate!—you coming on, and hearing about how you’re trying to bridge so many different barriers from research to practice, and school to home. It’s just really inspiring. And we’d love to have you back on sometime. So thank you so much for joining us.

Bethany Lockhart Johnson (40:29):

I feel like we’ve just hung out! Don’t you, Dan?

Dan Meyer (40:31):

Are we rolling here? Oh my gosh, we’re rolling. I just thought we’re just hanging. Yeah,

Bethany Lockhart Johnson (40:34):

I thought we were just hanging!

Dr. Erin Maloney (40:36):

I know, I do, I really appreciate that it has a very kind of chill vibe to it.

Dan Meyer (40:41):

Chill vibe. Like a lounge.

Bethany Lockhart Johnson (40:42):

It’s the lounge!

Dan Meyer (40:43):

Thank you. You get us; you get us. <laugh>

Bethany Lockhart Johnson (40:45):

Dan Meyer. I was shopping for children’s books, and there was this book, and it was talking about being at home with Mom. And it’s going through all the things that the child did that day with Mom. It’s like, “We played outside, we ran through the sprinklers, we even did some homework.” And it shows them sitting at the table with the homework, that’s clearly math homework, in front of them. And the mom is like, “Harrumph!” Like a very perplexed, anxious face. And there’s all these question marks above her. And it’s just like,

Dan Meyer (41:24):

“There should not be numbers on that paper!”

Bethany Lockhart Johnson (41:25):

Exactly. And the child is like, “Ohhhh,” you know. And I mean, I have to give credit to the illustrator, because they really did capture the clear message of this interaction, which was sitting down to do math homework or think about math together is a source of angst. Right? According to this author and according to too many people. And so I think what’s really important is that we recognize those images when we see them out there and speak back to them, and say, “Hey, wait a second.” Yeah, it can feel like that, and it doesn’t have to. And what’s going on that that’s just the assumed way that it’s gonna feel, to sit down and math together. You know?

Dan Meyer (42:11):

Yeah. It feels like we all have a lot of work to do on the whole math-anxiety front. Dr. Maloney helped us see how parents play a part, educators play a part, society and how they create people plays its own part in how we all define math as a thing where we evaluate student thought or where students play it with their thoughts, has its own huge part as well. So yeah, it was a really fantastic conversation with Dr. Maloney. I hope you folks will check out the show notes, where you will find links to Dr. Maloney’s website. A lot of her work, which as you heard, is very geared towards practitioners and parents and even directly at kids, especially the new children’s book she co-authored, Peyton & Charlie Challenge Math.

Bethany Lockhart Johnson (42:55):

Next time we’re gonna dive even more into the nitty gritty of combating math anxiety. To do that, we’re actually gonna be joined—I am so excited about this—by Dr. Rosemarie Truglio from Sesame Workshop.

Rosemarie Truglio (43:09):

Our core audience are two- to four-year-olds, and they love math. And what’s not to love? Children don’t come with this math anxiety. Math anxiety is learned.

Dan Meyer (43:23):

So excited.

Dr. Erin Maloney (43:24):

Sesame Street was a huge part of my childhood and my toddler doesn’t know it yet, but Sesame Street is coming. It’s coming. Like, we’re we’re gonna introduce Sesame Street to him. We just haven’t yet.

Dan Meyer (43:37):

Sesame Street straight raised me.

Bethany Lockhart Johnson (43:38):

Right?

Dan Meyer (43:39):

Yeah. Don’t tell my parents. But that’s, yeah, that’s true. I’m excited, too. It’s gonna be a blast.

Bethany Lockhart Johnson (43:45):

I’m really excited. I think that the more we dive into this topic—which, again, we’re gonna look at math anxiety from a lot of different angles—and I’m excited to talk to Dr. Truglio about how we can take this research and these conversations that are happening about math and how it can actually impact what’s happening in homes. ‘Cause we wanna help create positive relationships with mathematics, with kids in math. I’m so excited. And I hope you folks keep listening. We love having you here in the Lounge. And if you haven’t already, please subscribe to Math Teacher Lounge, wherever you get podcasts. And if you like what you’re hearing, please leave us a rating and a review. It helps more listeners to find the show, and let other folks know about this show. Recommendations are great. Thanks so much for listening.

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What Dr. Erin Maloney says about math

“If we can change their mindset, then we can set students on a path to more opportunities and success.”

–Dr. Erin Maloney

Associate Professor in the School of Psychology, Director of the Cognition and Emotion Laboratory, and the Canada Research Chair (Tier II) in Academic Achievement and Well-Being, all at the University of Ottawa

Meet the guest

Erin Maloney is an Associate Professor and Canada Research Chair at the University of Ottawa. Her research sits at the intersection of Cognitive Psychology, Developmental Psychology, and Education and focuses on cognitive and emotional factors that relate to academic achievement. She is a world-renowned expert on the study of math anxiety, conducting research in the lab, in homes, and in classrooms with children, parents, and their teachers. She is passionate about both knowledge mobilization and equity, diversity, and inclusion within education and science.

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About Math Teacher Lounge

Math Teacher Lounge is a biweekly podcast created specifically for K–12 math educators. In each episode co-hosts Bethany Lockhart Johnson (@lockhartedu) and Dan Meyer (@ddmeyer) chat with guests, taking a deep dive into the math and educational topics you care about.

Join the Math Teacher Lounge Facebook group to continue the conversation, view exclusive content, interact with fellow educators, participate in giveaways, and more!

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Science of Reading dos and don’ts

For classrooms and districts making the shift, understanding what a true Science of Reading curriculum looks like can be challenging. How do you know which instructional practices to adopt, which to avoid, and which ones are the real deal?

We’ve outlined five practices to start implementing today.

1. Use decodable readers.

Early readers need regular practice with grade-level text . Learning to read is not innate and must be taught through explicit, systemic instruction. Early readers need regular practice with grade-level text, especially text that’s connected to each day’s phonics instruction to helps students apply what they’ve learned.

Move away from level readers and curricula that have:

  • A focus on predictable text or below-grade-level text.
  • Decodable readers that don’t follow a clear phonics scope and sequence aligned to instruction.

2. Provide all students with dedicated phonics instruction.

Learning to read is not an innate skill. It must be taught through explicit, systematic instruction. An effective approach to phonics instruction provides enough time for teaching, application, and practice.

Shift from mini-lessons and curricula that have: 

  • Phonics instruction given only on an as-needed basis. When phonics is on an as-needed basis, students don’t get what they need to prevent reading difficulty.
  • Students alternating between limited phonics, guided reading, writing, and vocabulary practice in a mini-lesson.

3. Help students with phonics-based scaffolds.

Learning to decode builds neural pathways that are critical to automatic reading. Students need practice sounding out words, not doing guesswork.

Transition away from three-cueing or word guessing and curricula that have:

  • Prompts that encourage students to guess through three-cueing (e.g., “What word would make sense,” “what’s in this picture”).
  • Predictable books that enable pattern memorization.

4. Teach content.

Language comprehension is as important as decoding. The more background knowledge students receive, the more prior knowledge and vocabulary they can bring to texts.

Limit use of isolated comprehension strategies and curricula that have:

  • Limited time spent on each topic, or isolated topics introduced without connection to each other.
  • Comprehension skill practice without a strong content foundation (e.g., asking students to “find the main idea” or “determine the author’s purpose” in disconnected texts).

5. Follow a clear instructional path.

Clear instructional paths offer explicit guidance and cohesive structure, the most beneficial—yet overlooked—elements of teaching reading effectively. A definitive instructional path (rather than a patchwork) enables components to build upon each other. This gets students the support they need right away, so they don’t have to wait for intervention.

Withdraw from “choose your own adventure” models and curricula that have:

  • A model that provides multiple instructional pathways, which often lead to inconsistencies.
  • So many pieces to their programs that it’s unclear how to implement each effectively.

S3-05: Thinking is power

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

Join us as we sit down with Melanie Trecek-King, college professor and creator of Thinking is Power, to explore how much of an asset science can truly be in developing the skills students need to navigate the real world. You’ll learn about “fooling” students and the importance of developing critical thinking, information literacy, and science literacy in the classroom. We’ll also share real strategies and lesson examples that help build these essential skills and engage students in learning.

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

Melanie Trecek-King (00:00):

We say knowledge is power, but it’s not enough to know things. And there’s too much to know. So being able to think and not fall for someone’s bunk is my goal for my students.

Eric Cross (00:12):

Welcome to Science Connections. I’m your host, Eric Cross. On this third season, we’ve been talking about science’s underdog status. And just this past March at the NSTA conference in Atlanta, I had the chance to speak with science educators from around the country about this very topic.

Hermia Simanu (00:28):

Right now, there’s only two teachers in our high school teaching science.

Shane Dongilli (00:32):

I have 45 minutes once a week with each class. The focus is reading and math.

Alexis Tharpe (00:38):

Oftentimes science gets put by the wayside. And you know, I love math and I love my language arts, but I also think science needs to place be placed on that high pedestal as well.

Askia Little (00:46):

In fifth grade, oh, they teach science, because that’s the only grade that it’s tested.

Eric Cross (00:50):

That was Hermia Simanu from American Samoa. Her team flew for three days to make it to the conference. You also heard from Shane Dongilli from North Carolina, Alexis Tharpe from Virginia, and Askia Little from Texas. All of these teachers were excited to be at the conference and had a lot to say about the state of science education in their local schools. Throughout this season, we’ve been trying to make the case for science, showing how science can be utilized more effectively in the classroom. We’ve explored the evidence showing that science supports literacy instruction. We’ve talked about science and the responsible use of technology like AI. My hope is that all of you listeners out there can use some of this evidence to feel empowered to make the case for science in your own communities. And on this episode, we’re going to examine how science can help develop what might be the most important skill that we try to develop in our students: Good thinking. On this episode, I’m joined by a biologist who actually advocated for eliminating the Intro to Bio course at her college. Instead, Professor Trecek-King created a new course focused on critical thinking, information literacy, and science literacy skills. In this conversation, we discuss why the science classroom is such a good environment for helping students become better thinkers. Now, I don’t think that you can make a much stronger argument for science than using it to develop the skills that Melanie describes in this conversation. So, without further ado, I’m thrilled to bring you this conversation with Melanie Trecek-King, Associate Professor of Biology at Massasoit Community College, and creator of Thinking Is Power. Here’s Melanie.

Eric Cross (02:29):

Well, Melanie, thank you for joining us on the show. It’s so good to have you.

Melanie Trecek-King (02:34):

I am so happy to be here.

Eric Cross (02:35):

Now, I went to your session at NSTA in Chicago … I think it was two years ago. A couple years ago. And I was listening to your session, and as I was listening to you, I started Reverse Engineering in my mind what you were doing with your college students. I started reverse engineering the K–8. I was like, “This is amazing.” Where has what you’ve been doing been hiding? We need this not just in the college, higher ed. We need this all the way up and down. Because I hadn’t seen it before. So I think a good place for us to start is gonna be like the story of how and why you as a biologist wound up making the case to actually eliminate the Intro to Biology course at your college. So can you start off and tell us a little bit about that story?

Melanie Trecek-King (03:20):

Sure. So I started teaching at a community college in Massachusetts. And I absolutely love teaching at a community college. And I was teaching the courses that people who don’t wanna be scientists when they grow up have to take to fulfill their science requirement. And that course was Intro Bio. And I tried every way I could figure out to make that class be useful,] relevant to students. I mean, the thing is, our world is based on science and you have to understand science to be a good consumer of information, to make good decisions. And I’m a biologist, so it pains me to say this, but you know, somewhere in the middle of teaching students about the stages of mitosis and protein synthesis, I thought, “Is this really — like, if I have one semester that’s gonna be the last chance that someone’s gonna get a science education, is this really what they need?” And I just decided, “No.” So, to my college’s credit, they were very supportive. I went to them and said, “You know, I think we should assess the non-majors courses. Like, why do we teach non-majors science?” And we all agreed, well, it was for science literacy. OK, great. Do our existing non-majors courses do that? And so we evaluated each of the courses. I made a case that Intro Bio was not doing it. And so we actually replaced it with a course that I call Science for Life. And the whole course is designed to teach science literacy, critical thinking, and information literacy skills.

Eric Cross (04:48):

And so you did this while you were looking at mitosis. And you’re looking at students who may or may not be science majors. And then kind of asking that question. I know every educator asks this, and whether or not it’s welcomed or supported is a different question: “Is what I’m teaching actually gonna be relevant and useful later on down the road for this group of students?” And you actually got to run with it and then create this course, this new course. So, what were the skills that you were hoping to achieve with the new course you developed, and and why were those skills so important?

Melanie Trecek-King (05:21):

Well, if I just go back for a second to what you said, ’cause it, really hit me: I remember the actual moment — it had been building up to that point, but the actual moment that it hit me — I was teaching students the stages of mitosis. And I was applying it to cancer, because the thought is that if we use issues that are relevant to students to teach concepts, that it will be more meaningful to them. They’ll learn it better; they’ll be able to apply it. And they just looked absolutely deflated. They didn’t wanna be there. And I had this moment where I thought, “You know, if, if these students ever have cancer somewhere in their lives, is what I taught them going to be something that they remember? Is it going to be useful to them?” And quite frankly, like, no. <Laugh> They’re not gonna remember proto-oncogenes. And quite frankly, is that really what they need to know at that moment? What they need to know is, “What does this mean? Who is a reliable source of information here? If these treatments are recommended, what is the evidence for them? What are the cost-benefit analyses? Where do I go to find reliable information?” And in that space, cancer in particular, we have this whole field of — I wanna say charlatans, ’cause they may not actually be lying, but they’re pedaling false cures, false hopes. And people need that kind of hope, and so in their time of need, they’re more likely to fall for that kind of thing. Which leads me to the skills that I teach students. I call them this tree of skills. And the order is important. I start — and there’s a lot of overlap to be fair — but critical thinking, and then information literacy, and science literacy. The idea is that students carry in their pockets access to basically all of human’s knowledge at this moment in time. And if they needed to access it, they could. The question is, do they know what they’re looking for? Are they aware of their own biases that are leading them to certain sources, or certain false hopes? Are there certain things that are making them more vulnerable to the people that might prey on them? Are they able to use that information to make good decisions? There’s a great Carl Sagan quote, and it’s something like, “If we teach people only the findings of science, no matter how useful or even inspiring they may be, without communicating the method, then how is anyone to be able to tell the difference between science and pseudoscience?” So yes, the process of science is a process of critical thinking. However, we do tend to present science most of the time. Like, here’s what science has learned. And to be fair, those things that we’ve learned from science are really useful and inspiring. But if we don’t teach the process, so you’ve got somebody now who let’s say has been diagnosed with cancer and is on their phone and they’re scrolling through social media and everything looks the same. And of course the algorithms learn who you are. Next thing you know, there’s all of these like pseudo-treatments popping up. It all looks the same. Somebody who says that acupuncture can be used to cure cancer can feel the same, from someone who doesn’t understand the process of science, as a medical fact. And so the process is the process of critical thinking. My class everything is open note. The quizzes are open note. The exams — and I say open note, they’re also open online, because I know for the rest of their life they’re gonna have resources available to them; I want them to be good consumers with that information, which to me requires metacognition and critical thinking and information literacy and all those skills that I’m trying to teach them.

Eric Cross (08:58):

You’re basically taking what … we’ve taught science for so long. And more recently, it’s changed to more focusing on skills. At least in K through 12. But a lot of it was just memorization of a ton of different things that now we can pull up our phone, go on the internet. You can pull up a lot of those facts. But those facts don’t necessarily translate to actual real-world skills. When I listen to… I kind of make this analogy sometimes: students say … it’s funny, I have 12-year-olds that say this. They go, “How come they don’t teach us how to do our taxes?” And you know they’re regurgitating what they hear from adults, right? “Teach us real-world skills!” And I was like, really, if we taught you right now how to do your taxes, how many of you would really be like, “Oh, this is an awesome lesson! We’re really engaged!” But their point is that “I wanna learn something that I could actually use later on, that’s that I’m gonna carry on.” And in your course, you’re talking about these skills that actually can apply. Like you said, if I had cancer and I’m looking at different types of medical procedures, do I have the skills to really be able to evaluate and make informed decisions on that? And that’s, that’s not something that I’ve seen explicitly taught really anywhere. And I hadn’t heard anybody talk about it, really, until I heard your session, where you’ve kind of unpacked this, and over the last couple of years, have created some programs or resources for educators, where they can take this into their classroom. So what were some of those skills, again? What were were some of the skills that you thought, “I wanna make sure that my students can walk out and they know how to do this and apply it to maybe several different fields”?

Melanie Trecek-King (10:35):

Oh, that’s a really good question. Because the whole thing was a process for me. Like, when I finally let go of Intro Bio, I was so glad to see that class go, by the way. ‘Cause I just felt like I was beating a dead horse. So when I let go of it, I thought, “What do they need instead?” And for me, what I realized was I was trying to make the class I would’ve wanted to take. I realized the things that I personally didn’t know, that my own education maybe let me down a bit. But things that I thought were important. So then I took all of those, synthesized them, tried to figure out the best order. The class is currently in its third iteration. And I hope every iteration is an improvement. But I’m thinking about the students that I taught before the pandemic. It was Intro Bio. Up to just maybe the couple years before the pandemic, and during the pandemic, we had a new virus and we had a new vaccine and we had new treatments. There was hydroxychloroquine and there was ivermectin and then there’s masks. Are masks effective? Well, you know, in what circumstances? What kind of mask? There are all of these questions. And that whole thing was we saw science playing out in real time.

Eric Cross (11:50):

Absolutely.

Melanie Trecek-King (11:51):

And so were my students able to follow that? And then what happened in that process is that science became politicized. And in a time where things are uncertain and we need answers, ’cause it’s scary, people want certainty and science doesn’t tend to provide that. Especially when it’s just starting out. And then when it becomes politicized, people decide that they’re going to — it’s not necessarily a conscious decision — but they retreat into what people in their camps are saying or their groups are saying. Which actually leads me to one of the more important parts of information literacy skills in there, which is most of our knowledge is shared. We tend to have overinflated senses of what we individually know. And studies actually show that with Google, if you have access to Google, you think you’re smarter than if you don’t have access to Google. But we all have access to knowledge in our communities, and that’s one of the reasons humans are so successful, is that we can each specialize in different things and share our expertise and become greater than the sum of our parts. The problem with that, of course, is that we forget what we don’t know, and we assume that we know what the community knows. And so recognizing the limits of your own knowledge and how different communities produce knowledge, like the different epistemic processes that communities use to come to knowledge. When it comes down to it, an important part of knowing is knowing who to trust, right? Knowing where the source of knowledge lives. And in order to do that, you have to understand the processes that they’re using to come to that knowledge and the limits of your own knowledge. And then how to find who has that knowledge so that you can use that to make better decisions.

Eric Cross (13:38):

So, when I hear what you’re doing with your college students, and I think about what I’m doing in the classroom, in the middle school, we are really focusing on literacy as skills. Reading, writing, speaking, listening. And then when I think of the next step of the journey, your information literacy and the literacy you’re teaching is really the application of those things in the real world. And the examples that you gave are very critical examples. Evaluating claims about Covid. Making informed decisions about a medical procedure that you might need. And we all get that applied to us. We’re scrolling through social media and somehow social media is listening. It’s figuring out exactly what I’m doing, because all of a sudden the ads are telling me … how did you know I was alking about KitchenAid mixers now? I just said KitchenAid mixers and it’s gonna show up in my feed! But <laugh> I take that in the same way from the same place that I take in maybe an oncologist. So it’s it’s coming through the same channels. So now I kind of wanna pivot. So we’ve talked about what you’re doing, why you’re doing it, the connection between “am I really teaching the skills that my students need in the science class? Is it really critical thinking explicitly or is it just kind of implied?” Now I wanna ask you how you do it. What’s the annotated, abbreviated kind of syllabus of your course?

Melanie Trecek-King (15:03):

So the course is called Science for Life. And the premise behind it is the kinds of skills and understanding of the process of science that they would need to make good decisions to be empowered in a world based on science. And so the very first lecture, I say, “OK, I’m gonna tell you a story and I just want you to listen to the story. And at the end I’m gonna ask you why I told the story.” And the story that I tell them is some of the history of the witchcraft trials in Europe. And I start with the Malleus Maleficarum, or the Hammer of Witches, from the Pope, and about how people would accuse witches of causing birth defects or storms or crops dying. And, the best evidence that they had to absolutely know somebody was a witch was if somebody accused them, and then if they were accused, if they confessed. OK? But the problem is, to get them to confess, they would torture them. Roasting over coals, or splitting until somebody broke. And so I tell my students, “OK, this was absolute proof that someone was guilty of witchcraft. I don’t know about you; I would confess to anything, right? Make it stop!” So this is where I get to ask students, “Why would I ask you this? Why would I tell you this story? And traumatize you on the very first day of lecture?” And they see the reasoning, right? They thought they had evidence. The question was, is that good evidence? And so, you know, I’m getting students to have a basic understanding of epistemology, right? Without calling it that, or without going into all of the philosophical background of epistemology. Apply this to your own reasoning. What are you wrong about? Well, you probably wouldn’t know. OK, how would you know if you were wrong? Like what kinds of things do you feel that you’re so right about? How good is your evidence for that? So what I want them to do is internalize the thinking about thinking, and analyzing how they come to conclusions, and proportioning how strongly they believe. Their confidence in how right they are. So I think starting with that kind of misinformation, and getting students to internalize that process is important. But I think the example is really useful, because most of my students don’t believe in witchcraft. Right? So it’s not an issue that would immediately threaten them in some way. So when, when a belief is tied to identity or how we see ourselves or is really important to us, then it’s very difficult to be objective about that belief. And so by starting with witchcraft, it’s not triggering. I get them to think about thinking and practice that muscle so that when we get to those more important issues, they have the skills they need to evaluate them.

Eric Cross (17:55):

So would it be fair to say that your Science for Life class is really applied scientific thinking for the real world?

Melanie Trecek-King (18:01):

Absolutely. That’s the idea. I mean, science is too good to keep to ourselves, right? And it’s everywhere. So how can you understand the world through a scientific lens?

Eric Cross (18:10):

What are the nuts and bolts of how you teach your students these strategies? What do you do? What are some strategies and techniques that we can maybe share with listeners? And then where I want to go after that is I wanna ask you, how early do you think this can be started? So lemme start off first with, what do you do?

Melanie Trecek-King (18:28):

So I use three different strategies. One is, I provide students with a toolkit. And the toolkit is one that I created and it is like my one toolkit to rule them all. It is trying to apply critical thinking and science reasoning all together in one place. So that if students are met with a claim, they’ve got the toolkit with an acronym. They can now start and have somewhere to go. In that if I gave you a claim and said, “Just critically think through this claim,” I mean, that’s a mighty task. But if you have a structured toolkit, then it’s hopefully a systemic way that’s helpful. The toolkit is summarized by FLOATER. I have published it on Skeptical Inquirer. It’s free. So it’s Falsifiability, Logical, Objectivity, Alternative Explanations, Tentative Conclusions, Evidence, and Reproducibility. So I provide students with a toolkit. The next thing I do is I use a lot of misinformation in class. Back to what Carl Sagan says: What I heard was we should use pseudoscience to teach students the difference between a pseudo-scientific process and a scientific process. So, I use science denial, conspiracy theories, and give my students a lot of opportunities to practice evaluating claims with the toolkit. And the other thing I do is, I use inoculation activities. So inoculation theory is based on William McGuire’s original research in the ’60s, which is basically like a vaccine analogy. Where you can inject a small amount of a virus or bacterium into the body, so that it creates an immune response, so that it can learn the real thing. And so in the real world, it can fight it off. Inoculation theory does the same thing, but with misinformation. So, what we can do is, in controlled environments, expose students to little bits of misinformation so that they can recognize it in the real world. There’s different kinds of inoculation, but I’m a big fan of what’s called active and technique-based inoculation. So technique-based means that students are learning not the facts of misinformation, not factually why this thing is wrong, but about the technique used to deceive. So maybe the use of fake experts. Or maybe the use of anecdotes. Or the use of logical fallacies. The other part of that is active, which is where students create the misinformation. So for example, my students, just now, we finished covering pseudoscience. And I teach students the characteristics of pseudoscience. And basically we have fun with it. Where they pretend to be grifters and they sell a pseudoscience product. And so they have to make an ad like they’d see on social media, using the different techniques. And the point there is that it’s supposed to be funny, right? And lighthearted. But in a real way, by using the techniques used to sell something like pseudoscience, it’s opening their eyes. You can’t unsee how every alternative product has, “it’s an all-natural and used for centuries and millions use it and look at this person who says, ‘Wow, it worked for me!’ And it’s certified by some society that doesn’t exist, but this doctor behind it says that it’s really great!” I mean, it’s all the same stuff. So they create the misinformation using their own techniques.

Eric Cross (22:02):

That’s one of my favorite things that you’ve talked about, and I want to dive in that a little bit more. But when you’re teaching the toolkit, FLOATER, what does that look like in the classroom, when you’re actually breaking all of those things down? What does it look like as you’re walking your students through this, and you’re kind of coaching them on all of those different things? ‘Cause I feel like some things might be like, “Oh yeah, I got that.” And then some of them might be, “Oh, what is that?”

Melanie Trecek-King (22:24):

Yeah, it takes me probably a good solid lecture to get through the basis of the toolkit. But then over the rest of the semester, I’ll spend more time going into different parts, different rules, a bit more in-depth. So, for example, logical fallacies and objectivity. So the rule of objectivity basically states that you need to be honest with yourself. I’m gonna quote Feynman here, so: “The first principle is that you must not fool yourself — and you are the easiest person to fool.” We don’t tend to think that we can be fooled. But of course we can. So actually, if you wanna talk about it, I start class by fooling my students.

Eric Cross (23:03):

Wait, what do you do? What do you do for that?

Melanie Trecek-King (23:05):

Oh, so this is really fun. Day 1 of class, after the syllabus, I tell my … so you’re in my class now, Eric. “So I have a friend, and she’s a psychic. She’s an astrologer and she’s pretty good at what she does. I mean, she’s got books and she’s been on TV and stuff. She knows I teach this course about skepticism. And so she’s agreed to test how effective she is by providing personality assessments to students in class. So if you wanna participate, what I need from you is your birthday, your full name, answer a few questions. Like, if your house was on fire and you could take one thing, what would it be? Or if you could get paid for anything to do anything for a living, what would it be? Um, there’s a third one. Oh! If you could have any superpower, what would it be?” So the next class, it’s usually over a weekend. The next class I say, “OK, I’ve got your personality assessments back, but remember, we wanna test how effective she is. So in order to do that, I need you to read your profile as quietly as possible. And then I’m gonna have you rate her accuracy on a scale of 1 to 5. OK? So close your eyes; rate her.” Over the years doing this, it’s about a 4.3 to 4.5 out of 5. They think she’s pretty accurate. OK? “So now, if you feel comfortable, get with a person next to you. And I want you to talk about what parts of the personality assessment really spoke to you and, and why, and why you thought she was accurate or not.” And it takes them 5, 10 minutes before they realize they all got the same one. So, this is not my original experiment. It was first done by Bertram Forer in … I think it was the ’50s. And it’s done in psychology classrooms. James Randi made it famous. But the personality assessment itself is full of what are called Barnum statements. So, named after P.T. Barnum. These are statements that are very generic. So, “You have a need to be liked and admired by people. You are often quiet and reserved, but there are times where you can be the life of the party.”

Eric Cross (25:13):

How do you know this about me, by the way? This is a — I feel like you know me right now.

Melanie Trecek-King (25:17):

“There are times where you’ve wondered whether you’ve done the right thing.”

Eric Cross (25:19):

This is getting weird.

Melanie Trecek-King (25:21):

I’m just on fire, right? So these are Barnum statements. They’re the basis of personality assessment.

Eric Cross (25:29):

Mel, can I pause you right there? You said Barnum. Is that the same Barnum, like Barnum & Bailey Circus?

Melanie Trecek-King (25:34):

Yeah. P.T. Barnum, who didn’t actually say “There’s a sucker born every minute,” but we attribute him with that kind of ethos. These statements though, if you read a horoscope or even like personality indicators, like the MBTI, it is basically pseudo-scientific. And it ends up with lots of these Barnum statements. They produce what’s called the Barnum Effect, which is, “Wow, that’s so me! How did you know me?” I could even do more. Like, you have a box of photos in your house that need to be sorted. Or unused prescriptions. And these can apply to nearly everyone, but they produce this effect where we go, “Wow, that is so me!” Right? So by fooling them this way, I get to … well, so the next thing is, “Yes, I lied to you. And I’d like to tell you I won’t do that again. But I’m not going to, ’cause I might. So be on your guard.” But I did it for free. And why did I do it? “I did it because I could tell you ‘I could fool you,’ but you wouldn’t necessarily believe me. So I fooled you, so that you would learn what it feels like to be fooled.” It’s not fun. But we’re gonna make a joke outta this. And students are almost never upset about this ’cause it’s a fun process and they’re all fooled. And again, the point is, I didn’t disprove psychic powers. I didn’t just disprove psychics with this exercise. But I did show you how easy it was to fake. So if somebody is gonna tell you that they can know these things about you through some way, hopefully the evidence they provide should be stronger than something that’s easily faked. Right? Extraordinary claims require extraordinary evidence. If you claim to be able to read my personality based on my birthdate, then I need more than something that you can be taught to do in 15 minutes. So, I fool them to convince them that they could be fooled.

Eric Cross (27:27):

You’re giving them a practice scenario for thinking. And I was thinking about basketball. I grew up playing basketball. And my coach would have our own team be the defenders of the next team we were gonna play, so that we can be prepared for the defense. We were gonna see. Now, when I’m thinking about education, and what you just said reminded me of this, it’s like we’re often just teaching offense. We’re always teaching the plays. We’re always teaching what to do. But we rarely teach defense. What happens when someone comes towards you and, and they challenge you or they come at you with claims? How do we evaluate this? And I think in pockets we do it. We do claim-evidence-reasoning. We present claims and evidence and reasoning. But we don’t always have practice defending them. And I think there’s great resources. There’s Argumentation Toolkit and there’s all these awesome resources that do this. But does that fit? You’re kind of having them practice defense?

Melanie Trecek-King (28:26):

Yeah. You know, that’s brilliant. I never considered that analogy. But, yeah, in the real world, you don’t just get to always try to score all the time. Someone’s gonna challenge you and give you a claim that maybe you haven’t heard before. So how do you think through it?

Eric Cross (28:41):

Yeah. And you become better. So now I’m thinking about how early could we start doing this? For one, I love the idea of lying to your students, because I do that. And it’s just such a fun scenario. How early could we start implementing these strategies or these ideas or these toolkits? In your mind, what do you imagine? How early could we start this with young people?

Melanie Trecek-King (29:07):

Yeah. I’m so glad you asked that question, ’cause honestly, by the time they get to me, it’s almost too late. And I don’t wanna say it’s too late, ’cause it’s never too late. But, oh, we need to start so much earlier! That example that I gave about the selling pseudoscience argument? I have a wonderful colleague, Bertha Vasquez, who’s a middle school teacher in Miami and the director of TIES at CFI. She did this with her middle school students. And quite frankly, their examples were just as good, or in some cases better, than my college students. And they had so much fun with it, too. And she just said that, you know, <laugh>, they actually are more savvy with the kinds of things that they see online than we — I don’t wanna say give them credit for. But almost that we want to believe. My students give me examples of things that are from corners of the internet that I didn’t know existed. And quite frankly, that’s probably a good thing for my own mental health. But students are on there too, like middle school students, and we need to prepare them for the kinds of things that they see in the wild.

Eric Cross (30:13):

So in middle school, definitely. Now, you’ve also done some work in high school as well, right? In Oklahoma? Did you do some. …?

Melanie Trecek-King (30:17):

Yeah.

Eric Cross (30:18):

…some work with high schoolers? What was that like? Did you see any impact there?

Melanie Trecek-King (30:21):

So I didn’t actually do it in Oklahoma. I have taught the course … actually, you were talking about younger kids. I’ve taught the course to high schoolers in my area that are parts of dual enrollment. And they absolutely ate up the curriculum. And they were wonderful, wonderful students. And it was completely appropriate for … they were juniors, actually. But the course has also been taught in Oklahoma, through a dual enrollment program as well. And it was a small sample size. But we have pre-post testing that showed that it improved their critical thinking, their acceptance of science. But anecdotally the head of the program there said that in his years doing this, he’d never seen a course that helped them improve in their other courses so well. So, I felt very rewarded by hearing this. But apparently their critical thinking skills and information literacy skills helped them succeed in their other courses that they were taking. And I love that the students were transferring those skills to other classes. That’s the whole point.

Eric Cross (31:23):

And that’s a big … I think that what you just said is really the core, especially of what we’ve been talking about this season: What you’re talking about and what you’re teaching can transfer and supports literacy. And this is an example of science doing that across all other content areas. So I think that that’s huge, that that was said. What do people say about this course? I know I went on your website, and I looked at some of the comments that some folks were saying, and I know it’s just a snippet, but what do you hear from the education world about this? Because I don’t see it in many places. I see it kind of embedded, sprinkled into different content areas. But you’re actually teaching it explicitly. Do you tend to find positive feedback, overwhelmingly? Or do you get pushback on on some of this? What’s it been like for you?

Melanie Trecek-King (32:16):

I think the biggest pushback — and it’s good pushback, and I would agree entirely — is with inoculation activities, you do need to be careful to, when you debrief students, you wanna tell them why you did what you did and to use their powers for good and not for fooling other people. And I think importantly, for not putting misinformation out into the wild without having context around it. So if you do these kinds of inoculation activities, like if you have your students create pseudoscience ads, don’t just let them put them on social media. Obviously, you can’t control everything that they’re doing. But explain to them why you wouldn’t wanna do that. As far as everything else, I’ve heard really great feedback. You’re referencing my website. So, when I put together the course, I was trying to find resources for students to read. Textbooks are ridiculously expensive and I couldn’t find anything that I really wanted students to buy. So I just started writing, and I put it on my site. I have a site that’s basically the core of the curriculum. More in progress. And then I’ve got some of the topics that we explore and those are all assigned readings. My students are captive, in that I know they want a grade, and for four months they have to sit with me for the entire semester, in that I’ve specifically ordered the content in a way that would be most conducive to them learning these things. On the internet, though, and on social media, ’cause I post on there as well, people come in from all kinds of entry points, and so the goal would be to have them start at the beginning and go to the end. But people … I’m pleasantly surprised that there is an audience for critical thinking and science literacy content out there. And so that really warms my heart. But I am doing more and more for educators. And so I have a section for educators. I put content on there. I put assignments, the assignments that we’ve talked about and more, are on there. And the educators that I’ve had use it have just been really wonderful. Like, I hear great things. If I might, the biggest issue that I’m having is actually reaching educators. I’ve gone to — I met you at NSCA, actually, that was only last summer.

Eric Cross (34:30):

Oh, wow. Wow.

Melanie Trecek-King (34:32):

Right?

Eric Cross (34:32):

Yeah, you’re right. It wasn’t even a year.

Melanie Trecek-King (34:35):

Yeah, I think it was like July last year. So, um, you’ve been to the conferences. And I just went to the last one as well. But I have yet to figure out a way to really get in front of enough educators to share the content. So if anybody’s listening and is interested in learning more, please let me know! <Laugh>

Eric Cross (34:52):

Yes. And we talked about your website, but I didn’t say what the website was. So it’s ThinkingIsPower.com.

Melanie Trecek-King (34:57):

Yes.

Eric Cross (34:58):

And on there, there’s tons of resources. There is the toolkit. And it’s all free.

Melanie Trecek-King (35:06):

Yes.

Eric Cross (35:07):

And there’s a dope t-shirt on there that I just bought today, that Melanie’s actually wearing right now. It says, “Be curious, be skeptical, and be humble.” And I love that. Because I think one of the things that we can’t forget about teaching people how to think and critically evaluating information, sometimes those conversations can become very dehumanizing. And what I mean by that is it sometimes can become, like, intellectual sport, where we forget that there’s a human being on the other other side. And we lose that empathy and compassion. We can kind of see that. It just becomes this intellectual jousting and arguing. And one of the things I know about you, and when you talk about this or you talk about the work that you do, and even the shirt that you’re wearing, there’s this, “be humble.” There’s this human that is never lost in this. And you said it, too: When you’re teaching your students and you’re equipping them with all of these intellectual skills and all of these tools, to use it for good. So to maintain your humanity, to maintain your character, and then to use it to edify and lift people up, not to go out and do harm. That balance, I think, is so, so important. So it’s something that I really appreciate about you and how you teach.

Melanie Trecek-King (36:19):

I appreciate those kind words. Actually—

Eric Cross (36:21):

Oh, of course!

Melanie Trecek-King (36:22):

—and if I might, I sometimes see people using critical thinking like a weapon. It’s like, “I have learned fallacies and I’m just gonna use the tools of critical thinking to tell you why you’re stupid, or why you’re wrong, and why my position is right!” But real critical thinking involves applying those same standards to your own thought processes. And even something like argumentation: the goal of our argumentation is not to BE right; it’s to GET it right. And so we’re on the same team. If we’re arguing about something, if the idea is in scientific argumentation we’re trying to find the truth, which one of us is making a better argument based on the evidence? Can your perspective help me see my own blind spots and vice versa? And the more different perspectives that we have, the more able we are to find whatever reality is. But we are in this together. And so, yeah, I think … I’m glad to hear that that’s coming through. But if you don’t have the kind of humility that says, “You know, I could be wrong,” then you’re never gonna change your mind anyway. So having the humility to say, I’m wrong. <Laugh>

Eric Cross (37:33):

Yeah. You end up just seeing people just defend turf, as opposed to support “look for truth.” And I know for me, my own education journey, I end up with more questions than answers anyways. So I go in trying to find an answer for something and I end up with 10 more questions. And I go, “OK, this is kind of how it is.” You go down this rabbit hole and you just end up with all these different questions. And it forces the humility, because you’re like, “I don’t know! I think this is what it could be, but it could also be these other answers or explanations. So this is just where I’m at, based on what we know right now, at this present time, which might shift.”

Melanie Trecek-King (38:07):

And that sounds reasonable. Yes. Which might shift. Yes.

Eric Cross (38:11):

And especially for us as life-science biology teachers, our content is something that definitely shifts. I know some of the things I teach now are not things that I learned when I was even in middle school. Just because things evolve. They change. We learn, we get new data. That’s just the way it is.

Melanie Trecek-King (38:24):

<Sighs> And Pluto is no longer a planet.

Eric Cross (38:26):

I know. Rest in — well, no, Pluto’s still there. Yeah. It’s no longer a planet. But that was one part of my kindergarten memorizations <laugh> is Pluto being in there.

Melanie Trecek-King (38:36):

Gotta change your mind.

Eric Cross (38:38):

I know. Any words of advice for science educators out there who want to focus more on honing these critical thinking skills and strategies with their own students, but they don’t know where to start? Where would you point them? Or what advice would you give them?

Melanie Trecek-King (38:52):

I think start with what you want the students to know. And not necessarily the FACTS that you want students to know, but start with the skills that you want them to know. And then really be honest with your process. When I designed Science for Life, I started with, “these are the skills that I want students to know.” And everything was in service of that. So this sort of backwards design, I think, helped me follow a path that was more likely to be useful, if that makes any sense. But it really required doing it all over again. So don’t be afraid to question the things that you’re currently doing, even if that’s all you’ve been taught or all you know.

Eric Cross (39:41):

What I’m hearing is, don’t be afraid to question your own assumptions about what you’re doing. And don’t be afraid to adapt or change or modify. Kinda, pivot. Be flexible.

Melanie Trecek-King (39:51):

Yes, be flexible and pivot. And this is where I’m in a different position than middle school and high school educators. Because I have complete freedom over what I teach in my class.

Eric Cross (40:01):

Sure.

Melanie Trecek-King (40:01):

At the end of the semester, I always joke with non-majors that there’s nothing they have to know, which actually gives me a lot of flexibility, because I could teach ’em a lot of different things. So if there are things that you have to teach students, obviously that’s one thing. But I personally think that the way that we’ve been teaching science needs a refresher. A rethinking. And so I would say, “If you want your students to learn science literacy, honestly ask, what does that mean to you? And what would that look like to get to that point?” For me, though, it was also keeping in mind that maybe I didn’t already know the best way to do that.

Eric Cross (40:43):

One of the things you mentioned earlier is trying to reach out to educators. And I know that when we work together, it’s a force multiplier. And what you’re doing is developing skills. And there’s these skills that are happening right now in academia that you’re doing. And then how do we transfer that into middle and high school. Or, I’m sorry, middle and elementary school, high school. We need to get more people into this conversation to kind of brainstorm and figure that out. We have a Facebook group, Science Connections: The Community, where we have educators that gather. That can be one place we start the conversation. And again, I know on your website you’ve been super active on social media; you’ve grown your presence on Twitter and all these different places, engaging with folks. Which is awesome. ‘Cause I know I see your posts and I’m saving the things that you’re posting and I’m thinking of ways that I can do it in my classroom. I’m gonna take that product. By the way, is that on your website, the lesson that you do with the product?

Melanie Trecek-King (41:43):

No, actually. So the article, “How to Sell Pseudoscience” is … I know Bertha Vasquez wrote up a version of it.

Eric Cross (41:50):

Maybe we can grab that. ‘Cause we might be able to put that into the show notes for folks, because she’s a middle school educator. If there’s already something that’s been done for teachers like us, we’re like, “Yeah, let me get that and let me remix it and make it my own!” if there’s already a exemplar out there.

Melanie Trecek-King (42:04):

Yeah, she’s done it. And so I will absolutely share that with you.

Eric Cross (42:08):

So, all season long, we’ve been talking about science as the underdog. We kind of framed it, you know, science oftentimes takes a back seat to math and English. It’s kinda the first thing to go. Or the first area where time can get cut. Because of what gets tested gets focused on, oftentimes. And then in addition to that, when you’re a multi-subject teacher, elementary science isn’t just one thing — it’s every field. You know, you’re a biologist, which is different than a geologist. And when you’re teaching every subject, that’s a lot. And you might not have had a science class for years. And the realities that we’re seeing over and over with different researchers and practitioners is that science could actually enhance literacy, and building those skills. And I think you really talked about it with the critical thinking skills. Those can transfer. Or the administrator that said, “This is one of the only courses I’ve seen where it transfers to other areas.” Could you share maybe with our listeners, just any advice for advocating for science in their own world?

Melanie Trecek-King (43:13):

Wow, I’m not sure I’m qualified to answer that question! One of the things that comes to mind though — because I was listening to your last episode and educators … I honestly didn’t realize how little time they had for science. And how often science was then the first to go, to allow room for other subjects. But science overlaps with a lot of other issues. And so I feel like there could be a way to bring in science when teaching these other subjects. So, for example, argumentation and logical fallacies are easy to apply to reading and writing. Information literacy, and being able to find good information online, teaching students how to laterally read, to be able to check a source, or how to use Google effectively, to put in neutral search terms to find sources, or teaching students how to recognize the characteristics of conspiratorial thinking: All of these things can overlap with so many other subjects. So the scientist in me is a little biased towards science being important enough to do this. But try to bring it into the other subjects. It doesn’t have to be completely separate.

Eric Cross (44:43):

So integrating science into other things. And I … big believer. And a hundred percent agree with you. Now I’m gonna ask a question that kinda like takes us backwards. You shared an app with me when we first met that I thought was really cool. And I know it’s a friend or colleague of yours. But as a middle school teacher, I thought it was great, because it was something that my students could download and practice some of the skills that you’re talking about. Would you talk a little bit about the cranky uncle? Is it the Cranky Uncle app?

Melanie Trecek-King (45:17):

Cranky Uncle.

Eric Cross (45:18):

Could you share a little bit about that?

Melanie Trecek-King (45:20):

Yeah. Cranky Uncle is awesome. So, Cranky Uncle is the brainchild of John Cook, who is the founder of Skeptical Science and the author of the 97% Consensus study on climate change. Cranky Uncle … so he’s also a cartoonist. And Cranky Uncle is a cartoon game where … I don’t even have to explain who Cranky Uncle is to my students. Everybody inherently gets the, the character, right? So he’s like the guy at Thanksgiving that you don’t wanna talk to because he denies climate change and he’s just really cranky. But Cranky Uncle uses the techniques of science denial, which are summarized by the acronym FLICC: So it’s Fake experts, Logical fallacies, Impossible expectations, Cherry-picking, and Conspiratorial thinking. So he uses those techniques. Again, this is technique-based inoculation. So they recognize the techniques in the game, and you earn cranky points. And as you make Cranky crankier and crankier because you’re recognizing his techniques, you learn the techniques of science denial, and level up and open up other techniques. This is another one of those examples where climate change has a lot of science behind it, right? And if you wanted to get to the science behind climate change for any particular issue … so let’s say it’s cold today, so I’m gonna say there’s no climate change. OK? If I’m gonna unpack that at a factual level, and with science, we could be here for a while. But if I told you, “That’s like saying, ‘I just ate a sandwich so there’s no global hunger.’” OK? So that’s a parallel argument. Humorous. Love to use this kind of argumentation, ’cause it makes for some … I mean, it’s funny, but you get the point. It’s an anecdote. And anecdotes aren’t good evidence. So just like that, you could teach the technique of using an anecdotal fallacy for climate-change denial. So, I have my students play this game. You could do it when you’re studying argumentation. You could do it for science denial. I use an inoculation extension with that, where I have my students pretend that … um, actually, back up for a second. So I teach a class on critical thinking. And at the end of semesters I would get emails from students on, well, they’re failing the class, but they really shouldn’t, for all of these reasons. And reading these emails, I’m like, “If you think that’s a good argument, you clearly didn’t learn what I was hoping you would learn.” So I now have my students, early in the semester, after they play Cranky, pretend that it is the end of the semester and you’re failing the class and you’re failing because you didn’t do the work. Use at least four of the fallacies from class to argue for why you should pass. So they have to put it on a discussion forum, and they’ll say things like, “Well, if you fail me, then I won’t get into graduate school and then people will die and it will all be your fault.” Or, “My dog died, and so I was really sad.” Or, um, “You’re just a terrible teacher. And you’re short. So I don’t like you.” Or that kind of thing. So, oh, they love to attack my character. It’s really funny. But it’s supposed to be funny. And the point is, the students are using those arguments, they’re using the fallacies, to argue for something. And so by creating that misinformation themselves, they learn how those fallacies work. But taken together, I mean, everything that we just talked about there, Cranky Uncle, and the fallacy assignment, or whatever iteration you want that to be in, that doesn’t have to be in a purely science unit. Right? That could be sociology. It could be argumentation. It could be English.

Eric Cross (49:01):

Absolutely. That could be totally a prompt in an English class. And practiced in there. And then this could be an interdisciplinary thing, going back and forth between English and and science. Just having these discussions and looking at it from different angles. And you’re practicing the skills in two different contexts. So you get into argumentation. And then that app, I know I had fun with it. And the questions on there definitely resonate with people in my own family. I’m like, “I feel like I’m talking to exactly somebody that I’m related to right now.” <Laugh> Melanie, anything else that you wanna share, or discuss or highlight, before we wrap up?

Melanie Trecek-King (49:39):

So we could talk about lateral reading, if you like. ‘Cause I know a lot of educators use the crap test.

Eric Cross (49:45):

Please, please, please talk about that.

Melanie Trecek-King (49:47):

So, when evaluating sources, a lot of educators teach what’s called the CRAP test. And I wish I remembered what it stood for. But basically what you do, a lot of us have been taught when you go to a website, to figure out if it’s reliable, you wanna go to the about page. Read the mission; see who they are; maybe read some of the content; evaluate the language. So is it inflammatory? Are they making logical arguments? Are the links to reputable sources as well? And the problem is that if a site wants to mislead you, they’re not going to tell you that it’s a bunk site, right? They’re just gonna do a good job of misleading you. And so, what you wanna do instead … the CRAP test basically is an evaluation of a site. And that’s what’s called vertical reading. So you’re looking through a site to determine if it’s reliable. Uh, I think his name’s Sam Wineberg at Stanford, proposed something called lateral reading. Where, instead of on the site, what you wanna do is literally open a new tab and into the search engine type the source. You could do the claim, too. And then something like Reliability or FactCheck or whatever it’s that you’re checking, and then see what other reputable sites have to say about it. So, in their study, actually, they did a really interesting study where they compared professional fact checkers to PhD historians to Stanford undergrads. And they evaluated — I wish you could … um, there’s two pediatrician organizations. One’s like the American Association of Pediatrics and the American Academy of Pediatricians, something like that. They’re very similar sounding. So you give them to students. I do this with my students as well, the same study. So I give my students those two websites. And I say, “Which one of these is more reliable?” And they do exactly what most of us do, which is spend time on the site looking around. And most of the time, if not nearly all the time, they come to the wrong conclusion. And so then I tell them what lateral reading is: “OK, instead of looking through the site, open a new tab, search the organization and reliability.” Something like that. And it takes probably 30 seconds before they realize one of them has been dubbed by the Southern Poverty Law Center as a hate group. As opposed to the other one, which is like a hundred year old huge pediatrician organization that produces their own journals and so on. But nearly all my students are fooled. And in the study, none of the fact checkers were fooled. I’m gonna get the number right. It’s something like 50% of the historians and 20% of the Stanford undergraduates got the correct answer. And they spent a lot more time on it. So it’s a great way to teach students how to use the power of the internet to evaluate sources much more quickly and, effectively. And yes, use Wikipedia, right? Wikipedia is not a final answer, but Wikipedia is actually pretty accurate. So if Wikipedia is the first place you stop, then yes, go there, see what Wikipedia says, and then follow some of their sources.

Eric Cross (52:47):

What popped in my head was like, Yelp reviews for websites. That almost sounds like what it was. It’s like when I search for a product, I don’t go and read the product description marketing. ‘Cause that’s all designed to sell me on something. But I’ll go and look in Reliability, if it’s like a car, or just other sites to cross-reference. And that sounds like what you were talking about is like cross-referencing. Seeing what FactChecker [sic] said about this site, versus seeing what a site says about itself.

Melanie Trecek-King (53:14):

Well, that’s a great analogy. Because if I wanted to know if a product was effective, what the manufacturer says about the product, clearly there’s a strong chance of bias. Right? They’re going to be on their best, um, put their best foot forward. Versus, what do independent reviewers say about this product?

Eric Cross (53:35):

Yep. And I am known to research something to death. And I get something called “paralysis by analysis.”

Melanie Trecek-King (53:42):

Ohhhh, yeah.

Eric Cross (53:44):

And it’s so bad that even if I’m trying to buy, like, towels, I need to find the best-bang-for-the-buck towel. I have to defer some of these decisions out, because I’m on the internet for three hours now. I’ll be a pseudo-expert in towels, and thread count, and all of that stuff. But yeah, that maybe that’s just the science person.

Melanie Trecek-King (54:03):

I mean, I feel your pain. I do the same thing. <Laugh> It’s annoying. Like, it’s just towels. What does it really matter? But yeah.

Eric Cross (54:10):

Coffee! It doesn’t matter what it is. I just need to go, “OK, I have to use these powers for good. Otherwise I’m gonna be researching forever.”

Melanie Trecek-King (54:16):

I wanna say one other thing. So, again, this is a college class and I have a lot of freedom. But one of the driving philosophies behind the class is a wonderful quote in a book, Schick and Vaughn, How to Think about Weird Things. And they said, “The quality of your life is determined by the quality of your decisions, and the quality of your decisions is determined by the quality of your thinking.” And I know my students want a grade. But I’m really trying to teach them how to be empowered through better thinking. That’s where the name “Thinking is Power” came from. I mean, we say “Knowledge is Power,” but it’s not enough to know things. And there’s too much to know. So being able to think and be empowered to have your own agency and not fall for someone’s bunk is my goal for my students.

Eric Cross (55:07):

And doing that is gonna help them through the rest of their lives. Not be swindled, not be taken advantage of, be able to make better decisions. There’s so many benefits to building that skill. And I know your students have definitely grown and benefited. I’m sure you’ve heard, long after you’ve taught them, heard back from them and how they’ve applied that course to their lives. Melanie, thank you so much for being here. For a few things. One, for providing and filling this space where there’s such a need. Again, the critical thinking resources, the tools that you used, are so, so important. If we ever lived in a time where they were critical, it was really what we experienced during the pandemic in the last few years. We watched people’s information literacy and science literacy play out in real time. And we literally saw life-and-death decisions being made based off those skills. That highlighted, I think how important this is. And then, taking the time to generate resources for educators like myself, that we can take and adapt and put into our classroom and start teaching our students. ‘Cause like you said, by the time they get to you, they’re, they’re so far downstream or so far in a system that, depending on the teachers that they’ve had and the education system they’ve been in, may or may not have even touched on these things. They might have learned a lot of facts, but they may not have built their muscle to be able to critically analyze and interpret the world around them. And you’ve just — even the last year, it hasn’t even been a year since we talked the first time — I’ve watched your resources continue to grow, and you share them. And so I, on behalf of those of us in K–12, thank you. And thank you for being here.

Melanie Trecek-King (56:49):

Oh, well, thank you so much for this opportunity. Thank you for everything that you do, reaching out to other educators and for giving me a platform to hopefully reach other educators.

Eric Cross (57:00):

Thanks so much for listening to my conversation with Melanie Trecek-King, Associate Professor of Biology at Massasoit Community College and creator of Thinking Is Power. Make sure you don’t miss any new episodes of Science Connections by subscribing to the show, wherever you get podcasts. 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. You can find more information on all of Amplify shows at our podcast hub, Amplify.com/Hub. Thanks again for listening.

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What Melanie Trecek-King says about science

“Students carry in their pocket access to basically all of humanity’s knowledge at this moment in time. The question is: do they know what they’re looking for?”

– Melanie Trecek-King

Associate Professor of Biology at Massasoit Community College and creator of Thinking is Power

Meet the guest

Melanie Trecek-King is the creator of Thinking is Power, an online resource that provides critical thinking education to the general public. She is currently an associate professor of biology at Massasoit Community College, where she teaches a general-education science course designed to equip students with empowering critical thinking, information literacy, and science literacy skills. An active speaker and consultant, Trecek-King loves to share her “teach skills, not facts” approach with other science educators, and help schools and organizations meet their goals through better thinking. Trecek-King is also the education director for the Mental Immunity Project and CIRCE (Cognitive Immunology Research Collaborative), which aim to advance and apply the science of mental immunity to inoculate minds against misinformation.

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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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S3 – 05. Developing an asset orientation with Lani Horn

Math Teacher Lounge podcast featuring Lani Horn, a professor at Vanderbilt University, on developing an asset orientation.

In this episode, math education professor Lani Horn shares with us what it means to have an asset orientation towards students, contrasting it with a deficit orientation, and helping Bethany and Dan understand the many ways students experience one or the other. Their conversation hit both high notes and low notes and included a challenge that Bethany and Dan both found extremely valuable for helping a teacher develop an asset orientation towards their students.

Explore more from Math Teacher Lounge by visiting our main page

Download Transcript

Dan Meyer (00:03)

Welcome back to Math Teacher Lounge, folks. My name is Dan Meyer.

Bethany Lockhart Johnson (00:07):

And I’m Bethany Lockhart Johnson.

Dan Meyer (00:09):

We’re so excited to be here with you folks and with our guest today, tackling big questions about mathematics. I wanna ask Bethany first though: Bethany, it’s been kind of a challenging couple of years for those of us in education, near education, just in life in general, of course. But I woke up this morning and the sun was out; the weather was perfect and crisp here in Oakland; and I found myself feeling optimistic, a sense of hopefulness. And I was wondering to myself, “What is Bethany feeling hopeful about in math education right now?” What’s got you juiced up a little bit?

Bethany Lockhart Johnson (00:40):

I gotta say, that optimism, Dan, look at that! I can actually feel the sunshine just pouring through the microphone! So I thank you for asking. What am I feeling optimistic about in math education? Hmm. OK, this is gonna sound a little bit cop-out-y, but I have been so completely jazzed about not only our podcast, but the conversations that I’ve been seeing circulating in other math podcasts that are out there around curriculum, around new books coming out. It just feels like despite overwhelm, despite exhaustion, that most teachers really do love learning. And so there’s like that kernel. And so I just feel like there’s books on my shelf I wanna read; there’s podcasts in the queue I wanna listen to; and summertime is the best, best time to do it.

Dan Meyer (01:39):

People still feel hungry out there for learning. They know the importance of the craft and its impact on students. And, yeah, people are tired, but also it is so cool to see people still jazzed about learning more about how to teach students more effectively. Me, I’m excited right now, I have a very specific excitement right now, which is that today we announced that Desmos, where I work, and Amplify, our sponsor, are no longer gonna be two separate things. That we are joining together. That I, and all these people who have done so much work over the last 10 years developing digital math technology, we’re gonna go and work inside of Amplify as a division called Desmos Classroom. And we’re so excited that…what we cracked, I think, at Desmos, is a way of thinking about how teachers and their tools—computers, for instance—interact with students in math. And I love what we did there. But we never really cracked the question of, “How do you support entire school systems in taking up these ideas and tools?” And Amplify has really done that. So I’m super-excited to partner up there. That’s what I’m optimistic about and happy about.

Bethany Lockhart Johnson (02:40):

Congratulations! That’s a huge transition, and I’m just so excited about the amazing work that both Amplify and Desmos do. But then, the idea of Desmos being in more classrooms? Those tools being available for more students? With the reach? I mean, I’m just excited! It’s a big day, Dan.

Dan Meyer (03:00):

Thank you. Yes, exciting day. And I’m excited about also about our guest we’re bringing on today. How’s that for a segue? I’ll be excited to hear what our guest is excited about in math education. I just wanna say that what our guest, Lani Horn, Professor Lani Horn, has exposed us to is this idea of an asset orientation and its importance. And I do think I’m not over-exaggerating or overstating to say that the idea of an asset orientation towards students and their thinking has been possibly the most transformative idea for me in the last five years of being an educator. And adopting it has led to my favorite lessons, my favorite teaching experiences, my favorite relationships with students. I say all that—you know, I don’t wanna gas things up too much; is that too high of a bar here to have expectations? But it really has been tremendous! And Lani Horn gave a talk several years ago called “An Asset Orientation Is Everything,” which really changed the game up for me. And Bethany watched it as well. So that’s why I’m so excited to have on the person who gave that talk. And who’s done so much research around what an asset orientation offers students and teachers. So we’re bringing on today Lani Horn, who is a professor of mathematics education at Vanderbilt University, Peabody College, who centers her research on ways to make authentic mathematics, ambitious math teaching, accessible to students and teachers, particularly those who have been historically marginalized by our educational system. I think Lani has just a beating heart for students, yes, but also really respects the work of teaching in ways I think are so needed and sometimes uncommon in the world of math-education research. So Lani, thank you so much for coming on and joining us in the Lounge.

Lani Horn (04:41):

Thanks for having me.

Dan Meyer (04:44):

We would love to know what you are excited about and optimistic about right now in the world of mathematics education. What’s got you a little bit gassed up?

Lani Horn (04:52):

Up, gassed up? Hmm. Let me reframe it, ’cause I don’t know if I’m gassed up, but I’m cautiously hopeful that maybe that in the wake of the interrupted learning that’s been sort of widespread during the pandemic that maybe we’ll get some traction around more strategies for teaching in heterogeneous classrooms. Which I think every classroom is, to varying extents: a heterogeneous classroom. And I was talking with a colleague the other day about this idea of hmm, maybe modeling would be a really cool thing to focus teachers on. Doing some more mathematical modeling across the grade levels. Because it just seems like there’s a lot of opportunities for kids to kind of catch up on ideas and understandings that they may not have fully grasped because of interrupted learning, interrupted schooling. But also with room to engage in a lot of ideas. So we were playing with that and I was like, “Gosh, that’d be pretty cool if people took that on more broadly.” ‘Cause I don’t think that there’s been enough conversations about meaningful differentiation in that kind of way, like at the level of curriculum. So I would love to see an upsurge in interest in that kind of stuff, ’cause that’s a big place where I have a lot of passion, so I’m ready! I’m ready for people to ask questions about that. And actually it’s really very, very, very closely related to the topic today of having an asset orientation towards students.

Bethany Lockhart Johnson (06:34):

First of all, I’m so excited to have you on Math Teacher Lounge, have you in the Lounge, and get to talk to you, because when Dan sent me this talk, my first thing was, “Oh, I think I know what asset orientation is and looks like.” You know, you kind of hypothesize about what you think it’s going to be. And then you started talking and I’m like, “Wait, wait, why am I just hearing this now?” So I thought I knew what it was, but really I felt like there was so much to unpack. And I would just love for you to share with our listeners, in case they are like, “Oh, asset orientation, I know what that is. I’ve got it. My students have got it.” What is it? And why does it matter so much to our teachers?

Lani Horn (07:19):

The most obvious point is that asset is the opposite of deficit, right? And we know that deficit thinking is very harmful to students. That there’s a real teacher-expectation bias that that kids pick up on, that we communicate indirectly to students and that impacts their learning and their ability to meet our academic expectations and, other expectations in classrooms. So an asset orientation is looking for students’ strengths and trying to work from those strengths as a basis for your teaching.

Dan Meyer (07:54):

So that’s a really fantastic starting spot there. And I think what’s initially surprising to me about the research you cited in your talk, that is built around an asset orientation, is how…I think if you come at learning from a—I guess in research, they call a cognitivist frame, where learning happens when teachers say the right things that make a transfer from the teacher’s brain to the student’s brain. A lot of what you’re describing is very counterintuitive, I think. The asset orientation describes a teacher’s kind of subtle disposition. It’s not what, like what they’re saying exactly. It’s what they communicate in the subtext and the body language, that all emanates from some perspective on students and the idea that that filters down somehow and students pick up on that—like a smell in the air—and that determines a lot of their learning, I think is one part of your talk and the research that I thought was really surprising. How close is that to like how this actually works? And can you add to that description or pivot it a little bit?

Lani Horn (08:54):

Expansion of the sort of cognitive framing of teacher and student interaction…part of what’s really hard about developing and maintaining an asset orientation is that schools are organized in ways that rank and sort children. And so when we are just using the everyday language of schooling, sometimes we’re injecting these preconceived deficit notions of students into our talk and into how we’re thinking about, interpreting, looking at students. So not only is this interruption a sort of a cognitive lens on teacher-student interaction, but it’s really looking at how the social environment is setting teacher-student interaction to take on certain kinds of framings.

Dan Meyer (09:44):

This is what I mean about Lani having such a generous frame towards teachers and the work of teaching. I wonder, though, if you could help us make concrete how an asset and deficit orientation might play out in a hypothetical classroom interaction.

Lani Horn (10:00):

Sure. A really commonplace example is a teacher has a group of students. It’s October or November. So there’s already been a few assessments. And that gives the teacher an idea who the strong students are and who the struggling students are. And they’re having a classroom conversation. And someone who hasn’t performed well, a kid who hasn’t performed well on those assessments—the teacher poses a question. A kid who hasn’t performed well on the assessments is called on. And they sort of hesitate in formulating their response. And the teacher with that lens of “this is a struggling student” then may have to make a decision: “Do I persist? Do I support this kid? Do I help them formulate an answer? Do I try to draw out their thinking anyway? Or do I move on to a kid who is academically performed better in my class?” And I would say that a lot of teachers in that situation would very understandably say, “OK, I get it. You’re not a strong math student. You’re not confident in my class. I’m gonna move on because I need to get through this lesson to somebody who I know is gonna provide me with a correct answer.” And they do it also out of, sometimes, a sense of care, of not wanting to put that student on the spot. However, part of what is another unintended result of making that choice is instead of trying out that student’s thinking, listen to their sort of, maybe, hesitant answer, and trying to find the kernel in it that maybe could be supported and amplified, that kid then loses an opportunity to have their idea be a part of the whole class’s mathematical conversation. Completely common, completely understandable kind of interaction that I see all the time.

Bethany Lockhart Johnson (11:52):

That feels so huge. And that I can actually picture that happening.

Lani Horn (11:56):

Of course. We’ve all seen it. We’ve all done it.

Bethany Lockhart Johnson (11:58):

We’ve all seen it and done it. And I think it’s so key that you mention often it’s from a place of care. Of “I want that student to—look, I called on you; you’re a part of the conversation; you’re a part of our community.” But with it, I brought all of that other information that I think I have about that kiddo. Right? And how I think they’re struggling or navigating the question. And “Here, I’ll help by…” You know? But what I immediately thought of is how much the other students also pick up on that, right?

Lani Horn (12:36):

Of course.

Bethany Lockhart Johnson (12:36):

I remember this time, this student in my class, a student who had struggled on some of the work we were doing, she came up and she shared her work. And then another student kind of like, it was almost like a strange little pat on the back, like, “Look at that! You did it!” And like really said it in a tone of…like, you’re 5, where did that come from?? How had I set up that student to be—I really had to step back and say, “What role have I played in making this student seem like she wasn’t capable of what she had just solved?” It was such a learning moment for me. Because I don’t think teachers do it maliciously, you know, or even consciously.

Lani Horn (13:33):

Absolutely.

Bethany Lockhart Johnson (13:34):

And it was so huge.

Lani Horn (13:36):

Thanks for sharing that, Bethany, wow.

Dan Meyer (13:38):

Even in your description, Lani, you mentioned how the need to keep the class moving to fit, again, a policy that teachers didn’t impose, that we have 45 minutes and way too many standards to cover in that many days…I wanna ask you about growth mindset. It feels like every last teacher on earth has finally got the memo about growth mindset. We all know it’s the good mindset and that the bad one is fixed mindset. And we have the posters. The posters have been distributed. <laugh> A nationwide mobilization.

Bethany Lockhart Johnson (14:07):

I automatically pictured the posters.

Lani Horn (14:09):

<laugh> Of course.

Dan Meyer (14:11):

We’ve got the posters up, people! So we’re good! And now here comes asset orientation, which has some of the similar kinds of happy feelings, good vibes, about teaching and students and learning. So I was just wondering if you could help us kind of differentiate those two kinds of concepts.

Lani Horn (14:28):

I think that an asset orientation is something you’re never done cultivating. I think it’s an ongoing stance that you have to constantly reset and reexamine. And it is recognizing the links to the social categories that students inhabit, the identities that they bring with them, the bodies that they live in, the different abilities and disabilities. And it’s actually a place where, when you really engage this work in a meaningful way, I think it has the potential to make you kind of a better human being. Because you have to constantly say, “Gosh, why did I do that? What is it that my expectation was? Why am I having such a hard time with this particular student, finding something that they’re smart at, something that they’re really good at?” ‘Cause that’s the question. That’s the asset orientation question. You look at your students and you say, “What is it that they are smart about? How are they smart? I understand that school values this; I understand that my assessments value this; but what are they smart at? And how could I bring that into the meaningful work of my classroom?” Which is a very hard question sometimes.

Dan Meyer (16:03):

Yeah. Oh, so many thoughts here. Like one, I just feel like it’s such a value for teachers, for anyone, to have a big, clear, unanswerable-in-your-lifetime question to motivate your work in teaching. If you don’t have that, then the job is too small, basically. So I love that it’s a question that offers ways to dig in every single day. Every interaction is an opportunity, and it will never be answered. That’s wonderful. I love how I just feel like there’s…sometimes we have conversations with Lounge guests, Bethany, where it really gets out of the realm of the school. And it starts to creep on in to the personal life. It starts to creep on in to the spiritual life. And I find, with this sort of idea—the value of a human being—I feel when I have an asset orientation towards my key relationship in my life—my best friends, my spouse, all these things—that that’s an indication to me of a really big and valuable idea. And the question of the difference between growth mindset and asset orientation, I wonder if it’s relevant here that a growth mindset is a concept that was studied and originated by an education psychologist, Carol Dweck, and you are someone who operates with a social-cultural frame that considers more than the student’s mind in the unit of a student, but like what is going on and what are Bethany’s students perceiving in that moment you described, Bethany, that was you and a student, but everyone kind of feels what’s going on. I wonder if that’s a useful differentiator here. Do you have any thoughts about that?

Lani Horn (17:30):

Yes. I do think that the anthropological perspective that I take—where I really look at the cultural sources of these perspectives and these expectations and narratives, I would say, about who can learn math—are really, really important. And they’re part of what sometimes becomes invisible in the classroom. Though those are a really, really important part of the ongoing work of developing an asset orientation. And of course, I come to it from my own personal experience. I was an undergraduate math major. And sometimes by the time I got to my senior seminars, I was the only woman in the room. And you know, I felt that. I felt the stigma of low expectations. I felt the missed opportunities to dig deeper because people were trying to protect me from being wrong and embarrassing myself. And so on. So it’s personal. And of course we see this applying to other social categories as well. We know that the bias is not just against women in math, but people of color, against people with different kinds of abilities, and so on. So I think that that’s why it’s sort of this ongoing personal work. And I think, too, that we will inevitably in the course of committing ourselves to this find students who challenge us, especially in our society right now, the way things are so fractured. You know, what if you have a student in your classroom who holds political views that you find really odious? How do you find a way to engage that student in a way that respects what they do have to offer to your class, while also making sure that the class is a safe place for everybody? I mean, those are really, really complex dynamics to manage. And, you know, I can talk a lot about that too.

Dan Meyer (19:30):

What a job; what a job. Yeah.

Bethany Lockhart Johnson (19:33):

I was really struck, too, because I feel, like Dan said, we’ve gotten the posters. And not to undermine the power of growth mindset—I think it has impacted many, many students and communities—but it sometimes stops there. The conversation stops there. Well, you know, we have a chant we do every day. We have the poster on the wall. My students have a growth mindset. And I think what I really appreciated in your talk, and as I’ve learned about your work, is the invitation to teachers to be vulnerable and to really look at… I do feel like even sharing that story, you put a certain amount of vulnerability of, like, have I failed in some way? But I care about my students. I’m committed to cultivating a safe space. So I guess something I’m really curious about is: what do you think needs to happen or needs to be possible for teachers to further cultivate an asset orientation? Because even the ability to pause and to be reflective, sometimes it doesn’t seem possible. So I think it’s beyond just the teacher, but in the school, the district…what are some things you feel?

Lani Horn (20:49):

Are you letting me be the queen of designing schools? ‘Cause that’s a job I’ve always wanted! <laugh> OK. So if I were the queen of designing schools, teachers would have fewer student contacts.

Bethany Lockhart Johnson (21:04):

Say more.

Lani Horn (21:05):

When I taught high school, I had sometimes…I think the most I got was 180 student contacts a day.

Bethany Lockhart Johnson (21:12):

Wow.

Lani Horn (21:13):

So when you’re looking at 180 kids a day, that is just sort of a capacity issue. How am I supposed to really look meaningfully at each of those individual people and find what’s valuable and strong and smart about each of them? I think that in the U.S., teachers have more instructional time than any other developed country. We need more planning time. Because that’s an opportunity to consult with colleagues. Sometimes when we encounter students where we do have that personal struggle of, “Oh, gosh, I am really having a hard time connecting with you and seeing your strengths,” wouldn’t it be great to be able to go to their last year’s teacher or their English teacher or some other teacher and say, “Can you tell me about your experiences with this student? Because I’m really wanting to connect and I’m having trouble.” And wouldn’t that be wonderful if we had resources to do that? The other thing I would do is I would get rid of a lot of the meaningless accountability, which I have found has only amplified sort of the sorting, and sort of put a technocratic veneer over kids’ deficit thinking about their own selves. Kids get a printout saying that they’re “below basic” and you say, “Hey, that was a really good idea!” And they don’t believe you ’cause they have this printout that puts them in a different category, so there’s no way they could be good at math. So I think we’ve really done a lot of harm in the annual testing of kids in that way. Especially with the individual reporting. And often the metrics we’re using to do that are not designed to be disaggregated to the individual level. So we have a lot of measurement problems. I’m kind of going back to your question before, Dan, about what’s the difference between growth mindset and an asset orientation. I think that sometimes—I don’t think this is the way Carol Dweck intended it, but I think sometimes—and I’ve seen her rebut the way it’s been used in schools—but I think sometimes the way that growth mindset has been used in schools kind of brings it back to an individual problem: “We don’t have unequal funding in our school system! We don’t have systemic racism! We don’t have childhood poverty and malnourishment! It’s just about having the right mindset!” And we know that all of those other things have a huge impact on who engages in school and who’s able to get access to schooling and the formal learning that goes on there. And so there’s a little bit of an erasure that happens in the way that growth mindset has been taken up, and putting the onus back on students and teachers as opposed to going, “Wow, we’re in this system where the cards are stacked a certain way, and I have to somehow navigate that as a teacher and figure out how to hold you up in a system that is trying to push you down.” Which is a really different kind of job than to put a poster on my wall and do a chant in the morning.

Bethany Lockhart Johnson (24:39):

And I’m wondering, if you were looking at how you would hope that asset orientation gets brought into the classroom…it’s not another poster, right? What do you think would really help make some meaningful change around the way we think about that and teachers and systems take that on?

Lani Horn (24:59):

So I think that the important thing is helping teachers develop a vocabulary for recognizing students’ mathematical strengths in particular. Recognizing a strength is not, “Wow, you did really neat work!” or “You have really nice handwriting!” Those are not authentically mathematical strengths, right? So I try to think about—ah, for color theorem, “How cool! What a great way to be systematic!” You know, that being systematic, developing a good representation, asking a good question, asking the next “what if,” all of these are profoundly mathematical ways of thinking. And there’s more—I’m just giving you a few examples—that are not always recognized in classrooms that are built around quick and accurate calculation. Right? When that is the most valued form of smartness, kids who can do all these other great things, like, “Wow, that that is such a clear way of explaining the connection between that graph and that equation! I love it. That helps me see what’s happening every time that variable increases.” You know? I love when kids do that! That’s not quick and accurate calculation, right? One of the most heartbreaking things I’ve seen sometimes is teachers doing a really good job of pumping kids up and helping them feel mathematical and seeing their mathematical strengths in the everyday lessons…but then they get a standard assessment and are told they’re a C student. How do you support the messaging you’re doing in your teaching and in your interactions so that it aligns with assessment? And this is where the sorting mechanism of school kind of inhibits some of the ways that we really should be valuing kids in a way that would support their ongoing learning and their own particular flourishing.

Dan Meyer (26:59):

I love how you describe this whole process as a career-long trajectory, how one does not ever finish creating an asset orientation in oneself. I’m wondering if there is some way for teachers who are listening to start to experience, to enter into that kind of feedback loop, that experience, of what an asset orientation offers them and their students. Do you have some way for us to start digging in here? A challenge, if you will?

Lani Horn (27:24):

Yeah, sure. This is a process I learned from teachers I’ve worked with, so I did not make this up. It’s called a roster check. It’s where you take a roster of one of your classes, and you go through student by student and see if you can specifically name a way that that student is mathematically smart. And it’s a private exercise if you want it to be. And just sort of go through. And then for the students who you really struggle to name how they’re smart, step back and see if there’s some kind of a pattern. And when I’ve done this in PD, as an exercise, I’ve had teachers have some real light-bulb moments where they go, “Oh my gosh, I really don’t know the quiet girls in my classroom,” or “I really don’t know the multilingual learners in my classroom.” So they can sort of start to see a bias in who they’re interacting with and who’s been able to engage in ways that uncover what their unconscious bias might be. And sometimes it’s not unconscious bias. Sometimes it’s not necessarily a category like that. It’s just the kids who are more outspoken, the kids who are high achieving. It doesn’t have to necessarily be linked to an obvious social category. However, I do think that then what you can do with that list of kids who you don’t have a name for their strengths, is you can kind of take a couple of them a week and make that your project to really observe them a little more intentionally and a little more closely. Try mixing things up. Have a chat with them. Say, “Hey, so what do you like to do? What are the things that you like to do in the world? What are your hobbies?” So maybe you can start to get some insight that way. You can talk to other teachers. Most kids have something that they’re passionate about, something that animates them and wakes them up in the morning, and knowing that and finding ways to meaningfully tie that to their mathematical learning can be extremely powerful.

Bethany Lockhart Johnson (29:35):

Lani. I love that idea, taking that time to reflect and allow yourself to be vulnerable as you take a look at your biases and how that’s impacting your classroom space. I have learned so much from our conversation. I know we’re just scratching the surface of the work that you do. So if folks want to learn more, want to continue engaging in these ideas, where can they find you, or where can they find more about your work?

Lani Horn (29:58):

I’m pretty active on Twitter. My handle is @ilana_horn. No “e” on that. And I’ve written a couple of books for teachers. One is called Motivated. Another is called Strength in Numbers. People can check those out.

Bethany Lockhart Johnson (30:17):

I love it. For our listeners, we are thrilled to share this conversation with you, and we wanna hear how you take up this challenge: What do you uncover? What do you notice? What are you learning about an asset orientation? And you can share that by finding us on Twitter at @MTLshow, or you can also continue the conversation with us in our Facebook group, Math Teacher Lounge. We’re so excited to keep learning with you. And thanks for listening.

Lani Horn (30:42):

Bye! Thanks for having me.

Dan Meyer (30:44):

Bye, folks. Thank you.

Stay connected!

Join our community and get new episodes every other Tuesday!

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

What Lani Horn says about math

“An asset orientation is looking for students’ strengths and trying to work from those strengths as a basis for your teaching. ”

– Lani Horn

Professor of Mathematics Education, Vanderbilt University Peabody College

Meet the guest

Lani Horn centers her research on ways to make authentic mathematics accessible to students, particularly those who have been historically marginalized by our educational system. Professor Horn focuses primarily on mathematics teaching in two ways. First, Professor Horn looks at classroom practices that engage the most students in high-quality mathematics. Second, Professor Horn views teaching as a contextually-embedded practice –  how school environments, communities, colleagues, and policies shape what is instructionally possible. All of this is unified through a pursuit to understand teacher learning as a situative phenomenon. Follow Professor Horn on Twitter.

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About Math Teacher Lounge: The podcast

Math Teacher Lounge is a biweekly podcast created specifically for K–12 math educators. In each episode co-hosts Bethany Lockhart Johnson (@lockhartedu) and Dan Meyer (@ddmeyer) chat with guests, taking a deep dive into the math and educational topics you care about.

Join the Math Teacher Lounge Facebook group to continue the conversation, view exclusive content, interact with fellow educators, participate in giveaways, and more!

You might also like:

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Amplify’s Subprocessors

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

How to get notified of changes

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

Our commitments regarding Service Providers

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

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

Subprocessors

Amplify’s Subprocessors of Personal Information are:

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

Updates

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

Using the Science of Writing to support literacy instruction

There are plenty of creative and effective ways to inspire and teach students to write. Many teachers tap into their own experiences, insights, and talents to help students learn how to communicate with the written word.

And there’s also science behind how kids become effective written communicators. Just as the Science of Reading has transformed literacy development and instruction, the Science of Writing offers research-backed strategies to help students learn to write with clarity and confidence.

Here’s how the Science of Writing can help you support student learning.

The Science of Reading and Writing, defined

The Science of Reading represents the large and ever-growing body of research into how students best learn to read—and, therefore, how best to teach them. (You might call it the Science of teaching reading.) It emphasizes the principle that kids don’t learn to read just by being immersed in words on pages around them. Rather, instruction must be structured, explicit, and systematic.

Likewise, the Science of Writing is a research-based approach to effective instruction that emphasizes structured, explicit, and systematic methods to help students develop strong and confident writing skills. While the Science of Reading focuses on how students decode and comprehend text, the Science of Writing addresses how students construct and communicate meaning through written language.

Reading and writing are deeply connected. Strong reading skills support strong writing skills, and vice versa. A simple example: When students are expressly taught to identify the characteristics and purpose of a given text structure (say, the presentation of a problem and its solution) while reading, they are better able to replicate that structure in their writing; they can continue to improve their writing by analyzing additional and more advanced texts with that structure.

A Science of Reading curriculum and Science of Writing curriculum—that is, a comprehensive literacy curriculum—must integrate both, ensuring that students are not only able to understand texts but also to articulate their own thoughts clearly and effectively. By aligning high-quality instructional materials with these proven frameworks, educators can significantly enhance student learning outcomes.

How to bring the Science of Writing into your core curriculum

Effective writing instruction requires a comprehensive approach that addresses transcription skills and composition skills, both of which require explicit teaching and practice. If you’re looking to improve writing instruction in your classroom or district, there are five critical shifts you need to consider. Below, we’ll give you a peek at two of them. Note that we’re not asking you to add more to your plate every day; each of these approaches will actually allow you to sunset some others.

1.  Develop both transcription and composition skills, not one or the other.

Skilled writing is a product of transcription skills (such as handwriting and spelling) and composition skills (such as developing and expressing ideas). Both are best taught through an integrated reading and writing approach that recognizes reading and writing as reciprocal processes.

By working on the development of both skills, you’ll be able to shift away from:

  • Focusing exclusively on handwriting and spelling at the expense of composition practice.
  • Free writing time without explicit guidance or goals.

2.  Teach transcription skills in tandem with phonics, not in isolation.

As you know, reading and writing are reciprocal and strengthened when taught together. Some specifics:

  • Transcription skills—such as handwriting and spelling—are best taught and practiced in alignment with a phonics scope and sequence.
  • Research shows that building automaticity in handwriting supports the neural pathways associated with reading.

By working on transcription and phonics in tandem, you’ll be able to shift away from:

  • “ABC” handwriting instruction, focusing instead on instruction aligned to sound-spellings students are learning.
  • Asking students to spell words without explicit instruction in the sound-spellings.

Making this shift means moving away from phonics instruction that occurs on an “as-needed” basis and ensuring that all students receive the foundational skills necessary for fluent reading and writing.

These are just two of the essential shifts you can make to transform your literacy, and specifically writing, instruction. By focusing on evidence-based strategies, educators can make sure that students receive the support they need to become strong, independent writers.

More to explore

Want to learn all five key shifts and how to implement them in your classroom? Download our full guide to discover how the Science of Writing can help improve student learning and long-term literacy success.

Also:

Dual language assessment and instruction for K–6

mCLASS Lectura Texas is a universal screener for K–6 built on modern Spanish literacy research. Delivering complete parity between English and Spanish reading assessments, the program supports educators in accelerating reading growth for Spanish-speaking students.

Collage de escenas educativas: la parte superior izquierda muestra el dibujo de un ojo, la parte superior derecha tiene un ícono de voz, las imágenes inferiores muestran a estudiantes aprendiendo con maestros y libros, y logotipos centrales de plataformas digitales.

What experts say

“It’s incredibly important we attend to the Spanish language alongside English in assessment practices, to make sure we’re not underestimating the ability of a really significant percentage of our nation’s school population.”

Lillian Durán, Ph.D.

Co-Developer, mCLASS Lectura; Associate Dean for Academic Affairs, University of Oregon College of Education

Informational graphic highlighting the University of Oregon’s Center on Teaching and Learning and Dr. Lillian Durán’s validation of a universal screener in partnership with Amplify.

Built by leading biliteracy experts

The mCLASS Lectura Texas universal screener was co-developed with the Center on Teaching and Learning at the University of Oregon. The assessment was validated by Amplify in partnership with Lillian Durán of the University of Oregon.

The development of mCLASS Lectura Texas also involved a team of nationally recognized experts representing a range of regions (Mexico, Central America, South America, and the Caribbean), along with focus groups featuring classroom teachers, special education teachers, specialists, and administrators.

Our approach

Aligned to the Science of Teaching Reading, mCLASS Lectura Texas enables teachers to connect with their students through observational assessment and in the language most comfortable to them. When used in tandem with mCLASS Texas Edition, the program helps you achieve complete parity between English and Spanish literacy skills.

Complete parity between English and Spanish

mCLASS Lectura Texas is an authentic Spanish assessment that integrates seamlessly with mCLASS Texas Edition. It offers consistent reporting across both English and Spanish assessments and provides specialized dual-language reporting.

A laptop displays a table comparing English and Spanish reading assessment scores across categories, with benchmarks and below benchmark results highlighted.

Listen to your students read in both languages, one-on-one.

mCLASS Lectura Texas provides teacher-administered assessments in Spanish that deliver accurate and reliable measurements of each student’s literacy progress. 

Built from the latest research in Spanish literacy development

mCLASS Lectura Texas is a high-quality assessment that accounts for the major differences between English and Spanish, not simply a direct translation or transadaptation between the two languages. 

Screenshot of a language learning app segmenting the Spanish word "húmedo" into syllables: /hú/, /me/, /do/. A timer shows 0:21, and progress is displayed as 3 out of 3.
A curved computer screen displaying a presentation slide on phonological awareness in bilinguals, with text, two bar graphs, and an assessment in Spanish.

Transfer skills in one language to the other.

By providing teachers with insights into the skill areas in which their students are proficient in their native language, the program helps multilingual/English learners build on their strengths and make connections. Educators also receive guidance on the cross-linguistic transfer of critical skills in both languages.

What’s included

mCLASS Lectura Texas includes one-minute measures validated for universal and dyslexia screening, and provides dual language reports for teachers and administrators.

Captura de pantalla del software mclass que muestra los resultados de las evaluaciones comparativas de los estudiantes en un gráfico con categorías para el comienzo, la mitad y el final del año.

Comprehensive Spanish literacy measures in mCLASS Lectura Texas

mCLASS Lectura Texas is validated to assess for all key foundational skills for K–6, including:

  • Letter Naming.
  • Phonological Awareness.
  • Alphabetic Principle.
  • Fluency.
  • Comprehension.
Learn more

Reports in English and Spanish

mCLASS Lectura Texas analyzes Spanish literacy and English literacy development side by side, enabling you to see where kids are in both languages.

Dual-monitor setup displaying a Spanish literacy educational software interface, mCLASS Lectura, with text descriptions and interactive elements.
Screenshot of a digital presentation slide titled "Identificar y leer palabras con los diptongos ia, io, ie" from a Spanish literacy course, featuring text and instructional icons.

Instructional activities to build Spanish literacy skills

With mCLASS Lectura Texas, educators get hundreds of step-by-step instructional activities for small groups or individual students and receive effective activities to target the Spanish literacy skills with which students need the most support.

Comprehensive reporting

mCLASS Lectura Texas provides reporting for everyone. This is available at all levels, from classroom teachers and literacy specialists to principles and district leaders, as well as parents and guardians at home.

A laptop screen displaying a student performance spreadsheet with various metrics including grades, benchmarks, and mCLASS Lectura assessment rates for several students.
Tablet screen displaying a student's assessment summary for fluency in syllable sounds. The student, Oksana Maslova, scored 32 syllables per minute on 08/25/2021.

Detailed assessment data

mCLASS Lectura Texas provides transcripts of every assessment and identifies error patterns to help educators make instructional decisions for students on the skills they need to work on the most. The program also includes letters with student assessment results and analysis to send home or to use as a basis for discussion at conferences.

Exciting news! mCLASS Texas and mCLASS Lectura Texas K–2 are FREE for the 2025–26 school year!

Explore more programs based in the Science of Teaching Reading.

Learn more about the Amplify Texas biliteracy suite at texas.amplify.com.

Welcome to Amplify Desmos Math California!

California educators, welcome to math that motivates. Introducing Amplify Desmos Math California, a curiosity-driven TK–12 program that builds lifelong math proficiency. Each lesson poses problems that invite a variety of approaches before guiding students to synthesize their understanding of the learning goals. Students encounter math problems they’re eager to solve, while teachers spend more time where it’s most impactful—creating a collaborative classroom of learners.

Explore the California Adoption Toolkit resources and discover more about the program in the sections below.

Built for California

The Amplify Desmos Math California program is designed around the vision articulated in the Mathematics Framework for California Public Schools: Kindergarten Through Grade Twelve to enable all California students to become powerful users of mathematics. Our program incorporates the latest research in student learning, meaning that we:

  • Focus on the Big Ideas: Amplify Desmos Math California’s courses, units, and lessons are centered around the Big Ideas. Big Ideas, like standards, are not considered in isolation. In addition to each unit and lesson’s focal Big Ideas, Amplify Desmos Math California also provides connections among the Big Ideas across units and lessons.
  • Center on open and engaging tasks: Amplify Desmos Math California is grounded in engaging tasks meant to address students’ often-asked question: “Why am I learning this?”  Students are invited into learning with low-floor, high-ceiling tasks that provide an entry point for all. Open tasks in Amplify Desmos Math California provide the space for students to try on multiple strategies and represent their thinking in different ways, and allow student explanation and discussion to serve as the center of the classroom. All lessons offer both print and digital representations.
  • Provide enhanced digital experiences: Amplify Desmos Math California includes digitally-enhanced lesson activities, incorporating interactive digital tools alongside print materials. These purposefully-placed resources allow students to visualize mathematical concepts, receive actionable feedback while practicing, encounter personalized learning support from an onscreen tutor, and engage in discussions about their thinking and approaches.
  • Treat core instruction and differentiation as integral partners: The Amplify Desmos Math California curriculum provides teachers with lessons, strategies, and resources to eliminate barriers and increase access to grade-level content without reducing the mathematical demand of tasks. Every activity has multiple entry points to ensure that all students are supported and challenged. Intervention and personalized learning activities are directly connected to lesson content and offer students individualized support as they dive into the mathematics.

California Adoption Toolkit resources

Program Description

Linked here is the Program Description for Amplify Desmos Math California.

Our Major Conceptual Ideas Strategy

The renowned mathematician William Paul Thurston said that mathematics is about understanding. The essence of this perspective is woven into the California Mathematics Framework. The Framework is clear that mathematics calls for “original thought and connections of concepts” and that mathematics teaching should “position students as thinkers and members of the classroom community…to support students in seeing themselves as young mathematicians.”

When Amplify developed Amplify Desmos Math California, we built it with one clear priority: grounding it in student understanding. The Framework provided a basis in the Big Ideas, of course, but also in the Drivers of Investigation (DIs), Content Connections (CCs), and Standards for Mathematical Practice (SMPs). Using those components of the Framework, we organized student learning around how students would make sense of the mathematics.

In addition to lessons and learning experiences specifically designated as Explore lessons or Investigations, we utilized the structure of the DIs, CCs, and SMPs in each lesson. Not only is every lesson in our program tied to one or more of the Big Ideas and their connections with one another, every lesson is also framed around these additional components. Each Lesson Overview centers around these questions:

Why? Why are students learning this content?

How? How are students grappling with the mathematical concepts?

What? What contexts encourage students to apply their knowledge?

Each of these questions maps to one of the additional aspects of the Mathematical Framework. Addressing the “Why?” grounds the lesson in one or more of the Drivers of Investigation. Focusing on “How?” encourages students to develop the habits of mind described by the SMPs, becoming explorers in mathematics rather than passive recipients. And maintaining attention on “What?” centers students and teachers on the precise mathematical topics that they are exploring aligned to the four Content Connections.

The Big Ideas and the conceptual and pedagogical shifts in the California Mathematics Framework reflect a shared goal to center education on student understanding. The Amplify Desmos Math California team is eager to support educators and students in their transition to conceptual understanding through our High-Quality Instructional Materials, professional development opportunities, and continued support.

Standards Maps

The links below provide the Standards Maps for Amplify Desmos Math California for each grade level.

Evaluation Criteria Map

Linked here is the Evaluation Criteria Map for grades K–8. Please note that you will need to be logged into the digital platform to access the links in the Evaluation Criteria Map.

Standards for Mathematical Practice

The links below provide the alignment of Amplify Desmos Math California to the Standards for Mathematical Practice at each grade level.

Big Ideas

Amplify Desmos Math California’s courses, units, and lessons are centered around the Big Ideas. In addition to each unit and lesson’s focal Big Ideas, Amplify Desmos Math California also provides connections among the Big Ideas across units and lessons. Please refer to Keeping the Big Ideas at the Center (linked below) for specific lesson designs and alignment with the Big Ideas for each grade level.

Drivers of Investigation and Content Connections

Amplify Desmos Math California incorporates the Drivers of Investigation and Content Connection throughout the program. Throughout the year, students engage with open and authentic tasks of varying durations — from lesson activities to unit-level Explore lessons and longer course-level Investigations. Every lesson and investigation opportunity is grounded around the why, how, and what of the learning experience, and helps teachers bring mathematical concepts to life.

A three-column chart details: Drivers of Investigation, Standards for Mathematical Practice, and Content Connections, each with their respective codes and brief descriptions.

California English Language Development Standards

The links below provide the alignment of Amplify Desmos Math California to the California English Language Development Standards at each grade level.

California Environmental Principles and Concepts

Select lessons, performance tasks, and investigations across grade levels in Amplify Desmos Math California are aligned to one or more of the California Environmental Principles and Concepts. Click the links below to view how the California Environmental Principles and Concepts are represented in each grade level.

Contact us

For questions, samples, or more information, please contact your local Amplify Account Executive:

Erin King
Sales Director, CA
(512) 736-3162
eking@amplify.com		 Northern CA
Wendy Garcia
Senior Account Executive
(510) 368-7666
wgarcia@amplify.com		 Bay Area
Lance Burbank
Account Executive
(415) 830-5348
lburbank@amplify.com
Central Valley and Central Coast
Demitri Gonos
Senior Account Executive
(559) 355-3244
dgonos@amplify.com		 Ventura and L.A. County
Jeff Sorenson
Associate Account Executive
(310) 902-1407
jsorenson@amplify.com		 Orange and L.A. County
Lauren Sherman
Senior Account Executive
(949) 397-5766
lsherman@amplify.com
San Bernardino and L.A. County
Michael Gruber
Senior Account Executive
(951) 520-6542
migruber@amplify.com		 Riverside and L.A. County
Brian Roy
Account Executive
(818) 967-1674
broy@amplify.com		 San Diego County
Kirk Van Wagoner
Senior Account Executive
(760) 696-0709
kvanwagoner@amplify.com
Under 2300 students in Bay Area, Sacramento Valley, and Northern Counties
Kevin Mauser
Lead Account Executive
(815) 534-0148
kmauser@amplify.com		 Under 2300 students in Southern CA, Central Coast, and Southern Central Valley Counties
Charissa Snyder
Account Executive
(720) 936-6802
chsnyder@amplify.com		  

Winter Wrap-Up 03: Ideas to build math fluency

Promotional graphic for "Math Teacher Lounge" episode featuring Valerie Henry, Ed.D., on ideas to build math fluency, with a photo of Valerie Henry in the bottom right corner.

Join us for the third episode in our Winter Wrap-Up! In this episode from season 3 of Math Teacher Lounge: The Podcast, we sit down with Dr. Valerie Henry to talk about math fluency and what that means for students. Listen as we dig into the research, hear Val’s three-part definition of fluency, and explore her five principles for developing it.

Explore more from Math Teacher Lounge by visiting our main page

Download Transcript

Dan Meyer (00:03)

Hey folks. Welcome back. This is Math Teacher Lounge, and I am one of your hosts, Dan Meyer.

Bethany Lockhart Johnson (00:07):

And I’m your other host, Bethany Lockhart Johnson. Hi, Dan.

Dan Meyer (00:11):

Hey, great to see you. We have a big one this week to chat about and some fantastic guests. We are chatting about fluency, which is the sort of word and concept that I feel like people have very, very non-neutral associations with it. A lot of them are very negative, for a lot of people.

Bethany Lockhart Johnson (00:26):

I saw you frown a little. What’s up with that, Dan? You kind of, like, shrank.

Dan Meyer (00:30):

I have strong feelings about it. You know, there’s lots of ways that people go about helping people become fluent in mathematics. And a lot of them are harmful for students, and ineffective. And it got me thinking about fluency as it exists outside of the world of mathematics, where we have a lot of very clear images of it. We’re getting fluent in things all the time. Like, as humans. Human development is the story of fluency. And I just was wondering….Bethany, would you describe yourself as fluent at something outside of the world of mathematics? What is that? How’d you get fluent at it? What was the process?

Bethany Lockhart Johnson (01:05):

Hmm, I think I’m a pretty fluent reader. I read all the time. I’m a happier person if I’ve read that day. I once saw this poster in a classroom; it said “10 Ways to Become a Better Reader: Read, Read, Read, Read, Read…you know, 10 times. Get it? Reading? You get better at reading by reading! So I would say reading. And it’s been kind of cool—I have a one-year-old who, it’s been really exciting slash overwhelmingly anxiety-producing to see him get very fluent with walking slash running, ’cause he’s getting faster every day. And it’s kind of fun. When I think of what’s something somebody’s trying to get fluent with…walking! He’s trying to be more fluid. He’s practicing transitions. He doesn’t wanna hold my hand while he traverses rocky terrain. He’s getting better at it. He’s practicing. What about you? What’s something…?

Dan Meyer (02:08):

I think about driving a lot. I’m a very fluent driver and I think a lot about when I was first a driver, you know? And how l have my hands on 10 and 2, vice grip, and do not talk to me; do not ask me anything; don’t ask me my NAME. I need to focus so hard. And then a year later, you know, I’m driving with one hand, smash the turn signal, take a sip off of whatever, change the CD. And then it’s no big deal.

Bethany Lockhart Johnson (02:38):

Wait, did you pass the first time? Your test?

Dan Meyer (02:40):

Yeah, I don’t like to brag about it. <laugh> But I do all the time. <laugh> But I got a hundred on my driving test. I don’t care who knows it. And I hope it’s everybody. But I guess all of this is just to say there are areas of life where fluency feels natural, with the case of walking. There’s areas of life where fluency feels motivating, with like driving—I wanna be able to switch the CD out or whatever. And there’s areas where fluency feels terrifying and hard to come by, like mathematics, sometimes. So we have a set of guests here. Our first guest will help us figure out what do we mean by fluency? And what’s the research say about what fluency is and how students develop it in mathematics? And then our other guests will help us think about what it looks like in practice in the classroom. What are some novel, new ways to work on fluency? So first up we have Val Henry, Dr. Val Henry.

Bethany Lockhart Johnson (03:32):

So we knew we needed help with the fluency definition, because when we think about it, it’s kind of big, right? And we wanted to look at what research about fluency really says. So we called on Valerie Henry. Val is a nationally board-certified teacher, taught middle school for 17 years, and since 2002 has worked with undergraduates graduates, credential candidates as a lecturer at the University of California, Irvine, one of my alma maters. So after doing her dissertation on addition and subtraction fluency in first grade, Val created a project to study ways to build addition and subtraction and multiplication and division fluency while also developing number sense in algebraic thinking. And the pilot grew and grew over the last 18 years into a powerful daily mini-lesson approach to facts fluency called FactsWise. And when we thought of fluency, the first person I thought of was Val. Welcome, Val Henry, to the Lounge! I’m so excited to have you here. Welcome.

Valerie Henry (04:36):

Thanks, Bethany. And thanks to you, Dan. It’s great to be here today.

Dan Meyer (04:41):

Great to have you; help yourself to whatever you find in the fridge. The names that people write down on those things in the bags are just recommendations. It’s potluck-style here. I’m curious, Val, if you’re, like, on an airplane, someone asks you what you do, and you say you study fluency…what is the layperson’s definition of what does it mean to be fluent in mathematics? And if you can give a brief tour through what the research says about what works and what doesn’t that would really help us orient our conversation here.

Valerie Henry (05:12):

The first thing I have to do when I talk to somebody on a plane is define the idea of fluency. And I often use an example of tying your shoelaces. Because that works with first graders as well as adults. This idea that when we first start trying to put our shoes on and get those shoelaces tied, somebody tries to, first of all, just do it for us. But then of course maybe tries to teach us the bunny-ears approach. And we struggle and struggle as little kids and eventually either the bunny-ears approach or something else starts to work for us. But we still have to pay attention to it. We have to think hard and it’s not easy. And then over time we get to the point where we basically don’t even think about it. When I tie my shoes in the morning. I’m not thinking about right-over-left and left-over-right and all of those things. I just do it. And so that’s a good, easy example of becoming fluent with something. I think what we’re talking about today though, is the basics, the adding and subtracting that we hope kids are going to have mastered maybe by second grade, and the multiplication and division facts that we wanna maybe have mastered by third, maybe fourth grade. So now what does that mean to become fluent with those basics? I have a three-part definition that seems to match up really nicely with the common core approach to fluency. Which is, first of all, we want the answers to be correct. And then second, we want the answers to be easy to know. And so what does that mean? Well, to me, it means without needing to count,

Bethany Lockhart Johnson (07:12):

You mean without having to kind of muscle through it? Or say more about you mean.

Valerie Henry (07:16):

Well, I guess what I mean is that when you watch a young child try and solve something even as simple as two plus three, they might put up two fingers and then go 3, 4, 5 with three more fingers winding up on their hand, one or the other of their hands. While they’re doing that, they don’t really have a sense of whether even their answer is right or not, quite often. Especially when you get to the larger adding and subtracting problems, you can see a lot of errors happening as they’re trying to count. And it’s taking up cognitive energy to do that counting process, especially as you get to the larger quantities. So my definition of fluency now is “getting it right without needing to do that hard work like counting.” Now, some people might say, well, we just want them to have ’em memorized. But in my research, I’ve learned that a lot of very fluid adults don’t always have every fact memorized. In fact, if you ask a room full of adults, what’s seven plus nine, you might learn that they can all get it correct quickly, quickly…but they don’t all have it memorized. And so when you ask them, “How did you get that?” Many of them will say, “Well, I just gave one from the 7 to the 9 and I know that 10 plus 6 is 16.”

Bethany Lockhart Johnson (08:53):

That’s such an important distinction. My brain literally just did that actually!

Valerie Henry (08:58):

<laugh> Right? <laugh> But you’re fluid with it, because it doesn’t take you much cognitive energy at all.

Bethany Lockhart Johnson (09:05):

Right.

Valerie Henry (09:07):

So now we have “correct without needing to put that cognitive energy,” which usually means that you’re counting. And then the third thing is “relatively quickly,” so that you’re not spending 15 seconds trying to figure it out. Even that part-whole strategy approach can be done really quickly, almost instantaneously. Or it can take a long time. So if a student can get the answer correct within, you know, three or four seconds— is I’m pretty generous—I figure that they’re pretty darn fluent with that fact. So that’s my three-part definition of these basics, fluency.

Dan Meyer (09:55):

I love the distinction between getting it correct and getting it quick. It’s possible to be quick with wrong answers. It’s possible to be like, “Those are separate components there.” And I echo Bethany’s appreciation for this third option in between knowing it instantaneously through memorization and muscling through it. But there’s like a continuum there of how much energy it took you to come up with it that all feels extremely helpful.

Valerie Henry (10:21):

And you know, one of the things that I’ve noticed is that when kids are pressured to come up with those instantaneous answers, they often default to guessing and get it wrong.

Bethany Lockhart Johnson (10:30):

Mm, yeah.

Valerie Henry (10:30):

So that’s one of the things that I’ve learned is that as we’re trying to help students develop fluency, it’s important to start with building their conceptual understanding of what it means to do, you know, 3 times 9 and what the correct answer is, maybe using manipulatives or representations of some sort. Not skip-counting! I really have found that skip-counting just perpetuates itself in many students’ minds and that they never stop skip-counting, which means they’re putting in not very much mental energy if it’s 2 times 3 but a ton of mental energy if it’s 7 times 8. Because frankly, it’s really hard to skip count by sevens. And by eights.

Bethany Lockhart Johnson (11:18):

I can get to 14 and then I’m like, wait, wait, what was next? Right? No, no, no…21! What do you feel are some misconceptions that maybe teachers, maybe parents have about fluency in math?

Valerie Henry (11:30):

I think maybe one of the first ones is that if students count or skip-count, their answers repetitively over and over and over and over, that they’re bound to memorize them. And the study that I did back in 2004, I actually had a school that had decided that they were going to do time tests with their students every day, all year. And that undoubtedly by the end of the year, those students would be fluent.

Bethany Lockhart Johnson (12:06):

And to clarify by time test, you mean like, sit down, pencil, paper, ready, go, worksheet kind of thing.

Valerie Henry (12:15):

Yes.

Bethany Lockhart Johnson (12:16):

Some of us might remember quite vividly.

Valerie Henry (12:18):

<laugh> Very vividly. And you know, you have to get it done within a certain amount of time. So they made it fun for the students. Apparently the students enjoyed it. I was a little leery about that, but in the end, when I went and checked on the students and I did one-on-one assessments with half of the students in every class that were randomly selected so that I could get a sense of where they were with their fluency—and these were first graders—they basically had nothing memorized. They were simply counting as fast as they possibly could. And, you know, mostly getting the right answers. But they had not memorized. So that’s one of the myths, I think, is that repetitive practice of counting gets you to memorization.

Bethany Lockhart Johnson (13:10):

If I put it in front of you enough times, you’ll become fluent.

Valerie Henry (13:14):

Right, right. Now these students didn’t really get any instruction, any help learning these. They just simply tested over and over and over. So that’s another thing that I think is a misconception. It’s that if we test students, but don’t really teach them fluency, then they’re going to become fluent. If we just test them every Friday or that kind of thing. And that they’ll learn them at home. But really what that means is a few lucky kids who have parents who have the time and the energy and the background to know how to help will take that job on at home. Not that many students are really that fortunate.

Dan Meyer (14:01):

It’s almost like the traditional approach, or the approach you’re describing, confuses process and product. It says, “Well, the product is that eventually fluent students will be able to do something like this, see these problems and answer them, answer them quickly,” and says, “Well, that must be the process then as well; let’s give them that products a whole lot.” But as I hear you describe fluency with bunny ears on shoelaces, there’s these images and approaches and techniques that require a very active teacher presence to support the development of it. That’s just kind of interesting to me.

Valerie Henry (14:35):

My initial project, the pilot project that I tried, was to simply ask teachers to follow five key principles. And the first one was to do something in the classroom every day for—I told them, even if you’ve only got five or 10 minutes, work on fluency for five or 10 minutes a day, and let’s see what happens. So that was one key element was just to teach it and to give students opportunities to get what the research calls for when you’re trying to memorize, which is actually immediate feedback. When I talk about immediate feedback with my student teachers, I say, “I’m talking about within one or two seconds of trying a problem, and then sort of immediately knowing, getting feedback of whether you got the answer right or not so that your brain can kind of gain that confidence. ‘Oh, not only did I come up with an answer, but somebody’s telling me it’s the correct answer.’”

Dan Meyer (15:38):

There’s a lot of apps now in the digital world that offer students questions about arithmetic or other kinds of mathematical concepts and give immediate feedback of a sort: the feedback of “You’re right; you’re wrong” sort. Is that effective fluency development, in your view?

Valerie Henry (15:57):

I haven’t heard and I haven’t seen them being super-effective. The ways I think about this are “Immediate feedback isn’t the only thing we need.” Probably one of the biggest things that we need is for students to develop strategies. And this is one of the other things I’ve learned from international research, from countries that do have students who become very fluent very early, is that they don’t shoot straight for memorization, but they go through this process of taking students from doing some counting and then quickly moving them to trying to use logic. So, “Hey, you really are confident that 2 + 2 is 4; so now let’s use that to think about 2 + 3.” Actually, as an algebra teacher, I would much rather have students that have a combination of memorization and these strategies, than students who’ve only memorized. Isn’t that interesting that my most successful algebra students were good strategy thinkers. Not just good memorizers.

Bethany Lockhart Johnson (17:09):

So you mentioned there were five that kind of helped root this idea in like, “What can teachers do? What is the best thing that teachers can do to support with fact fluency?” So, everyday was key.

Valerie Henry (17:22):

Then the next principle that I really focus on is switching immediately to the connected subtractions so that students—

Bethany Lockhart Johnson (17:33):

Not waiting until you’ve gotten all the way through addition. But making “Ooh!”

Valerie Henry (17:38):

Totally. And I didn’t do that the first year. And when we looked at the results of the assessments at the end of the year, we realized that our students were so much weaker in subtraction than addition. So the following pilot year, we tried this other approach of doing subtraction right after the students had developed some fluency with that small chunk of addition. And we got such better subtraction results.

Bethany Lockhart Johnson (18:11):

What are the other principles?

Valerie Henry (18:13):

The biggest one is to use these strategies. So the strategies makes the third. And then the fourth I would say is to go from concrete to representational to abstract.

Bethany Lockhart Johnson (18:27):

Don’t put away those manipulatives. Don’t put away those tools.

Valerie Henry (18:31):

Oh, so important to come back to them for multiplication and division. And my fifth principle is to wait on assessment. To use it as true assessment, but not race to start testing before students have had a chance to go through this three-phase process. Which is conceptual understanding with manipulatives; building strategies, usually with representations; and then working on building some speed until it’s just that natural fluency.

Bethany Lockhart Johnson (19:07):

I wanna say thank you so much for offering your really learned perspective, because you have not only done the research, but seen it in action and seen how shifting our notions of fluency and what fluency can be and what a powerful foundation it can be for all mathematicians. Really, that shift is so powerful. And I appreciate you sharing it with our listeners and with us. So we’re so excited that we got to talk with you today, Val—

Dan Meyer (19:35):

Thank you, Dr. Henry.

Valerie Henry (19:37):

You’re welcome!

Dan Meyer (19:41):

With us now we have Graham Fletcher and Tracy Zager, a couple of people who understand fluency at a very deep and classroom level. I wanna introduce them and get their perspective on what we’re trying to solve here with fluency. So Graham Fletcher has served in education in a lot of different roles: as a classroom teacher, math coach, math specialist, and he’s continually seeking new and innovative ways to support students and teachers in their development of conceptual understanding in elementary math. He’s the author, along with Tracy, of Building Fact Fluency, a fluency kit we’ll talk about, and openly shares so much of his wisdom and resources at gfletchy.com. Tracy Johnson Zager is a district math coach who loves to get teachers hooked on listening to kids’ mathematical ideas. She is a co-author of this toolkit, Building Fact Fluency, and the author of Becoming the Math Teacher You Wish You’d Had: Ideas and Strategies from Vibrant Classrooms. Tracy also edits professional books for teachers at Stenhouse Publishers, including, yours truly. Thank you for all that insight, Tracy, and support on the book.

Bethany Lockhart Johnson (20:49):

Dan and I were talking at the beginning of the episode about things we feel like, “Hey, I’m fluent in that. I’m fluent in that.”

Dan Meyer (20:55):

Just very curious: What’s something you would like to get fluent in outside of the world of mathematics, let’s say?

Tracy Zager (21:00):

I’ll say understanding the teenage brain, as the parent of a 13-year-old and 15-year-old. That’s the main thing I’m working on becoming fluent in!

Bethany Lockhart Johnson (21:10):

Ooh!

Dan Meyer (21:13):

A language fluency, perhaps. All right, Graham. How about you?

Graham Fletcher (21:16):

For me typing, it’s always been an Achilles heel of mine. So voice-to-text has been my friend. But it’s also been my nemesis in much of my texting here and working virtually over the last couple years. So yeah, typing.

Dan Meyer (21:33):

Do you folks have some way of helping us understand the difference in how fluency is handled by instructors and by learners?

Tracy Zager (21:40):

I would say that the lay meaning of fluency is definitely a little different than what we mean in the math education realm. When we’re talking about math fact fluency, which is just one type of fluency. So you gotta think about procedural fluency and computational fluency; there are lots of types of fluency in math. And Graham and I had the luxury of really focusing in specifically on math fact fluency. We’re looking at kind of a subset of the procedural fluency. So the words you hear in all the citations are accurate, efficient, and flexible. There’s this combination of kids get the right answer in a reasonable amount of time and with a reasonable amount of work and they can match their strategy or their approach to the situation. That’s where that flexibility comes in. And there’s like lots more I wanna say about that about sort of…I think one issue that comes up around fluency is that people are in a little bit of a rush. So they tend to think of the fluency as this automaticity or recall of known facts without having to think about it. And that is part of the end goal, but that’s not the journey to fluency. So this is one of the things that Graham and I thought about a lot was the path to fluency. The goal here it’s that student in middle school who’s learning something new doesn’t have to expend any effort to gather that fact. And they might do it because they’ve done it so many different ways that they’ve got it, and now they just know it, or they might be like my friend who’s a mathematician who still, if you say, “Six times 8,” she thinks in her head, “Twelve, 24, 48…” and she does this double-double-double associative property strategy. And it’s so efficient, you would never know. And that’s totally great. That’s fine. That’s not slowing her down. That’s not providing a drag in the middle of a more complex problem or new learning. So we’re really focused on having elementary school students be able to enter the middle and high school standards without having that pull out of the new thinking.

Graham Fletcher (23:53):

And as I think about that, I think about how so many students will memorize their facts, but then they haven’t memorized them with understanding. So that when they move into middle school and they move into high school, it’s almost like new knowledge and new understanding that’s applied from a stand-alone skill.

Bethany Lockhart Johnson (24:10):

So something that felt really unique to me, Graham, as I was diving into the toolkit, is your use of images, Tracy, Graham, is the way that you use images to help students notice and wonder to start making sense of these quantities and the decomposition of numbers using images. Can you talk a little bit about how images played a part in the way that you think about this building a fact fluency?

Graham Fletcher (24:41):

What I realized is so many times when we approach math with just naked numbers with so many of our elementary students, the numbers aren’t visible. The quantities. They can’t see them; they can’t move them. They’re just those squiggly figures that we were talking about earlier on. So how is it that we make the quantities visible, to where students feel as if they can grab an apple and move it around? Because a lot of times we start with the naked numbers and then if kids don’t get the naked numbers, then we kind of backfill it. But what would happen if we start with the images? And then from there, these rich, flourishing mathematical conversations develop from the images. And I think that was the premise and the goal of the toolkit.

Tracy Zager (25:22):

When you look at how fact fluency has traditionally been taught, it’s all naked numbers. And sometimes we wrote ’em sideways. Like, that’s it. That was our variety of task type. Right? Sometimes it’s vertical; sometimes it’s horizontal. And that was it. And I’ve just known way too many kids who couldn’t find a hook to hang their hat on with that. It didn’t connect to anything. And so part of why I knew Graham was the perfect person for this project was his strength in multimedia photography, art, video. And so we started from this idea of contexts that for each lesson string in the toolkit, there’s some kind of context. An everyday object, arranged in some kind of a way that reveals mathematical structure and invites students to notice the properties. So we start with images of everyday objects: tennis balls, paint pots…um, help me out; here are a million of them. Crayons—

Bethany Lockhart Johnson (26:18):

Crayons, markers.

Tracy Zager (26:18):

Shoes, right? Sushi, origami paper, all kinds of things in the different toolkits. So there’s a series of images or a three-act task or both around those everyday objects, and then story problems grounded in that context. And then there are images with mathematical tools that bring out different ideas, but relate in some way to the image talks. And we do all of that before we get to the naked number talk. Which we do, and by the time you get to the number talk, it’s pretty quick, ’cause they’ve been reasoning about cups of lemonade. And now when you give them the actual numerals, they’re all over it.

Bethany Lockhart Johnson (27:03):

I have to say too, as somebody who—particularly in middle school—navigated math anxiety, we recently talked with Allison Hintz and Anthony Smith about their amazing book Mathematizing Children’s Literature.

Tracy Zager (27:14):

Yay!

Bethany Lockhart Johnson (27:14):

And I was explaining, like, if I sat down at the beginning of a math class and my teacher opened a picture book and said, “We’re gonna start here,” I felt my whole body relax. And if we start with this image, if we start with just looking at an image and making sense of an image, I feel like that could be such a powerful touchstone for all the work you do from there.

Tracy Zager (27:41):

That’s core. That’s a core design principle, is that invitational access. There are no barriers to entry. There’s nothing to decode. There’s nothing formal. We’ve been learning from Dan for years about this, right? Of starting with the informal and then eventually layering in the formal. I was in a class in Maine where they were doing an image talk and it’s these boxes of pencils. It’s a stack of boxes of pencils and they’re open and you can see there are 10 pencils in each box. And so there are five boxes of pencils each with 10 pencils in it. And then the next image is 10 boxes of pencils and each box is half full. So now it’s 10 boxes each with five. And the kids are talking and talking and then the third image, I think there are seven boxes each with 10 pencils in it. And she said, “What do you think the next picture’s gonna be?” And this girl said, “You just never know with these people!” <laugh> I dunno!”

Bethany Lockhart Johnson (28:37):

That’s kinda true. Knowing you both, it’s kinda true.

Tracy Zager (28:42):

Like if it’s seven boxes with 10 in it, one kid said, I think it’s gonna be 14 boxes of five. And other kids are like, I think it’s gonna be 10 boxes with seven. And they start talking about which of those there are and the relationships between—

Bethany Lockhart Johnson (28:58):

But they’re making sense of numbers!

Tracy Zager (28:59):

Totally. So all the kids felt invited. They can offer something up. They’re noticing and wondering about that image. They’re talking about it in whatever informal language or home language that they speak. And that was core to us. That was a huge priority, because honestly, one of the motivations to talk about fluency is that it’s always been this gatekeeper. It has served to keep kids out of meaningful math. Particularly kids from marginalized or historically excluded communities. So they’re back at the round table, doing Mad Minutes, while the more advantaged kids are getting to do rich problem solving. And so, we thought, what if we could teach fact fluency through rich problem solving that everybody could access? That was like square one for us.

Bethany Lockhart Johnson (29:45):

That’s huge.

Dan Meyer (29:46):

That’s great to hear. What’s been helpful for me is to understand that students who are automatic, that’s just kind of what’s on the surface of things. And that below that might be some really robust kind of foundation or scaffolding that bleeds to a larger building being built, or it might be just really rickety and not offer a sturdy place to build farther up. It’s been really exciting to hear that. I wonder if you’d comment for a moment about, in the digital age and—I’m at Desmos and our sponsors are Amplify and we all work in the digital world quite a bit. There are a lot of what report to be solutions to the fluency issue, to developing fluency in the digital world. Just lots and lots of them. Some that are quite well used, others that are just like X, Y, or Z app on the market. You can find something. Do you have perspectives on these kinds of digital fluency building apps? Like, what about them works or doesn’t work? Let us know. Graham, how about you? And then Tracy, I’d love to hear your thoughts too.

Graham Fletcher (30:47):

Yeah, I think that’s a great question, ’cause there’s a lot of shiny bells and whistles out there right now that can really excite a lot of teachers. But I always come back to what works for me as a classroom teacher is probably gonna work in a digital world as well. So what are the things that I love and honor most about being in front of students, and how can I capture that in that virtual world? I think one of the things that really helps students make connections is coherence. I think coherence, especially when you leave students for—you don’t get to talk with them after the lesson is done—so I think about how we can purposefully sequence things through a day-to-day basis. I think coherence is something that gets really lost when we talk about fluency, especially with whether it be digital or whether it be print, because what ends up happening is we say, “OK, we have all these strategies we need to teach,” and it becomes a checklist. So how is it that we can just provide students the opportunity to play around in a space, whether it be digital or in person, but in a meaningful way that allows them the time and the space and that area to breathe and think, but be coherent. And connecting those lessons along the way. And I think coherence is one thing that a lot of the times it’s harder to—when we’re in the weeds, it’s so hard and difficult to zoom back out and say, “Do all these lessons connect? How do they intentionally connect? And how do they purposefully connect?” And without coherence, everything’s kind of broken down into that granular level. So when looking at—I think about Desmos and I think about the Toolkit and I think about how Tracy and I talked a lot about, “Well, this, does it connect with the context problem, does it connect with the image talk, or the lessons? Like, how does it all connect and how are we providing students an opportunity to make connections between the day-to-day instruction and lessons that we tackle?”

Tracy Zager (32:44):

I’m reminded of a conversation that Dan, you and I had a long time ago, in Portland, Maine, in a bar. I’ll just be honest. <laugh> And we were talking about how, in the earlier days of Desmos, you were stressed out by what you saw, which was kids one-on-one, on a device, in a silent room. And you were like, no, this is not it. This is not what technology is here to serve. We can do so many things better using technology appropriately, but we can’t lose talk and we can’t lose relationships and we can’t lose formative assessment and teachers listening to kids and kids listening to each other and helping each other understand their thinking. Right? So when I think about the tech that’s out there for fact fluency, most of it is gonna violate all rules I have around time testing. So that a whole bunch of it, I would just toss on that premise. They’re really no different than flashcards. It’s just flashcards set in junkyard heaps. Or, you know, underground caverns. Or with a volcano or whatever. It’s the same thing. There are some lovely visuals—I’m thinking of Berkeley Everett’s Math Flips. Those are really pretty. Mathigon has some really nice stuff that’s digital. And I think that those resources invite you to kind of ponder and notice things and talk about them. All the tools that we design in the toolkit are designed to get people talking to each other, and give teachers opportunities to pull alongside kids and listen in and understand where they are. For example, our games, we didn’t design the games to be played digitally, even though you could, and people did during COVID, because we want kids on the rug, next to each other, on their knees; I’ve seen kids like across tables. I was in a school recently where a kid was like, “I hope you believe in God, ’cause you’re going…!” You know what I mean? <laugh>. Like they’re all pumped up.

Bethany Lockhart Johnson (34:41):

They’re invested!

Tracy Zager (34:45):

They’re psyching each other up and down and they’re interacting and it’s social and the teacher’s walking around and she’s listening to the games. And they don’t actually need any bells and whistles. They need dice and they need counters and they need this game that is actually a game. In all of our conversations, games have to actually be games. Games cannot be “roll and record.” Games have to involve strategy. They have to be fun. So in designing those games, we didn’t feel like it brought any advantage to make that a digital platform. But things that did bring advantages digitally, like the ability to project these beautiful images or to use short video in the classroom, that really was a value-add that enabled us to do something different in math class than we had done before, and to get kids talking in a different way than they ever had before. When I think about fluency, historically, if you say like, “OK, it’s time to practice our math facts,” you hear a lot of groans. And when I see a Building Fact Fluency classroom and I say, “OK, it’s BFF time!” There’s like a “YEAAAAHHH!” You know? And so that’s what we’re after.

Graham Fletcher (35:47):

It’s all about kids, really, for us. And I think at the heart of it, we made all the decisions with teachers and kids at the forefront of it.

Tracy Zager (35:55):

I know of high schoolers who are newcomers, who have experienced very little formal education, and speak in other languages, are using it as high schoolers, because it involves language and math and all the deep work in the properties and it’s accessible, but it’s also not at all condescending or patronizing. Like we designed it to be appropriate for older kids. So that’s just something that I think we’re both really proud of. One thing we thought a lot about, especially in the multiplication-division kit is how a classroom teacher could use it and a coordinating educator in EL, Title, special education, intervention could also use it because there’s so much in it, that students could get to be experts, if they got extra time in it, using something that’s related and would give them additional practice. So they could play a game a little bit earlier than the rest of the classes. And they could come in already knowing about that game, or they could do a related task. We have all these optional tasks that no classroom teacher would ever have time to teach it all. So the special educator could use it and have kids doing a Same and Different or a True/False, or some of the optional games. And then the work in both special education and general education could connect.

Dan Meyer (37:20):

I just wanna say that this is an area that for so many students, as you’ve said, Tracy, it presents a barrier. It’s a very emotionally fraught area of mathematics. And we really appreciate the wisdom you brought here. And just the care you’ve brought to the product itself. Your knowledge of teaching, knowledge of math, and yeah, especially a love for students feels like it’s really infused throughout Building Fact Fluency. If our listeners want to know more outside of this podcast, outside of the product itself, where can they find your words, your voice? Where you folks at these days? Tell ’em, Graham would you?

Graham Fletcher (37:57):

You can find us at Stenhouse, Building Fact Fluency. And then Tracy and I, currently playing around, sharing ideas a lot on Twitter, under the hashtag #BuildingFactFluency. That’s kind of where we can all come together and share ideas. And then also on the Facebook community, where there’s lots of teachers sharing ideas.

Bethany Lockhart Johnson (38:19):

If you were to ask our listeners like, “Hey, if you wanna keep thinking about this, here’s something you could try or here’s something you could go do,” what could be a challenge that we could share that could help us continue this conversation?

Graham Fletcher (38:35):

Online you can actually download a full lesson string. And a lesson string is a series of activities and resources that are purposefully connected. You can pick one or two of those from the Stenhouse web site, Building Fact Fluency. You can try the game. You can try one of those strategy-based games. You can try an image talk and just see how it goes. And just share and reflect back, whether on Twitter or on Facebook. But it’s kind of there, if you wanna give it a whirl. And as Tracy was sharing, even if you’re a middle-school teacher or a high-school teacher, we really tried to think about those middle-school and high-school students keeping it grade level-agnostic. Just so every student has those opportunities for those mathematical conversations. So download a lesson string and give it a whirl, and we’d love to hear how it goes.

Dan Meyer (39:25):

Bethany and I will be working the same challenge with people in our life.

Bethany Lockhart Johnson (39:29):

Yes.

Dan Meyer (39:29):

Enjoying some fact fluency with people in our homes, perhaps. We’ll see. And we’ll be sharing the results in the Math Teacher Lounge Facebook group. Graham and Tracy, thanks so much for being here. It was such a treat to chat with you both.

Bethany Lockhart Johnson (39:42):

I love learning with you and just helping to shift this idea of fluency into something that can be accessible and powerful and positive.

Stay connected!

Join our community and get new episodes every other Tuesday!

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

What Valerie Henry says about math

“A lot of very fluent adults don’t always have every fact memorized. ”

– Val Henry

Meet the guest

Valerie Henry has been a math educator since 1986. She taught middle school math for 17 years and has worked as a lecturer at University of California Irvine since 2002. After doing her 2004 dissertation research on addition/subtraction fluency in first grade, Valerie created FactsWise, a daily mini-lesson approach that simultaneously develops  fluency,  number sense, and algebraic thinking. Additionally, she has provided curriculum and math professional development for K-12 teachers throughout her career, working with individual schools, districts, county offices of education, Illustrative Mathematics, the SBAC Digital Library, and the UCI Math Project.

An older person with short gray hair and glasses, wearing a blue sweater, is outdoors with greenery and a fence in the background.
Podcast cover for "Math Teacher Lounge" with Bethany Lockhart Johnson and Dan Meyer; bold text on orange and teal semicircle background.

About Math Teacher Lounge: The podcast

Math Teacher Lounge is a biweekly podcast created specifically for K–12 math educators. In each episode co-hosts Bethany Lockhart Johnson (@lockhartedu) and Dan Meyer (@ddmeyer) chat with guests, taking a deep dive into the math and educational topics you care about.

Join the Math Teacher Lounge Facebook group to continue the conversation, view exclusive content, interact with fellow educators, participate in giveaways, and more!

You might also like:

Screenshot of a virtual meeting with two participants discussing math equations displayed on a shared screen, labeled "Math Teacher Lounge.

Free professional development cours…

Three on-demand professional learning courses for math teachers.  Earn your cert…

Mathigon logo with colorful geometric shapes next to the word "Mathigon" on a dark geometric patterned background.

Mathigon: the mathematical playgrou…

Math games and manipulatives for online and remote learning.

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Amplify Classroom Grades 3–12

Join Amplify Classroom to gain access to free classroom lessons, lesson-building…

Program introduction

Professional learning

What will you find in the Professional Learning section?

Whether you’re launching into a new program or looking to strengthen your skills, Amplify’s professional learning sessions will support your needs.

  • Register now to join new and upcoming learning sessions.
  • On-demand sessions offer timely insights to support your mCLASS implementation.
  • Webinar recordings from 2020-2021 or 2021-2022 ensure you don’t miss a thing.

Amplify is working in partnership with the Kindergarten Assessment Support (KAS) Initiative to provide virtual professional development trainings to teacher, specialists, and campus/district leader users of mCLASS Texas Kindergarten across the state of Texas. These trainings are funded by the KAS Grant and will be provided at no charge to participants. Please note that all content will be focused on kindergarten only.

You will find a list of sessions below that you can register for. Sessions will be updated on an ongoing basis. To register, educators can enter the Session ID number into the Region 4 ESC search bar (https://www.escweb.net/tx_esc_04/) to sign up for the session(s) and to secure a spot or type ‘mclass’ into the search bar; all virtual sessions are capped at 30 participants.

For more information about the KAS Initiative, please visit https://tea.texas.gov/academics/early-childhood-education/data-driven-instruction-best-practices.

View the on-demand sessions for below to gain timely insights to support your mCLASS implementation.

March 2022 
Preparing for the End of the Year (EOY) Benchmark (7:38) Slide Deck of Preparing for EOY Benchmarks session
February 2022 
Download Your Data Report (8:30) Slide Deck of Download Your Data report session
Correlation Report (8:12) Slide Deck of Correlation Report session
2021-2022
RecordingsAssociated resources
Preparing for the Middle of the Year (MOY) Benchmarks, November 2021 (44:11)Slide Deck of Preparing for MOY Benchmarks
ECDS and ERI, October 2021 (53:14)Slide Deck of ECDS and ERI
IDEL Boost, August 2021 (52:38)Slide Deck of IDEL Boost

All mCLASS Texas Edition users will have access to free online modules. Contact your district for details about accessing these modules.

For those districts that want to support teachers in a more comprehensive approach we will work to ensure that the professional learning section supporting each mCLASS Texas Edition rollout meets each district’s unique needs. Here is a professional learning catalog to show the breadth and depth of what we offer.

Remote assessment

mCLASS Texas Edition can be administered in many ways, including remotely. This site will give guidance on the various ways to administer mCLASS Texas Edition to best support your students in any learning environment.

Watch the Remote Assessment Guidance Office Hours recording here.
Documents referenced during Office Hours are linked below.

Administrators, welcome to mCLASS Texas Edition!

Here you’ll find information about enrollment and licensing, technical requirements, professional learning resources, and more.

Onboarding: What to expect

Welcome to mCLASS Texas Edition! To help you know what’s coming next, we created the following visual that outlines the steps of the onboarding process. You can use it as a reference.

Illustration depicting a step-by-step process for professional learning and enrollment, featuring icons for requests, calls, enrollment, emails, online modules, and classroom applications.

Enrollment and licensing

Amplify provides services to fit the different types of enrollment needs for various times of year:

  •  Self-Service Enrollment (SSE) is a batch enrollment tool that you can use to import large amounts of student, staff, and class information into the Amplify system at the beginning of the school year or any time you need to update your enrollment data.
  • Auto Self-Service Enrollment (Auto SSE) is a service for automatically sending enrollment data from your computer to Amplify, which does not require intervention after you initiate the process, and which can be run at any time of year. You must have the ability to run scripts in order to use Auto SSE.
  • Amplify also offers the Manual Enrollment tools on the Amplify Administration page, which you can use at any time of year to add or update enrollment information by entering the information directly into Amplify, rather than uploading spreadsheets.

Preparing your materials

Click here to access a list of the print materials included in each mCLASS Texas Edition kit.

Image of a promotional flyer for mclass® texas, detailing educational materials for teaching literacy to students from kindergarten through 6th grade, with various text sections and an image of a child studying.

Technology requirements and guidelines

To ensure that your hardware and network meet the minimum technical requirements for optimal performance and support of your digital curriculum products, please see Amplify’s customer requirements page.

To ensure access to mCLASS, add the URLs on this page to your corresponding district or school-level filters.

Teachers, welcome to mCLASS Texas Edition!

Here you’ll learn about the program, how to set up your device, and how to get help when using mCLASS Texas Edition.

Onboarding: What to expect

A step-by-step guide for mCLASS preparation: review launch email, watch training module, log in to mCLASS, set up assessment device, prepare to teach mCLASS in the classroom.

Logging in to mCLASS Home

mCLASS Home is where you access mCLASS reporting, instruction, and other helpful resources. Follow these steps to log in:
1. Navigate to mclass.amplify.com.
2. You will need your Amplify user name and password to log in. If you forget your password, you can follow the instructions below to generate a new one.

  • Click “Forgot Password”
  • Enter your Amplify username and your district or school email address. Click Send. Then follow the instructions in the email you receive to reset your password.

If you have not received an Amplify username and password, please contact your
school or district administrator.

Setting up your assessment device

Assessments are administered using the mCLASS app. The mCLASS app is installed by creating a shortcut from Chrome™ (Safari for iPads) on your device’s desktop or home screen. Click the link for your device for installation instructions:
iPad
Chromebook
Windows device

Note that you need your Amplify username and password to install the mCLASS app. If you have not received it, please contact your school or district administrator.

Dyslexia screening

mCLASS® Texas DIBELS® 8 and IDEL assess the updated skills required for dyslexia screening. We’ve got you covered!

Click here to learn more about the Texas Dyslexia handbook updates.

Looking for help?

Our technical and pedagogical support teams are available from 7 a.m. to 7 p.m. ET, Monday through Friday.

For your most urgent questions

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

For less urgent questions, send us an email!

Core Principles:

These core principles guide our operations, employee behavior and product development:

  • Customer Control: We help school districts securely manage their personally identifiable student information. The districts direct our use of the data, and control who has access to that data and with whom it is shared.
  • Educational Purpose: Personal student information can only be used for customer-authorized purposes to support student learning through the secure and effective operation of our educational tools. 
  • Transparency: School districts, teachers, parents and students have the right to know what information is collected by school technology, how it is used and by whom, as clearly described in our privacy policy.
  • Commitment: Privacy and security are thoroughly embedded into our organizational practices. We dedicate substantial resources to systems, processes and personnel required to protect student information.

Amplify Data Privacy and Security Practices:

Amplify maintains a customer data privacy policy that explains our data collection, handling and use practices. 

Amplify also maintains a data security policy that explains how student data is protected from unauthorized access.  Data security practices at Amplify are developed and maintained in accordance with the internationally recognized ISO27002 security standards.  In addition, Amplify has successfully completed the SOC 2 Type 2 examination of controls relevant to security and conducts such examination on an annual basis. 

For more information, please review our customer privacy policy and security practices. If you have additional questions, please contact us at privacy@amplify.com.  

State Law Compliance

Amplify has entered into Data Privacy Agreements (DPAs) with districts across the country to facilitate compliance with applicable laws governing student data privacy. These DPAs can be applied to any Amplify product.

Unless otherwise noted, the DPAs are based on the Student Data Privacy Consortium’s (SDPC) model agreement which was created to simplify the contracting process between providers and local education agencies (LEAs) while ensuring LEAs have the necessary data protection obligations in place with providers. For additional information please visit the SDPC website and select your state.

General Offer of Privacy Terms:
To expedite your district’s need for a DPA and streamline the contracting process, we have compiled the following DPAs, listed by state.

By executing the General Offer of Privacy Terms, your LEA can “piggy back” off an existing DPA that other LEAs in your state have already agreed to. If you do not see your state below, please contact privacy@amplify.com.

Instructions: 
(i) Please download the General Offer of Privacy Terms, (ii) sign and send the executed copy to your Amplify account representative, and (iii) retain a copy for your records. If you have any questions please reach out to privacy@amplify.com.

*Please note, states marked with an asterisk do not have a General Offer of Privacy Terms; however, please review the instructions below on how to quickly implement a DPA in compliance with your LEA’s state law.

Arizona: To enter into Amplify’s AZ-NDPA-V1, please sign the General Offer of Privacy Terms

Arkansas: To enter into Amplify’s AR-NDPA-V1, please sign the and General Offer of Privacy Terms

California: To enter into Amplify’s CA-NDPA, Version 1.5, please sign the General Offer of Privacy Terms

Connecticut*
To facilitate your district’s compliance with the requirements of Connecticut’s student data privacy law (Connecticut General Statutes §§ 10-234aa through 10-234dd), Amplify is proud to offer our “Connecticut Terms of Service Addendum” linked below. This Addendum supplements Amplify’s Terms and Conditions for use of Amplify products licensed by the district available at https://amplify.com/customer-terms.
Addendum: Connecticut Terms of Service Addendum
Instructions: Please retain a copy for your records – no further action is required.

Florida: To enter into Amplify’s FL-NDPA, Version 1.0, please sign the General Offer of Privacy Terms

Hawaii*
Amplify has entered into a Data Sharing Agreement with the Hawaii State Department of Education (HIDOE) which applies to any LEA associated with HIDOE. If your LEA is not a part of the HIDOE and you require a data privacy agreement, please reach out to privacy@amplify.com.

Illinois: To enter into Amplify’s IL-NDPA (which includes the IL State Supplemental Terms), please sign the General Offer of Privacy Terms

Iowa: To enter into Amplify’s IA-NDPA (which includes the IA State Supplemental Terms), please sign the General Offer of Privacy Terms

Maine: To enter into Amplify’s MA-ME-MO-NH-NY-OH-RI-VT DPA, Version 1 (which includes the ME State Supplemental Terms), please sign the General Offer of Privacy Terms 

Massachusetts: To enter into Amplify’s MA-ME-MO-NH-NY-OH-RI-VT DPA, Version 1 (which includes the MA State Supplemental Terms), please sign the General Offer of Privacy Terms

Missouri: To enter into Amplify’s MO-NDPA, Version 1.0, please sign the General Offer of Privacy Terms

Montana: To enter into Amplify’s MT DPA, Version 3, please sign the General Offer of Privacy Terms

Nebraska: To enter into Amplify’s NE NDPA (which includes the NE State Supplemental Terms), please sign the General Offer of Privacy Terms

New York*
Option 1:
To facilitate your district’s compliance with the requirements of New York State Education Law § 2-D and regulations promulgated thereunder, Amplify is proud to offer our “New York Data Privacy and Security Addendum” linked below. This Addendum supplements Amplify’s Terms and Conditions for use of Amplify products licensed by the educational agency available at https://amplify.com/customer-terms.
Addendum: New York Data Privacy and Security Addendum
Instructions: Please retain a copy for your records- no further action is required.
Option 2:
To enter into Amplify’s MA-ME-MO-NH-NY-OH-RI-VT DPA, Version 1 (which includes the NY State Supplemental Terms), please sign the General Offer of Privacy Terms

New Hampshire: To enter into Amplify’s MA-ME-MO-NH-NY-OH-RI-VT DPA, Version 1 (which includes the NH State Supplemental Terms), please sign the General Offer of Privacy Terms

North Carolina*
The Data Confidentiality and Security Agreement issued by the North Carolina Department of Public Instruction (NCDPI) is not applicable to Amplify’s services given Amplify does not have a direct integration to any state system via API/plugin. You can review the NCDPI guidance here: https://www.dpi.nc.gov/about-dpi/technology-services/third-party-data-integration. However, Amplify can sign this form with some revisions. As such, we have prepared an Addendum which supplements the Data Confidentiality and Security Agreement.
Instructions: Please download a copy of the Data Confidentiality and Security Agreement with Amplify Addendum, return an executed copy to your account executive, and retain a copy for your records.

Ohio: To enter into Amplify’s OH-NDPA Version 1.0, please sign the General Offer of Privacy Terms

Oregon: To enter into Amplify’s OR-NDPA-V1, please sign the General Offer of Privacy Terms

Rhode Island: To enter into Amplify’s MA-ME-MO-NH-NY-OH-RI-VT DPA, Version 1 (which includes the RI State Supplemental Terms), please sign the General Offer of Privacy Terms

Tennessee: To enter into Amplify’s TN-NDPA-V1, please sign the General Offer of Privacy Terms

Texas: To enter into Amplify’s TX-NDPA-V1R6, please sign the General Offer of Privacy Terms

Utah: To enter into Amplify’s UT-NDPA, Version 1, please sign the General Offer of Privacy Terms

Vermont: To enter into Amplify’s MA-ME-MO-NH-NY-OH-RI-VT DPA, Version 1 (which includes the VT State Supplemental Terms), please sign the General Offer of Privacy Terms

Virginia: To enter into Amplify’s VA-DPA, please sign the General Offer of Privacy Terms

Washington: To enter into Amplify’s WA-NDPA, Version 1, please sign the General Offer of Privacy Terms

Wisconsin: To enter into Amplify’s WI SDPA, Version 1, please sign the General Offer of Privacy Terms

Wyoming: To enter into Amplify’s WY-NDPA-V1, please sign the General Offer of Privacy Terms

Welcome, North Carolina educators!

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Welcome, North Carolina educators!

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Amplify’s universal and dyslexia screening in one too

Measure what matters 

Table listing literacy skills assessed in the "screening area" and "mclass assessments," with check marks indicating coverage of specific skills like phonological awareness and reading fluency.

mCLASS® with DIBELS 8th Edition® provides a formative assessment solution that supports the identification of students at risk for reading difficulties, including difficulty related to dyslexia. DIBELS 8th Edition was developed by the University of Oregon with the primary focus of ensuring that the measures are able to meet state-level dyslexia screening requirements.

How mCLASS identifies students at risk of dyslexia

When screening for risk, nothing can replace the power of listening to a child read—listening to their strengths as a reader AND their struggles.

With mCLASS, teachers administer predictive one-minute assessment measures that involve listening to students interact with sounds, letters, words, and text while screening for reading difficulties.

Table showing academic performance metrics for grade 1 students at the beginning of the year, highlighted row for student jon bell with various scores.

Identifying at-risk students: What comes next?

Research and statistics about dyslexia in early literacy

90 percent of students who struggle in third grade will continue to struggle at the end of elementary school if they do not receive the intervention.

74 percent of students who are poor readers in third grade will be poor readers in ninth grade, and, in general, have a higher risk of academic failure and school dropout.

According to a 2015 National Assessment of Educational Progress study, only 35 percent of fourth-grade students were proficient in reading. Most of these children will spend the rest of their time in school trying to catch up

mClass solutions

mCLASS Instruction provides teachers with a single view of the personalized, blended instruction (teacher-led and online) that is available to support individual student or small-group needs in skill areas directly assessed in the mCLASS assessment.

Employ teacher-led instruction for whole classes, small-groups, and individual students, including activities created by Susan Hall, author of I’ve DIBEL’d, Now What, are provided for skill practice.

Additional instructional resources for comprehension include grade-level passages that provide more practice.

Get online student instruction and practice with Amplify Reading, which places students in a personalized instruction path based on mCLASS assessment data and adapts based on progress in the curriculum. Students engage with skills-based games as well as an eReader.

Receive rigorous, teacher-led intervention with mCLASS Intervention to address students most in need of support.

Teachers can download a letter with student assessment results to send home to parents and guardians, or use as a basis for discussion at conferences. Home Connect letters describe how the measures relate to skills development. Progress bars indicate the student’s performance on each measure.

Home Connect extends reporting to parents and guardians in a way that is easily understood and provides suggestions for positive action.

Dylexia Resources and Materials

Resources

Dyslexia toolkit

Cover of a "dyslexia toolkit" brochure with images of children engaged in various classroom activities including reading, writing, and working in groups, and a teacher leading a class.

View now

Dyslexia Screening and Dibels 8th edition

View now

Connecting the science of reading to assessment

Recorded on: Tuesday, February 4, 2020 at 2–3 p.m. ET

What exactly does the science of reading say about early literacy assessment? Hear from an expert on how to align assessment to the science of reading.

Register and watch now on demand

Science of Reading toolkit

Illustration of a person holding a book with colorful ribbons flowing out, symbolizing streams of knowledge, alongside text about using science reading insights.

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mCLASS with Amplify Reading offers Amplify Reading’s engaging and adaptive instructional layer alongside mCLASS’s best-in-class literacy assessment. Simply complete the form to request a demo, and an Amplify sales representative will be in touch.

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Spanish supports for Amplify Science

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

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Elementary school

COMPONENTTEACHER/STUDENT
Student Investigation NotebookStudent
Student BooksStudent
Big Books (Grades K–1)Teacher
Assessments and copymasters (included in the Unit Materials Notebook)Teacher
Printed classroom materials (Unit and chapter questions, key concepts, vocabulary cards, etc.)Teacher
COMPONENTTEACHER/STUDENT
Student Books with Spanish audio (delivered as part of the digital classroom library add-on license)Student
Unit Materials notebook, which is located on the Unit Guide and contains all copymasters, print assessments, app guides (i.e. instructions), and video transcripts.Teacher
ProjectionsTeacher
All model teacher talkTeacher
Downloadable PDFs of all print materialsTeacher
CopymastersTeacher
Videos, including closed captionsTeacher and student
Digital Apps (i.e. Sims, Modeling Tools, etc.)Teacher and student
Completed Argumentation Wall DiagramTeacher

Middle school

COMPONENT
TEACHER/STUDENT

Student Investigation Notebooks with Article Compilations

Student

Video transcripts and Digital simulation translation key Included in the Unit Materials Notebook

Teacher

Assessments and copymasters Included in the Unit Materials Notebook

Teacher

Printed classroom materials

Teacher

Unit and chapter questions, key concepts, vocabulary cards, etc.

Teacher
COMPONENT
TEACHER/STUDENT

Spanish Student Experience License. Includes access to:

  • Instructional text
  • Articles for download
  • Assessments
  • Videos with audio and closed captions

Student

Spanish Teacher Support License. Includes access to:

  • Unit Materials Notebook (located on the Unit Guide and contains all copymasters, print assessments, Active Reading Guidelines, app guides (i.e. instructions), and video transcripts)
  • Projections
  • All model teacher talk
  • Downloadable PDFs of all print materials
  • Copymasters
  • Videos, including closed captions
  • Digital Apps, on a rolling basis (i.e. Sims, Modeling Tools, etc.)
  • Student-view of lesson instructions
  • Completed Argumentation Wall Diagram

Teacher

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

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

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

Program overview

Amplify Science California is a brand-new blended science curriculum for grades TK–8 that meets 100 percent of the Next Generation Science Standards and the California Science Framework. With Amplify Science California, students learn to talk, read, write, think, and argue like real scientists and engineers through investigations of real-world problems and scientific phenomena, gaining the skills needed to master the California NGSS.

In Amplify Science, students take on the role of a scientist or engineer and are introduced to a relevant, real-world problem. They engage in investigations using hands-on materials, reading selections, rich media, and more to draft, strengthen, and defend their claims about the unit anchor phenomenon and how to solve the problem.

The Amplify Science assessment system is grounded in the principle that students benefit from regular and varied opportunities to demonstrate understanding through performance. Read more about Amplify assessments in Grades K-5 and 6-8.

A powerful partnership

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

The logo for The Lawrence Hall of Science, University of California, Berkeley, features blue text on a light background and is recognized by educators using Amplify Science for middle school science programs.

The University of California, Berkeley’s Lawrence Hall of Science is a recognized leader in PreK-12 science education, producing groundbreaking curriculum products for more than 40 years, including the international award-winning Seeds of Science/Roots of Reading®. The Hall’s curriculum materials are used in one in four classrooms across the nation.

Read more about The Hall’s research-proven Do, Talk, Read, Write, Visualize multimodal learning model.

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Amplify has been pioneering digital education products for more than 15 years, empowering teachers across the country to offer more personalized instruction and accelerate the potential of their students to become more active, engaged learners. Amplify has supported more than 200,000 educators and three million students in all 50 states.

Designed in California for California

Since their release in 2013, the Next Generation Science Standards (NGSS) have raised the bar for science education. Moving the focus of instruction away from memorization and toward active engagement and critical thinking, the standards teach students to think like scientists and engineers and grapple with core scientific principles, in addition to supporting deep learning of concepts that cut across science domains. Amplify Science has been designed from the ground up to meet 100 percent of the Next Generation Science Standards and respond to the instructional shifts called for by the National Research Council’s Framework for K–12 science education (2012).

Classroom Slides (grades K–8)

Digital collage of various devices displaying educational content about earth’s energy system, including graphs and text explanations.

Science time just got a whole lot easier. With our new Classroom Slides, you can put down the Teacher’s Guide and focus on what matters most—your students. Plus, with Classroom Slides, lesson prep is as quick as a click!

Classroom Slides are:

  • Available for back to school 2020–2021, for grades 6–8. Classroom slides are already rolling out for grades K–5.
  • Downloadable for offline use, which means no more sweating unreliable internet connections.
  • Streamlined for easy lesson delivery, including lesson visuals, activity instructions and transitions, animations, investigation setup videos, technology support, and more.
  • Fully editable, allowing you to incorporate your own flavor, flair, and favorite resources.

Classroom Slides are available as downloadable PowerPoint files to help guide you and your students through the lesson with images, videos, questions, and instructions. Slides for grades 6–8 will be released on a rolling basis over the course of the 2020-2021 school year. Below you’ll find a prototype from the Earth’s Changing Climate unit.

A brochure on K–5 slides can be downloaded here.
A flyer on 6–8 slides can be downloaded here.

Transitional Kindergarten

Amplify Science TK includes three units, one for each science domain: Earth science, life science, and physical science. The physical science unit includes an engineering design challenge.

Three circular icons representing Earth Science (sun over horizon), Life Science (butterfly and leaf), and Physical Science (book and magnet), each labeled below with its respective field.

Units are structured to allow you to make decisions about how best to teach your students and include options for whole-group, small-group, and center-based instruction.

Learn more about the program.

Start your review

If you have received Amplify Science California materials for review, fill out the form and select the course model you are interested in to access the digital Program Guide and supporting materials. For technical questions regarding your review, contact support at (844) 505-4621 or CAreviewersupport@amplify.com.

Vulnerability Disclosure Policy

As a provider of technology solutions to schools, Amplify’s commitment to data privacy and security is essential to our organization. Amplify demonstrates that commitment in part through the physical, technical, and administrative safeguards we maintain to protect student data and other sensitive information entrusted to our care.

Amplify looks forward to working with the security community to find security vulnerabilities and support our efforts to keep our data and systems safe and secure.

Before reporting a vulnerability, please read our program rules, eligibility overview, report submission rules and guidelines, legal terms, and out-of-scope list set out below.

General Rules

  • We appreciate reports on any Amplify-owned asset, but only vulnerabilities that prove to be outside of expected behavior are eligible for acceptance.
  • Reports involving third party services or providers not under Amplify’s control are out-of-scope for submission.
  • Amplify places a high priority on privacy. Vulnerabilities in the areas of inadvertent exposure of our customers’ personally identifiable information (PII) are considered to be of Critical severity.
  • We classify vulnerability severity per CVSS (the Common Vulnerability Scoring Standard). These are general guidelines, and the ultimate decision over a reward – whether to give one and in what amount – is a decision that lies entirely within our discretion on a case-by-case basis.
  • In order to receive an award for validated reports, you must have a HackerOne account. Please note reward decisions are subject to the discretion of Amplify. Please note these are general guidelines, and that reward decisions are subject to the discretion of Amplify.
  • Only interact with test accounts that you created via self sign-up or were provided by Amplify. The use of any credentials outside of these areas for testing purposes, including legacy credentials supplied through the program and leaked credentials from third parties is strictly prohibited.
  • Do not contact Amplify’s customer support for questions or to submit a vulnerability report.
  • Amplify may, in its sole discretion, disqualify you if you breach this policy or fail to comply with any of the program’s rules and terms.
  • Amplify reserves the right to cancel or modify this program without notice at any time.

Eligibility

  • You are not eligible for participation if you 1) are employed by Amplify or any of its affiliates 2) are an immediate family member of a person employed by Amplify or any of its affiliates or 3) left the employment of Amplify or its affiliates or subsidiaries within the past (12) months.
  • You are not eligible for participation if you have been prohibited in writing from participating in the Bug Bounty Program by Amplify at any time.
  • You may not be in violation of any national, state, or local law or regulation with respect to any activities directly or indirectly related to conducting your tests.
  • You may not compromise the privacy or safety of our customer and the operation of our services;
  • You may not cause harm to Amplify, our customers, or others;
  • You must follow the policy guidelines to responsibly disclose vulnerabilities to Amplify.

Vulnerability Submission Rules & Guidelines

  • Any testing conducted on customer data or accounts is strictly prohibited and will result in removal from the program.
  • If during the course of testing you encounter any sensitive data outside of your test accounts (including student or teacher names, login info, assessment data, activity data, and student work, etc.), please cease testing immediately and report what you have found. DO NOT include any text, screenshots, etc. with PII in the report. This action safeguards both potentially vulnerable data and yourself.
  • Do not access, download, or share any data you encounter in your testing.
  • Only interact with test accounts that you created or that we provided. The use of any credentials outside of these areas for testing purposes is strictly prohibited.
  • Provide detailed reports with reproducible steps. If the report is not detailed enough to reproduce the issue, the issue will not be eligible for a reward.
  • In some cases, you may not have all of the context information to assess the impact of a vulnerability. If you’re unsure of the direct impact but are reasonably certain that you have identified a vulnerability, we encourage you to submit a detailed report and state the open questions on impact.
  • When duplicate submissions for the same vulnerability occur, we only award the first report that was received, provided that it can be fully reproduced.
  • Multiple reports describing the same vulnerability against multiple assets or endpoints must be submitted within a single report.
  • Avoid destruction of data and interruption or degradation of our service.
  • Proof of Concept (POC) videos that do not include PII are highly recommended to help verify the issue, provide clarity, and save time on triage.
  • Please provide timely responses to any follow-up questions and requests for additional information.
  • Understand that there could be submissions for which we accept the risk, have other compensating controls, or will not address in the manner expected. When this happens, we will act as transparently as we can to provide you with the necessary context as to how the decision was made.
  • Reports submitted using methods that violate policy rules will not be accepted and may result in account suspension from/denial of entrance to the program.
  • Please refer to any noted out-of-scope areas listed under Out-of-Scope Vulnerabilities.

Out-of-Scope Vulnerabilities

When reporting vulnerabilities, please consider (1) attack scenario / exploitability, and (2) security impact of the bug. The following issues are considered out-of scope. In addition, please refer to any noted Out of Scope areas listed under the program assets.

  • Social engineering (e.g. phishing, vishing, smishing) is prohibited.
  • Clickjacking on pages with no sensitive actions.
  • Unauthenticated/logout/login CSRF.
  • Attacks requiring MITM or physical access to a user’s device.
  • Previously known vulnerable libraries without a working Proof of Concept.
  • Comma Separated Values (CSV) injection without demonstrating a vulnerability.
  • Missing best practices in SSL/TLS configuration.
  • Any activity that could lead to the disruption of our service (DoS).
  • Content spoofing and text injection issues without showing an attack vector/without being able to modify HTML/CSS.
  • XSRF that requires the knowledge of a secret.
  • Automated tools that could generate significant traffic and possibly impair the functioning of our services.
  • Testing or demonstrating the ability to upload unlimited audio/video files to exhaust resources.
  • Leaked credentials from third party providers, including invalid or stale employee credential dumps, and/or leaked personal information of Amplify staff.
  • Leaked credentials for Amplify customers not caused by vulnerabilities in our systems.
  • Vulnerabilities identified via third party services or providers where Amplify is not the owner.
  • Issues that merely result in spam/annoyance without additional impact (e.g sending emails without sufficient rate limiting)
  • Attempts to access our offices or data centers.
  • Any activity that could contribute to the disruption of our service (DoS). Automated scanning tests should be kept to 10 requests per second or less.
  • Self XSS.
  • Broken links and/or crashes in general.
  • Issues that require unlikely user interaction.
  • Issues that do not affect the latest version of modern browsers
  • Issues that require physical access to a victim’s computer/device.
  • Disclosure of information that does not present a significant risk
  • Please refer to any noted out-of-scope areas listed under program assets.

Legal

  • Any information you receive or collect about us, our affiliates or any of our users, employees or agents in connection with the Bug Bounty Program (“Confidential Information”) must be kept confidential and only used in connection with the Bug Bounty Program. You may not use, disclose or distribute any such Confidential Information, including without limitation any information regarding your Submission, without our prior written consent. You must get written consent by submitting a disclosure request through the HackerOne platform.
  • Researchers must follow HackerOne’s disclosure guidelines. Public disclosure or disclosure to other third parties without the explicit permission of Amplify is prohibited.
  • We will not take legal action against you if vulnerabilities are found and responsibly reported in compliance with all of the terms and conditions outlined in this policy.
  • Amplify reserves the right to modify the terms and conditions of this program without notice at any time, and your participation in the Program constitutes acceptance of all terms.

Submit Vulnerability Report

What does problem-based math learning unlock for students? Part 3

Webinar series recap, part 3 of 3

We hope you’ve enjoyed reading about—and watching—parts one and two of our three-part webinar series on student-centered learning. The earlier segments explored the thinking and framework behind student-centered instruction.

In this section—a sneak peek at a new lesson from Desmos Math 6–A1—we explore what it actually looks like in practice (and in a fish tank).

Read on for a look at how problem-based math instruction creates memorable learning experiences, and how you can find inspiration to do the same in your classrooms. (Impatient to find out? You can also just go straight to the full recording!)

Carlos’s fish: A different type of real-life problem

The idea for this lesson arose from the real-life experience of Desmos Classroom engineer Carlos Diaz, who found himself in possession of a “magic” toy aquarium. (For more of the entertaining backstory, watch the demo!)

The aquarium contained small fish that grow when you add water—by up to 400%, according to the package.

Takeaway 1: We are always surrounded with inspiration for student-driven math lessons, we just have to keep our eyes open.

Takeaway 2: Green did keep his eyes open, and they were drawn immediately to that 400%. He was skeptical—”At 400% larger, will they even fit?”—and then inspired. “We need to test this thing out,” he thought.

A stream of other questions came forth: Does the scale factor apply to lengths, volumes, something else? Would the growth be linear, or exponential? (Would Carlos ever have to clean the tank?)

The power of open-ended questions

We can’t tell you how large the fish grew (spoiler!) but we can tell you that they did (metaphorically) bust out of their tank and into a lively math lesson.

In the lesson, students look at the toy and are asked: What do you see? What do you notice? What do you wonder?

This type of question helps form the basis of student-centered learning. Here, students are not presented with a fixed set of variables and parameters and asked to solve strictly within them. Rather, they’re presented with a relevant or real-world problem and invited to reference background knowledge, previously learned content, new information, and even imagination.

Potential for exponential growth

From there, a teacher can guide students to make connections between a situation in context and the type of solution or equation that might be relevant. Students can explore collaboratively why one strategy might work better than another.

In this case, a teacher can help students determine that they’ll need to calculate exponential growth (mass), and support them in deciding the best way to do so. Then, having arrived thoughtfully at an approach, they can actually solve the problem and find an answer.

In other words, teachers leading student-driven learning transfer responsibility to those students. Teachers set up the lessons and activities and then provide just enough information and scaffolding to allow students to learn and reinforce math concepts, apply knowledge, and discover new approaches.

Let’s put it this way. Science has found that—contrary to popular belief—goldfish can remember things for not just weeks or months, but years. With student-focused learning, your students will, too.

Learn more.

Register for a free trial for access to this and other lessons. 

Learn more about Amplify Desmos Math

Watch the webinar.

Subscribe to Math Teacher Lounge.

Welcome, Oakland Steering Committee!

Thank you for considering Caminos Lectoescritura—our new authentic Spanish skills program for grades K–2.

Within this site, you’ll find:

  • Large-grain resources: Program overview, research basis, and scope and sequence
  • Medium-grain resources: Program components and digital supports.
  • Small-grain resources: Digital navigation support and demo account access.
A colorful illustration featuring a child playing guitar, a llama, an iguana, a parrot, and various mexican cultural elements like a cactus and papel picado, with the word "hola!" displayed.

Large-grain resources

Amplify Caminos is an authentic elementary Spanish language arts program, grounded in the Science of Reading and built from the ground up for the Spanish language.

The Lectoescritura strand of Amplify Caminos provides explicit, systematic foundational skills instruction that was distinctly developed with the Spanish language in mind.

A red circle with the Spanish letter "ñ" in white at the center, surrounded by white text fragments like //rr//, //ch//, //pa//, and //sa//.
Colorful illustration depicting a tropical scene with a volcano, wildlife, and a child in traditional attire, surrounded by symbols of ancient civilization and nature.

Program guide

Learn more about key program features and how the program works.

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

Research brief

Learn more about the research behind Amplify Caminos.

A multicolored braid diagram shows strands labeled with reading skills, becoming more intertwined from “increasingly strategic” to “increasingly automatic.”.

Program scope and sequence

Explore how the program unfolds and builds over the course of the year.

Medium-grain resources

Amplify Caminos is not a direct translation of Amplify CKLA—the English language arts counterpart to Caminos.

Instead, it features an instructional pathway, scope and sequence, and set of components that address the unique ways in which students learn the Spanish language—whether in the classroom or learning from home.

Two students work on laptops in a classroom; next to them is an illustration of a cat on stage under a spotlight, and a speech bubble with the Spanish letter "ñ.
Three children in school uniforms sit on the floor reading books together, with several colorful books spread out in front of them.

Program components

Take a closer look at the program’s authentically designed components.

Five illustrated Spanish children's books are arranged together, featuring colorful covers with diverse characters and animals, including a llama, a cactus, and children.

Spanish Decodable Readers

Our authentic decodable readers play a key role in developing foundational skill…

A laptop screen displays a Spanish kindergarten lesson page titled "Instrucción diaria: comience a planificar el día," with knowledge units shown as illustrated cards.

Digital components

Learn more about the digital experience coming soon for the 2023 school year.

Small-grain resources

In addition to reviewing the printed resources shipped to the district, we’ve created a digital demo site for you to explore grade-level materials. Simply follow the steps below to get started.
 
Step 1: Watch this video >
This video provides a walkthrough of how to navigate our Teacher Resource site.

Demo access

Step 2: Explore the site

  • Click the orange button below to access the site.
  • Enter this username: t1.k5cklacaminos@demo.tryamplify.net
  • Enter this password: Amplify1-k5cklacaminos
  • When prompted, select your desired grade level.
  • Next, click the Daily Instruction link in the top right navigation bar.
  • Then, click the Español button above the navigation menu on the left side of the page.
  • Last, click on any Lectoescritura unit tile to explore the Teacher Guide, Student Activity Book, and Digital Materials for that unit.
Access the Teacher Resource site

Contact us

Support is always within reach. Our team is dedicated to supporting Oakland USD and can be reached at any time by emailing or calling us directly.

Lisa Marinovich

Senior Account Executive

(831) 461-4187

lmarinovich@amplify.com

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Brycé Pesce

Biliteracy Specialist

(805) 345-6024

bpesce@amplify.com

S3-01: Science as the underdog, and the research behind it

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

Get ready for season 3 of Science Connections: The Podcast!

In our first episode, we unpack the research around our season theme of science as the underdog with Horizon Research, Inc. Vice President Eric R. Banilower and  Senior Researcher Courtney Plumley. Eric and Courtney dive into the research they’ve found and their experiences as former educators to show how science is often overlooked in K–12 classrooms. We discuss how the science classroom compares to other subjects in terms of time and resources, how schools are a reflection of society, and what’s needed to change science and its impact on a larger scale.

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

DOWNLOAD TRANSCRIPT

Courtney Plumley (00:00):

We asked teachers how much science, professional development, they’ve had in the last three years, and nearly half of elementary teachers said none.

Eric Cross (00:10):

Welcome to Science Connections. I’m your host, Eric Cross. I am super-excited to be kicking off the third season with the show. This entire season will be exploring the theme of science as the underdog. And we’re gonna make the case for science, by showing how and why it can be used more effectively. In the coming episodes, we’re gonna talk about how science can be better integrated into other content areas like literacy and math, and explore some of the benefits that you might not be thinking about good science instruction. But first, science as the underdog. I bet some of you out there feel like science is the underdog in your community at school. I know I have at times. To kick off this season, I’m gonna talk to two people who really studied this question by looking at the state of science instruction across the US. Eric Banilower is Vice President of Horizon Research and Courtney Plumley is Senior Researcher at Horizon Research. Eric was the principal investigator and Courtney an author of the latest in a series of studies called “The National Survey of Science and Mathematics Education.” We’re gonna dive into the findings of their most recent report to see what the data’s showing us. Please enjoy my discussion with Eric Banilower and Courtney Plumley. Courtney, hello. And thank you so much for joining us.

Courtney Plumley (01:25):

Hi Eric. It’s nice to be here.

Eric Cross (01:26):

And Eric, welcome.

Eric R. Banilower (01:27):

We’re thrilled to be here, so thank you for having us.

Eric Cross (01:30):

I was reading through the report. Four hundred…a very thorough report, 471 pages, I think, as I got it?

Eric R. Banilower (01:37):

And that’s only one of the many reports from that study.

Eric Cross (01:40):

Yeah. You all have done your work, so I’m really excited to to talk to you about this. And on this season of the show, we’re exploring the theme of science as the underdog. And I think a lot of our listeners, we feel like science is an underdog either in their school or in their district. But you’ve actually done some research on this, in a 2018 study, “The National Survey of Science and Mathematics Education.” So I wanna talk about this report. But first I was hoping you can kind of set the stage. How did you come to work on this report, and then, big picture, what were you hoping to find out?

Eric R. Banilower (02:10):

So the 2018 study that you just mentioned was actually the sixth iteration of a series of studies dating back to 1977. And we collect data every decade or so—you know, plus or minus a few years. And really, what we’re trying to do is get a snapshot of what the science and math education system looks like in in the nation. So my role grew. I started working at Horizon in about 1998, after teaching high school for five years in California. And then going to graduate school. And right about that time, the company was doing the 2000 iteration of the survey. And I worked on it with the team here at Horizon. And then we did it again in 2012. And I had a much more prominent role in that study, and became the kind of leader of the study. And in 2018, the most recent version, we just did it again. So the goal of this study is really to kind of examine key aspects of the K–12 STEM education system. And the main audience of the work has traditionally been policy makers, researchers, and practitioners who work at the federal, state, and district level.

Eric Cross (03:30):

So this study, you took kind of a sample size, but it’s reflective of trends that we tend to see across the nation as a whole. Would that be fair to say?

Eric R. Banilower (03:38):

Yes, definitely it is. It is a random sample of schools in the country. So we start with a list of all the public and private schools in the nation, and then do a random sample of those schools, and then work really, really hard to recruit schools to agree to be in the study. And that has gotten harder every time we’ve done the study, for many understandable reasons. And then once we have schools on board, we sample teachers within schools. So we don’t even survey every teacher in a school. It’s really a sub-sample. So that we can make inferences about the nation as a whole.

Eric Cross (04:14):

Makes sense. And so Courtney, what did you find out about the time spent on science instruction in US schools?

Courtney Plumley (04:22):

So, I’m gonna talk about elementary teachers to begin with.

Eric Cross (04:26):

Because that was your past life, right?

Courtney Plumley (04:28):

I am a former elementary teacher, yeah. So that’s kind of where my head is. And that’s relatable for me. Right? So we asked teachers, like, how many days of the week or weeks of the year that they teach elementary school. And fewer than 20% teach science every day of the school year. They kind of do one or two things, for the most part. They teach a couple days a week or they teach every day of the week, but only for, like, maybe six weeks, and then they swap with social studies and they kind of do that across the school year. Which is really different from, like, math, right? We also asked elementary teachers, how often do they teach math, and it’s every day of the year. Then we also asked them how many minutes they teach when they’re teaching, and we kind of did the math to figure out, all right, if they taught science every day of the school year, how many minutes would it be in a single day, so that we could make a more comparable comparison with math and ELA. If you were to work it out, how many minutes of science an elementary teacher teaches across the year, and break it down to per day, it’s like 18 minutes for the lower elementary grades, 27 for the upper elementary grades. Which is not a lot. But it’s pretty much an hour a day in math, and 80 plus minutes in ELA. So, a lot less. And then, you know, when I was teaching, the first thing to go was always science, right? If there was an assembly, if there was early release or whatever, that was the first thing to go. So those numbers might even be higher. Just because they aren’t factoring that kind of thing in, too.

Eric Cross (06:05):

So, now I’m curious. That is something that I’ve seen just anecdotally, science being the first thing to go. I feel like I’ve seen that almost…it’s almost become a meme, that I’ve heard that so often. Just in your experience, why do you think that is that huge disparity between the two?

Courtney Plumley (06:26):

Well, I mean, when I was teaching, I was teaching third grade. I had an end-of-grade test in math and ELA for my kids. I didn’t have one in science. So the administration said, “Hey, if you’re gonna drop something, drop something that’s not tested.”

Eric Cross (06:41):

Simple as that. And Eric, you, past life: physics teacher. High school. What did you see? ‘Cause our listeners run the gamut from elementary all the way up to high school. What did you see, as far as relative science instruction in the secondary level?

Eric R. Banilower (07:00):

Sure. You know, secondary is just a whole different situation than elementary. Rght? Because you have departmentalization. I taught science. I didn’t have to teach other subjects. And students had periods, and they still do, sorry, they still have periods, even though it’s been a long time since I taught. And you know, they rotate from one class to another. So all the classes were essentially the same length. So, you know, when I was teaching, it was about 50-minute periods. So in terms of minutes of a class or minutes on a subject, it’s not really different. But what is different is what students are required to take in order to graduate high school. One of the things we asked schools about in this study was how many years of a subject do students have to take in order to graduate? And what we saw was in mathematics, over half the schools in the nation require students to take four years of mathematics to graduate. OK? And the vast majority of the rest, about 44%, require three years in science. Most schools require three years. Very few require four years. And many, or a fair number, still only require two years to graduate. So the expectation of what students are taking is lower in science than it is in mathematics.

Eric Cross (08:20):

So you were seeing the same trend in secondary, essentially.

Eric R. Banilower (08:24):

Yes.

Eric Cross (08:24):

The amount of time devoted to the instruction of science…we’re kind of seeing it mirrored just across K–12 across the board.

Eric R. Banilower (08:33):

That’s correct.

Eric Cross (08:34):

And that’s across the country. ‘Cause the sample size represents teachers from Alaska, Hawaii, the South, SoCal, everywhere. So what’s been the reaction to that number? Like 18 to 20 minutes is…I mean, it’s, it’s half of my lunch at our school. What’s been the reaction to that number since this data has been published?

Eric R. Banilower (08:58):

I don’t know, Courtney, if you want to take that…

Courtney Plumley (09:00):

It’s a lot of what you just did. Like, what??? Like, how is it possible to teach all the things you need to teach in such a little amount of time?

Eric R. Banilower (09:08):

What’s really kind of surprising to me, though — though now that I’ve worked on three iterations of the study, it no longer surprises me, but it did at first — is that these numbers really aren’t changing since we’ve started doing this study. You know, people thought maybe with No Child Left Behind and the increase in accountability, time on science might actually go down, because there was more testing in math and English Language Arts. It didn’t happen. It was pretty much constant, that this has been kind of the state of science education for a long time.

Eric Cross (09:44):

So Eric, if I’m hearing you right: The past studies, we’re not seeing an increase or a decline. This has been this way for how many years, roughly, would you say? Since it’s been studied?

Eric R. Banilower (09:54):

You know, I’d have to go back to the 1977 report to get the numbers, but I’m gonna say since then, it has not changed much, if at all.

Eric Cross (10:03):

So this has kind of been entrenched. This has been the norm for almost for the career of a teacher, almost generationally. We’re looking at anyone who’s been in the highest levels of leadership to someone just entering the classroom, this has been the way it’s always been. This is kind of for many people what they’ve only known.

Eric R. Banilower (10:20):

Right.

Eric Cross (10:21):

Kind of become the norm.

Courtney Plumley (10:21):

We didn’t even have science when I was in elementary school. We had science on a cart that came by, you know, every other week.

Eric Cross (10:28):

Was that like a food truck, but like the science version of it? It shows up and does quick science and takes off?

Courtney Plumley (10:35):

And New York was, I mean — we always watched Voyage of the Mimi. I don’t know if you ever watched that. But that’s what we watched every single time the Science on the Cart came. So it’s like a marine biology show. Ben Affleck was on it when he was a kid.

Eric Cross (10:48):

<laugh> Really? For me it was, Mr. Wizard. For some of my students, even now, Bill Nye. You know, the Bill Nye show or something would come on. So what happens when you look at less wealthy districts? Is there a relationship between community resources and science instruction, or is it pretty much equal no matter what the district resources are, the school’s resources are? Did you see any data there?

Eric R. Banilower (11:12):

Yes. We actually did a lot of disaggregating the data by community type, student demographics in the schools, to look to see whether there were areas of inequities across the country. And, you know, one of the factors we looked at was kind of a measure of socioeconomic status. You know, wealth in the community. By looking at percentage of students eligible for free or reduced-price lunch. And interestingly, in terms of time on science instruction, there is actually not a relationship between income level and how much time is spent at the elementary level on science, which actually surprised us.

Eric Cross (11:54):

Because you might have expected it to be the other way now. And granted, it’s 18 to 20 minutes, there isn’t much more to shave off off of that. But were there other differences, like when you compared those communities? Maybe it wasn’t the amount of science instruction, but was there anything else, like teacher preparedness, resources? Were there anything else that you did see discrepancies in? Or was it equal across the board?

Eric R. Banilower (12:13):

No, unfortunately there, there have been, and still are, a number of areas where community resources are related to pretty substantial differences in educational opportunities that students have. So, you know, we’re talking about the high school science requirements. One of the things that we saw was that high schools in less wealthy communities tend to offer less rigorous science courses than high schools in better-off-financially communities. So they may not be AP courses or second year advanced courses to the same extent that there are in the wealthier communities. That’s one big difference that we saw. Another one was what you were just saying about, sort of, the teachers who teach in these communities. You know, I think that for many years people have had a feeling that the best teachers go to the better off schools because it’s easier to teach there. Well, we see that the schools with the most poverty, they tend to have the newer teachers, who are just starting their career. They tend to have teachers who are less well prepared to teach their subject. And there’s a host of other differences we found. And you know, you mentioned the report being 400 pages. This other report that looks at these differences is also quite long, and, you know, identified a number of areas where there are these disparities in the system.

Eric Cross (13:43):

Well, we appreciate you synthesizing this for us, because this is super-important. And you’ve fleshed out a lot of things. And the fact that it’s driven by data, we as science teachers, we as scientists, being objective, really, really value that. Because this is actually validating a lot of the things that our listeners and myself, we experience anecdotally. But you don’t have a lot of things to network you. And sometimes, when you see this, you wonder if it’s just you, or is are other people experiencing this? And so as you start talking about this data, realizing, oh wow, this is not something in isolation. This is systemic. This is something that’s impacted. And then Eric, what you said about schools that were lower-income, that were under-resourced, and didn’t offer those advanced classes, what are some of the impacts of that, maybe downstream, of doing that? Not having those AP classes? I just kind of wanted to put that out there and ask you.

Eric R. Banilower (14:31):

You know, this is a really…this is a current debate right now, about what the goals of schooling K–12 should be. You know, are all kids meant to go to college? Should there be alternative paths? And you know, I know when I was teaching, I would have students say, “Why do I need to know this? I’m not gonna go into science. I’m not gonna study physics. Why do I need to take this?” And, you know, the answer I used to give them was, “You never know where your life is gonna end up and what opportunities you’ll have. And by having these educational experiences, you have more opportunities available to you. Whether or not you choose to go down those paths, you have opportunities. And when you don’t take this kind of coursework, you know, even if you don’t want to go to college, you limit your potential careers. Because so many careers nowadays require some technical knowledge, some knowledge of science, even if it’s not explicitly a science job. It is embedded in our society now. We are a technological and science-based society.”

Eric Cross (15:37):

It reminds me of something that I’ve told my students, that if you become a scientist, that’s awesome. I love that. But if you don’t, and you want to be a dancer or an actor or a lawyer or anything that may not be directly related to STEM, I want you to choose it because it was a choice, and not a lack of options. So as long as you’re choosing not to go in STEM, and you don’t make that decision because you can’t, or because you weren’t given the opportunity. So that’s how I’ve always had this mindset as a teacher. And I’ve explained it to my students. So if you say, “Cross, you know what I want to do, I wanna be an awesome chef,” which, you know, low-key that’s science, right? <laugh> Molecular gastronomy, we know that. But like, you be the best chef. But as long as you’re being a chef because you choose that, and you’re like, “I love science, but I don’t wanna go that direction,” we’re good.

Eric R. Banilower (16:26):

Right. And if you think about, a lot of social justice issues with pollution and climate change, and you look at which communities are more affected by some of these larger environmental problems and challenges, it tends to be the lower socioeconomic communities, the more poverty-stricken communities have worse water, have worse air quality. And so if, if people from these communities are going to make informed decisions about who they’re gonna vote for, about what policies they’re gonna support, those are science topics that you have to have some understanding in order to make informed decisions in your life.

Eric Cross (17:09):

Courtney, you were one of the Swiss Army Knife teachers. This is how I perceive it for elementary. You had to teach everything. And shout out to all of my elementary school teachers that have to be mathematicians and grammar whizzes and scientists and PE instructors and social emotional, all of those different things. you also looked at teacher preparedness. How did teachers feel about teaching science compared to other subjects like language arts and math? Did you see anything there?

Courtney Plumley (17:39):

We did, we did. And I’m glad you said, “How did they feel about it?” Because one thing that, you know, in a survey you can’t really do is capture how someone actually…how good someone actually…the quality of someone’s instruction. But you can ask them how prepared they feel. And you can even ask them like stats, like, “What did you major in in college?” You know. But you really are going on based on what what they say. So we ask them how prepared they feel to teach all the core subjects. And two-thirds of elementary teachers felt very well prepared to teach reading. They felt very well prepared to teach math. But when it comes to science, it’s less than a third felt very well prepared. And you know, like you said, when you’re teaching elementary school, you’re teaching all the subjects. But also in science, there’s usually four main instructional units in a school year. And they’re all from different science disciplines. So not only are you going on, like, “Maybe in college took a lot of bio classes, but I didn’t take any physics classes, and now I have to teach physics to my kids and I have no experience there.” So, you know, we also ask them how well-prepared they felt in these different disciplines. And the numbers are even smaller, you know. Fewer than a quarter felt very well-prepared in life science. And like 13% felt very well-prepared in physical science. So there’s definitely a big difference between how much teachers feel prepared for ELA and math versus science.

Eric Cross (19:08):

And just from a human perspective, when we don’t feel prepared for something, we’re not really gonna probably lean into it as much as we are into our strengths. Like, that’s just kind of how we are across the board.

Courtney Plumley (19:18):

Yeah.

Eric Cross (19:18):

I’m even like that with my own chores in the house. Or when I have things I need to get done, and I might not be as good at doing those things—it’s gonna be a heavy cognitive load; I’m gonna have to do some background research—I tend to find other areas to excel in. Like, I’m gonna be productive in this other area. I’m gonna really crush it here. But this other thing gets put to the back burner.

Courtney Plumley (19:36):

Totally. And the same reason I might skip science today, <laugh> ’cause it’s scary.

Eric Cross (19:41):

Yeah, exactly. But I love this book. <Laugh> Or we could do this math, and let’s really, really dive deep into it. Now, did you also look at professional development and instructional resources that are being provided?

Courtney Plumley (19:53):

We did.

Eric Cross (19:54):

And on the whole, how was the amount—and I’m seeing a trend here, so I’m kind of feeling like I know where this might go—but I wanted to ask it, did the amount of professional development and resources for science, was there much of a difference between that and other subjects?

Eric R. Banilower (20:10):

Well, I’ll start on this, and Courtney, feel free to jump in. You know, one of the things that we asked was how much kind of discretionary funding do schools devote to science and how much to mathematics? So, for consumables or equipment and supplies or computer software for teachers to use in the classroom. And it’s hard to compare, I think, across subjects because the demands for this kind of supplies, et cetera, is very different, I think, in science than it is in mathematics. Right? We have a lot of, you know, equipment for doing investigations, consumable supplies in science. And those things need to be replenished on a regular basis. It turns out, when we look at the data for school discretionary spending on this kind of stuff, the median school spends less than $2 per student at the elementary level on science, compared to over $6 for mathematics. At the high school level, it’s kind of reversed. Schools spend more money on high school science than they do on high school math. but even still, at the high school, it’s less than $7 per student. Which is not a lot of money being devoted to thinking about all the materials, supplies, chemicals, et cetera, that you need to teach science well, at the high school level. More disturbing is the fact that, you know, we were talking about inequities before, schools that serve less well-off communities spend less than schools that serve wealthier communities, by quite a big amount.

Eric Cross (21:46):

So essentially the per-student thing just kind of popped out to me: So, like, an expensive Starbucks drink is what we’re spending on science per student.

Eric R. Banilower (21:57):

At the high school level. Yes.

Eric Cross (21:58):

At the high school level. And I get those catalogs in the mail, from all of those big science companies. You can’t get much for seven bucks. At least, nothing high-level. And I know I do a lot of 99-cent store science. I go down the street, go to the 99-cent store. Thankfully we could do a lot of awesome science with just, you know, cheap things. But a lot of the higher level experiences, they’re pricey. But the experiences are so rich! And $7 at the high school level is nothing. It’s not much at all.

Eric R. Banilower (22:28):

Yeah. It is definitely, you know, kind of shocking to think about what we’re investing in our children’s future.

Eric Cross (22:37):

Now, just to put you both on the spot, ’cause I feel like that we’ve identified some…we’re seeing a trend here, we’re seeing a pattern. We’re talking about, you know, being science teachers. There’s a pattern going on here. Do you think it’s fair to characterize science as the underdog?

Courtney Plumley (22:52):

I think in elementary school, it is a fair statement. Because, like we said before, I mean they’re gonna preference math and ELA almost all the time. I mean, the other thing you’d asked a little bit ago was about professional development, too. And we do have some data on that. And we ask teachers, you know, how much science professional development they’ve had in the last three years. And nearly half of elementary teachers said none. And I know I didn’t have any science professional development. If I was gonna pick from among the catalog, I was picking one that I needed more, like math. Math and ELA. I keep making that statement, but just over and over, it’s the truth.

Eric Cross (23:31):

And going back to what you said earlier, because that’s where the accountability was, right? And that kind of came top-down.

Courtney Plumley (23:38):

Yes.

Eric Cross (23:38):

And influenced everything else.

Eric R. Banilower (23:40):

Yeah. Now, really interesting thing that we did, a year or so ago, ’cause someone asked us, you know, “Hey, could you look at this?” is we compared elementary science instructional time among states where science counted towards accountability versus states where science doesn’t count towards accountability. And at the upper elementary grades, more time was spent on science in schools in states where they had science accountability. Now I’m not arguing for adding science to accountability systems. But that’s a pretty telling piece of data.

Eric Cross (24:19):

What gets measured gets done.

Eric R. Banilower (24:20):

Yeah.

Eric Cross (24:20):

Or what was getting evaluated was getting done. And that raises, that opens up a myriad of other questions about testing, and what that reveals, and all of those different things. But at the end of the day, what you’re finding is that the things that were getting tested were the things that were getting the priority.

Eric R. Banilower (24:36):

That’s right.

Eric Cross (24:37):

How did we get to this point? And Eric, you said it goes back at least to ’77, but we look at society and we’re…I wanna say we’re post-pandemic, but we’re we’re not. but we’re trying to, we’re trying to get past that. But we’re looking at…we had innovations in biology, we have innovations right now in green energy and electric cars and all of these things that are STEM-based. We know that these are things that have moved humanity forward. And we look at the pipeline of people who are in STEM and we, we see the disparities and things like that. Why was science given less of a priority? I’m just curious. Maybe, Courtney, we could start with you, if you have any ideas. Or Eric. Either one. But how did we get here?

Eric R. Banilower (25:22):

<laugh> I think Courtney wants me to take that one. I’m older so I’ve seen more <laugh>. So, you know, I have the gray hair. She doesn’t. I think it’s complicated. And I know this sounds cliche, but but schools are a reflection of society, right? And, and so science education, you know, if you think back when Sputnik was launched, there became this great demand in America to improve and produce more scientists and engineers in response to this Cold War threat. Right? And then in the ’80s there was rising, oh, the gathering storm was an economic argument that we needed to increase science and math, you know, education and people going into those fields in order to compete economically against the global competitors. And I think that America has always produced a fair number, a large number, of high-quality scientists and engineers, you know. And we still lead the world in many ways. But where we’ve identified as a problem is who has those opportunities to go into those fields. You know, it used to be a very select, a very male-dominated, white male-dominated field. Right? And other people didn’t have the opportunity, or they were shown the way out pretty early. And we, I think, have come to realize as a country that, you know, the, the greater the diversity of thought that we can get into these discussions, the more innovative we can be and the more productive as a society we can be. And so I think we’ve had this shift in the country to, instead of thinking about just the quality for the select few, but to be thinking about the quality for everyone. And so that makes it seem like some of these challenges are greater than they used to be. And I think they’re different challenges, right? We’ve evolved as a society and I think schools have evolved.

Eric Cross (27:40):

There is a conversation I was in on a plane with a person who was a materials manager for a company that made the adhesive for sandpaper. And we were flying…I was flying to Denmark and he was flying to some other Scandinavian country. And we were just talking about it. And he came from another industry, and somehow the conversation led to science. I don’t know how that happened. But somehow I just started talking about science and I asked him about, Eric, kind of what you said about the US kind of leading the way in science innovation versus the rest of the world. And I asked him why. And he said one of the reasons why is because the heterogeneous thought. The different groups of people that are coming to a problem actually create more innovative and novel solutions. Versus when it’s more homogeneous. And everyone’s either culturally or just for whatever reason, kind of thinks a certain way. While they might have a more efficient way, the variety of solutions are not as varied and not as novel. I was reminded of that story based on what you just said. So it’s really interesting. So it seems to be that it benefits if we have more heterogeneous groups, more folks who are contributing to STEM, because that’s gonna be solving the next problem more efficiently. Or I guess maybe in my head it seems like the next we need…we do really well when we have a dragon to slay. I mean, it seems like we come together when that’s the case, right? Like, I dunno.

Eric R. Banilower (29:06):

No, I think that’s…I think that’s accurate.

Eric Cross (29:09):

Later on the season of the podcast, we’re gonna explore ways to better integrate science with other subjects like literacy and math. Were you able to study at all any more integrated approaches to science instruction? Does any of your research support that approach?

Courtney Plumley (29:25):

Not on the national survey, we didn’t study that. And it’s something that we’ve talked about before, because it’s difficult to get teachers to…we were talking about instructional time. It’s hard for teachers to put a number on it when they’re integrating, because, you know, it’s not like I have my science block from 3 to 3:30 anymore. Now it’s kind of scattered about. But it’s something that has been in the ether. We’ve been looking at it in a couple of projects. So there’s some evidence that it can be effective, especially for getting more, you know…the idea is you can get more time for science if you are integrating with other subjects. But one thing to kind of caution is like, students need to have opportunities to learn each discipline when they’re doing integrated instruction. So you don’t wanna just have, like, math in your science. Kids already know to just, like, support it. Then it’s hard to take time from math to put it into science when they’re not actually learning anything new. That’s the easy thing to do, though, is say, “Oh, my kids already know how to measure. We did that in a previous unit. So now we’ll we’ll do it as part of our science instruction.” So it’s a lot of work to make it so they’re learning something new, mathematics and science, at the same time. And it’s not really something that we think that teachers should be having to do on their own, with all the other things that teachers have to do. The last thing they need to do is be creating their own, you know, curriculum. Something that’s already…you know, it’s not straightforward. So we’ve been talking about it, we think it’s really something that instructional materials maybe need to be focusing on instead of teachers having to do that on their own,

Eric Cross (31:01):

Teachers would implement it, but asking them to create it is a whole different thing, and it’s a huge ask.

Courtney Plumley (31:08):

Yes.

Eric Cross (31:08):

Yeah. And, did I hear you right? So the ideal situation would’ve been the students learning a newer math concept, but embedded in a science kind of context? Or was that the better way? Versus, “I’m gonna take a math concept they already know and then just put it into the science setting?”

Courtney Plumley (31:26):

Well, if the idea is that you can get more science time if you’re, you know, integrating things, so you can maybe take time away from a specific math block by putting it with science, or whatever, then if the math is something that the kids already know, now you’re just taking away. I think that that has to be new in both cases, in order to justify having more time.

Eric Cross (31:49):

Right. Eric, in the secondary level, any thoughts on that? On integrating these disciplines together?

Eric R. Banilower (31:56):

I think, you know, just like at the elementary level, it can be challenging to do it well. When I taught, I taught my last couple years in a kind of school-within-a-school kind of situation, where our goal was to try to integrate science, mathematics, and language arts. And it’s hard to do that in a meaningful way. And we did not have curriculum materials given to us to help us do this. We were trying to figure out how to do this on our own, while we were teaching 200 kids a day in our subjects. Right? And five preparations. And you know, it’s a big ask of any teacher. And there are teachers who thrive on this and are great at this. And, you know, that’s one thing I wanna, make clear: our data is about the system, and we are former teachers. Almost everyone who works at Horizon is a former teacher. We have the greatest respect for teachers and what they do. And what our data is showing is are kind of like areas where the system isn’t providing teachers and their students the opportunities to do great things. I think at the high school level, there has been this idea of project-based learning where students are bringing together different skills, different ideas from across disciplines. And I think there’s, again, a lot of potential in doing that. But trying to develop those experiences so that they are doing service to the different subjects, so students are learning what they’re supposed to learn in English Language Arts, that they’re learning, important mathematics, and that this is in a science context, where they are getting to do and understand what science is and how science, as a discipline, operates…that’s just a really hard thing to develop.

Eric Cross (33:53):

So what I’m hearing—and I really appreciate the nuance in this, because it’s not a simple “Yes. Integrated is better,”—I’m hearing “Yes. Quality control.” “Yes. It needs to be written not by teachers; they’re the practitioners.” It’s “Yes. And,” not just simply binary. Which…it’s so easy to wanna chunk things and say yes or no on things. But this one seems a much more nuanced approach. And in a future episode, you mentioned project-based learning, we’re gonna try and talk to people who have thoughts on this. And I really appreciate that you talked about project-based learning, because also, how do you evaluate that? How do you evaluate whether or not it is high quality? Is this is something I see? You know, high-quality standards, highest quality science teaching, highly qualified teachers. It’s something that I see often. Now, based on all your research, this is kind of the 30,000-foot view. What advice might you have for people who are thinking about changing the way science is taught in this country? Which hasn’t changed since 1977, at least since we’ve been measuring it. Any advice for people who do want to act? Another way to ask, it might be, if you were given a magic wand, <laugh>, you have all power, what might you do if you can control the entire vertical system?

Eric R. Banilower (35:07):

Yeah, so a clarification, I do think science instruction has changed. It has evolved. I think there’s a lot of really good things going on in different pockets of the country. One of the challenges is bringing those good ideas and good practices to scale. Right? There are approximately 1.2 million teachers of science K–12 in this country. That’s a lot of people. And about 80% of those are elementary teachers who are responsible for teaching other subjects as well. So my thinking is often about, “How do we take what we know and that we’ve learned through decades of research is effective, and impact a large number of teachers, and therefore a large number of students?” And you know, Courtney I think has hinted at this already. And you’ve mentioned it too, Eric, is that teaching is a profession, right? And it’s a craft. But in no other profession do practitioners have the expectation that they’re developing their own tools and methods for their work. I know when I was in my teacher preparation program, and it’s still extremely common, one of the assignments perspective teachers are given is to develop a unit and develop a lesson, right? You don’t have doctors being asked to develop new treatments and new tests to use. Their job is to get to know their patient, assess what’s going on, and then using research-based methods to develop a plan of action, right? And I think that analogy works really well in education and is a way that we could have a scalable approach for kind of raising the floor across the country for the quality of science education. Giving teachers research-based materials, high-quality instructional materials, that they can then use and adapt to meet the needs of their students, would allow them to focus on getting to know their students, seeing what their strengths are, seeing where they have room for growth, and using the materials they’re given to help those students progress. And I think that is definitely a way where we could have a big impact at a large scale.

Eric Cross (37:39):

Courtney, same question: Magic wand, all power. You can change systems from the elementary perspective. What would you do? I’m assuming part of it’s gonna be changing that 18 to 20 minute time. But even for that to happen, what would you do? What would you change?

Courtney Plumley (37:57):

Well, I don’t know. Like, for it to change, I don’t know the answer to that. But yes, increasing the time would be great. And like Eric was saying, giving teachers— ’cause again, I’m coming in, not enough probably background in science—and then, you know, when I was, when I was teaching, we had one set of textbooks for the entire grade. Six classes, right? Like, share them. But third graders aren’t gonna read textbooks anyway, right? So instead I’m going to the teacher store. I’m pulling things off the shelf. And like, “OK, yeah, sure, I’ll use this.” And nowadays, teachers are going to Teachers Pay Teachers or whatever. Because I didn’t have anything good to use. So like Eric is saying, if I had instructional materials that were good instructional materials that were gonna teach my kids, that they were gonna be engaged, that they weren’t sitting and listening to science, but they were doing science, you know, and I had professional development to actually help me do it? That’s what I think we need to have. And I mean, I know there are some people out there that are working on that, but it’s not a lot. I mean, if you look at Ed Reports, they rate how well-aligned science curriculum are to standards. And there are two right now that have Ed Reports green lights. There’s Amplify and there’s OpenSciEd. You know, so there’s not much out there for teachers to use. And, so it’s hard. It’s hard. Where am I gonna go and get this stuff if it doesn’t exist? And so I’m making it up by myself. Which we already said is not the best use of teachers’ time, when they’ve got so many other demands on their time.

Eric Cross (39:27):

Eric and Courtney, listening to both of your responses, it created a visual in my mind. And Eric, I loved your analogy of…I started thinking of a chef, a welder, and a farmer. And I thought about the chef saying like, “You’re a great chef! Now, can you go farm, and make your own food, so that you can cook it?” Or the welder who has to make his own welding tools and go smelting. You know, making the different rods. I’m not a welder. But you know, all those different parts. Or the farmer who has to build his own tractor and innovate all that stuff. You’re absolutely right, the way you articulated that. And then Courtney, you essentially said, “Give them the tools and then teach them how to use it so they can go and actually be effective with it, because you’re in front of kids doing so many different things.” There’s only so much time in the day, and teachers want to do these things; they want to, but you end up having to triage when you’re asked to. Going back to Eric’s analogy, if you’re in the ER, but you’re also creating the vaccines and you’re also doing the research on which types of vaccines are gonna be the most effective, that’s, that’s a lot to ask. And so, I appreciate both your responses on that. Now, last question, what are you both working on now? This report came out in 2018. What’s, what’s next on the horizon? Actually literally, that’s no pun intended. <laugh> What’s next? <laugh> What’s next for, for you both? What are you working on?

Eric R. Banilower (40:42):

Well, you know, we would love to do another national survey, in a few years. We have to get funding to do it. And you know, that’s always something that takes effort and isn’t a guarantee. We’ve written grants to do these studies in the past, and there’s also the dealing with the reality of the situation. I think a lot of schools, still coming off the tail end of dealing with Covid, are overwhelmed. And we’ve had a hard time, I mentioned before, recruiting schools, and it gets harder every time, just ’cause they have so much on their plate. And I couldn’t see going to a school now and saying, “Hey, one more thing. Do you mind?” So I think we have to kind of wait a little bit for things to settle down before we can do another one of these studies. It just doesn’t seem feasible right now. But we’d love to in the not-too-distant future. Other than that, Courtney and I actually work on some projects together and some projects not together. One of the things that we’re working on together is a study of a fifth grade science curriculum that was developed by Okhee Lee at NYU and her colleagues, that is both aligned with the NGSS and purposely designed to support multilingual learners in developing both their science knowledge and skills as well as their language skills. And we’ve been working with the crew at NYU to study this curriculum and try to figure out, how well it’s working and under what circumstances. So that’s been a really interesting project that’s going on right now.

Courtney Plumley (42:26):

I recently worked on a report with the Carnegie Corporation in New York that actually I think, compliments what we’ve been talking about a lot. It’s about the status of K–12 education in the US—or science education in the US! <Laugh>—and so as part of that report we interviewed like 50 science education experts across the country. We surveyed teachers, people in the university settings, researchers, and everything to kind of get a little bit more update of the state of science education right now. And so a lot of the things we’ve been talking about, we still are talking about with the people in this report four years later. So, work in progress. <Laugh>

Eric Cross (43:09):

And again, going back to 1977, based on what Eric was saying earlier, we’re looking at these large systems, these systemic changes don’t happen overnight.

Eric R. Banilower (43:20):

That’s right.

Eric Cross (43:21):

It’s very slow-moving.

Eric R. Banilower (43:22):

That’s right. I would say there is progress. I think we’ve learned a lot. We are getting better. Are we there yet? No, we’re not happy with where we are. But I think, you know, I think it’s important to be hopeful about the direction things are going in.

Eric Cross (43:37):

Well-said. I agree. Courtney. Eric, thank you so much for unpacking that report that speaks to, that validates what so many teachers across the country are experiencing. And thank you for your advocacy for high-quality science education and your passion for supporting teachers and being that voice from a data-driven perspective of what teachers experience and then advocating for solutions for them. It’s super-encouraging for me, and I know it’s gonna be really encouraging for a lot of our listeners. So thank you.

Eric R. Banilower (44:10):

Thank you for having us.

Courtney Plumley (44:12):

Yeah. Thank you, Eric.

Eric Cross (44:15):

Thanks so much for listening to my conversation with Eric Banilower, Vice President of Horizon Research, and Courtney Plumley, Senior Researcher at Horizon Research. For much more, check out the show notes for a link to the 2018 National Survey of Science and Mathematics Education. And please remember to subscribe to Science Connections wherever you get podcasts, so that you’re not missing any of the upcoming episodes in Season three. Next time on the show, we’re gonna start laying out the road map for using science more effectively. And we’ll start by looking at the how and the why of integrating literacy instruction.

Susan Gomez Zwiep (44:49):

When we look at Science First and build language development around it, the experience tends to be more authentic and organic.

Eric Cross (44:58):

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

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What Eric R. Banilower says about science

“Our data is showing us places where the system needs to provide teachers and their students the opportunities to do great things.”

– Eric R. Banilower

Vice President of Horizon Research, Inc.

Meet the guests

Eric R. Banilower is a Vice President at Horizon Research, Inc. (HRI), and has worked in education for over 30 years. Eric was previously a high school physics and physical science teacher before he joined HRI in 1997, where he has worked on a number of research and evaluation projects. Most recently, he has been the Principal Investigator of the 2012 and 2018 iterations of the National Survey of Science and Mathematics Education, a nationally representative survey focusing on the status of the K–12 STEM education system.

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Courtney Plumley is a Senior Researcher at Horizon Research, Inc. She began her career in education as an elementary school teacher before starting at HRI in 2009. In her time at HRI she has worked on many K-12 STEM research and evaluation projects. Most recently, Ms. Plumley has worked with Carnegie Corporation of New York on mapping the landscape of K-12 science education in the US and is managing the field test for the OpenSciEd elementary materials.

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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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S2-03: Building meaningful student connections in the science classroom

Promotional image for a podcast episode titled "Sharita Ware: Building meaningful student connections," featuring Sharita Ware and "Science Connections" branding.

In this episode, Eric Cross sits down with Indiana State Teacher of the Year, Sharita Ware, to talk about how to successfully build meaningful student connections in the science classroom. Sharita shares her journey from a corporate career to becoming Indiana’s 2022 Teacher of the Year, and her passion for creating project-based lessons for her students. Together, Eric and Sharita discuss how educators can teach students to love science content by building strong relationships, adding in other content areas, and supporting students’ imagination. Explore more from Science Connections by visiting our main page.

Download Transcript

Sharita Ware (00:00):
I try to create that equal playing field where there’s nobody’s voice, that’s more important than anyone else’s and try to make them all feel that what they have to say is important.

Eric Cross (00:14):
Welcome to science connections. I’m your host Eric. My guest today is Sheta where Sheta is the 2022 Indiana state teacher of the year. And in her 10 year career, as an engineering and technology teacher, she has dedicated herself to helping students build knowledge and skills for high school and life. Beyond. In this episode, we discuss how she inspires her seventh and eighth grade students to build problem solving and critical thinking skills through hands on real world and collaborative projects. She is as humble as she is knowledgeable and through our conversation, it was easy for me to see why her students feel successful under her guidance. And now please enjoy my conversation with Sharita Ware.

Eric Cross (00:59):
Can I start off by saying congratulations on teacher of the year. Thank you for the state of Indiana. Um, that’s amazing. So I, I, I did watch, uh, your videos, uh, short interviews, and then you spoke, was it Purdue? Yes. You were there. And so, uh, to see if fellow seventh grade, eighth grade science teacher out there being celebrated, like I was so excited, so yeah, I wanted to congratulate you on that and, and just kind of talk to you about like your teaching journey and ask you, uh, maybe just kind of start off with your story about what brought you into, into the classroom, especially the middle school.

Sharita Ware (01:29):
Classroom. So what happened is when I was working in industry as an engineer and when my husband and I got married, we decided that I was gonna, um, stay home with the kids because, you know, we wanted, um, our influence to be greater on our kids than, you know, the people that would be watching them, you know, because they would ultimately spend more time with them than they would with us. And, and so, um, I stayed home and when my youngest was going to be going to kindergarten the next year, I was like, okay, what am I going to do? Cuz I really don’t necessarily feel like I need to stay at home. Mm-hmm <affirmative> but um, I knew going back to industry would be a challenge just because in my field, I, I was traveling a lot before I got married and had kids.

Sharita Ware (02:14):
And so I knew that that wouldn’t really be conducive to again, raising children. So I, I get this email, my inbox for Woodrow Wilson, teaching fellowship at Purdue. And they were just looking for people in stem fields to go into teaching. And I was like, okay. And it was a national search, you know, I filled out the application, we had to go in and do some sample teaching mm-hmm <affirmative>. And I was picked as, as one of the, the teachers to go through the program. And I started off thinking I wanted high school. And the really cool thing about this, uh, program is that we had long observation periods at high school and at middle schools. And so we would go to a school and we’d stay there two or three weeks. And so it, it kind of gave you right. A little bit more insight to what happened on a daily basis. And after those observations, I was like, I like middle school better than I, uh, like high school. And so I just kind of went that direction and you know, the rest is history. So

Eric Cross (03:19):
I feel like our stories are similar because I went into teaching thinking I wanted to do high school because I like the maturity and you a little bit more sophistication, advanced things, but yes, middle school, I felt like I can, I could get them more upstream before and kind of help shape mm-hmm <affirmative> that experience for them? Because I feel like at middle school is really where they kind of decide like what they can do based on their experiences.

Sharita Ware (03:39):
I found in the middle school that the kids, I mean, they just, they clamor around you and they’re like, what are we doing today? You know? And they get so excited and, um, they’re, they’re just, I don’t know, I guess in some ways, just more hungry in the sense of like they’re willingness to, um, now sometimes they’re a little reluctant, but you know, their willingness just to try new things. And I think, um, my students really what I have found over the years that they have found a safe space and I hear the kids, you know, say to me so many times that, you know, it it’s safe. I feel, I feel safe in here. And, and it’s not something that in my mind I’m thinking about, oh, I need to make this a safe place. It’s just, I guess part of just who I am as a person has created this environment of, of safety and, and the kids recognize that, you know, I don’t play favorites. You know, everybody starts out mm-hmm, <affirmative> on equal footing. I, I don’t care what your backstory is. I don’t care how many times I see you in the hallway when I’m walking during my prep. You know, when you hit my room, I’m, I’m gonna treat you the same way on day one, that I treat everybody else.

Eric Cross (04:54):
You really understand how to build culture with, in, with your classroom, with your students. And, and you said they feel safe, but is there anything that you do that someone could like apply? And like you found that you’ve gotten a lot of just relational capital through doing these things, or is it just your personality? Like how, how do you build those connections?

Sharita Ware (05:12):
You know, growing up being a, a very quiet person. I, I think a lot of times my voice was ignored because I was the quiet kid in the back of the room. And oftentimes I became seen or heard because of my work, you know, in the beginning it was kind of like, oh, she’s just this quiet girl in the back of the room. And then, you know, the first essay was due or the first project was due. And then it was like, oh, you know, then you’re the person to be on, you know, people’s teams. And, and that, I don’t know, that always kind of bothered me because, you know, I’m thinking just because you’re not the loudest person in the room doesn’t mean that you don’t have something to say, mm-hmm <affirmative>, you just might not be talking all the time. You know? And, and so for my students, I just, I try to create that equal playing field where there’s, nobody’s voice, that’s more important than anyone else’s and try to make them all feel like that what they have to say, or what they have to contribute is, is enough, is good.

Sharita Ware (06:14):
Enough is important as…

Eric Cross (06:16):
It is, as it is. And there’s probably a lot of things that you do. But in addition to building these relationships, what do you do? Like how do you make your learning fun for students?

Sharita Ware (06:25):
I think, um, I’m also a little bit on the silly side. Um, we do a, a Barbie prosthetic leg project, and this was after trial and error of having the kids make full size prosthetic legs. And I try to make it as real world as possible, but with none of the children being amputee or, you know, having access to someone, it was really hard for them to really visualize what needed to happen. Mm-hmm <affirmative>. And so, um, I found this Barbie that had a prosthetic leg and I was like, well, LA, so I just started collecting Barbies and chopping their legs off <laugh>. And so I have this jar of Barbie legs. And so, and I said, you’re gonna make prosthetic legs. And I lay this jar of legs on the counter and the kids are like, like they gasp and then they crack up and then they’re like, okay, this lady’s crazy. So…

Eric Cross (07:22):
That’s when you take off your scarf and there’s this necklace of just Barbie legs that are just around and you’re like, I’m a middle school teacher and they go, oh, okay. I understand. Yeah. Yeah. It’s totally fine. Is this a lesson that someone that you made up or is it something that you’ve re remixed? Is it something that someone could do if they looked it up anywhere?

Sharita Ware (07:38):
Um, so I think teach engineering has the, the full size leg that the kids make. And that’s where I initially got it from.

Eric Cross (07:47):
Is that the website teach engineering?

Sharita Ware (07:49):
Yes. And, um, I, in fact, I get lots of ideals from there. Um, and I, I always usually tweak them, but it’s, it’s one of those things that kind of gets your brain going. And so it was kind of a mixture of, uh, project lead the way gateway to technology and the teach engineering. And I think the project lead the way had us making like braces, uh, for, um, kids with, um, like cerebral palsy or, or something like that. And the kids did okay with that project. Uh, but I wanted to go just a little bit, uh, deeper with it because part of what I was wanting them to do is that context and that connection, that human connection, because for me, it’s not just enough for them to make a project. Uh, before we start this prosthetic leg, I read them a story out of a Scholastic magazine, and it’s a, a teenage girl that lost her leg in a boating accident.

Sharita Ware (08:42):
And she was super active, um, playing sports and running. And, and so I was, you know, trying to get the kids to, you know, make that connection, someone close to their age. Um, and then how it’s not, it’s, it’s more than about her physical healing. It’s also about her mental healing and how she had to, you know, talk to herself to say that she could, you know, recover and, and come back from this and still go on to do all of the things that she was doing before. Um, and in some ways it’s kind of cool because, um, you know, she has a running prosthetic, she has a, a swimming prosthetic, and she has her every day with the pain and toils prosthetic. So just trying to, you know, help them to see that it’s more than just the, you know, the biomedical mechanical engineering aspect of the project.

Sharita Ware (09:30):
And so they have to design for comfort. They have to design for, um, swelling. And then, um, they also can, if they, if they want to, they don’t have to, if they want to, they can create their own backstory. So when they get there, um, we have a day where they are introduced to their client, so they get to meet their Barbie and, and then they get to decide if they want a backstory and, and then do their research based off of that. So if it’s someone that was a runner, then they can design a prosthetic running blade. So just, they have lots of, uh, flexibility.

Eric Cross (10:04):
The, that aspect of adding the narrative. It does so much for like listening to it on the outside. It one, it adds this humanity to, you know, what can sometimes just feel like it may be cold, logical stem. We’re just, we’re just doing things. We’re fixing things. We’re, you know, we’re discovering things, but really the stem has value when we’re actually applying it to, to, to serve humanity or our ecosystem or whatever it is. There was a, a coding, uh, class I was doing with my students and I showed them this app called be my eyes. And it’s for people who are visually impaired and it pairs them with a volunteer. And when they call, and there’s a whole huge pool of volunteers and I’m one of them. And when my, when it happens in class, I answer and it uses the FaceTime. So the person who’s visually impaired is holding up their phone and you see what they see and you tell them and real time what’s happening.

Sharita Ware (10:54):
Oh, wow. That’s so cool.

Eric Cross (10:56):
These are, these were the things I think for students that the story, the, the human part of it, mm-hmm, <affirmative>, it must bring in so many more students into engagement.

Sharita Ware (11:05):
Yeah. I, I feel like it does because I, I think, um, and, you know, along the journey, they kind of lose, um, they lose sight a little bit because, you know, they get out in the lab and they have access to all of these different materials. And I think, you know, truly making it, you know, project based for me is I try not to control the materials too much. Um, I try not to make it so wide that they just get lost, but I try to throw a few curve balls in there, you know, of, of materials that really don’t make sense to use, but they kind of think they make sense to use. Um, because the, the, the meat of it is that the prosthetic leg is a similar size of the original leg and that the, the knee functions. And so I don’t limit, and I grade them off of efficient use of materials.

Sharita Ware (11:59):
So, and that just throws them off because I think, well, how many Popsicle sticks can I use? And I’m like, you can use as many as you like, but remember, this is a prosthetic leg that, um, your Barbie, which is one six scale, um, is going to be wearing all day. So you could think that a Popsicle stick, if you chose to use a Popsicle stick is kind of like dragging around a two by four <laugh>, you know? So do, is that what you really want to use as your material? And some of the kids really think about it and saying, okay, I’m, I’ve got this aluminum rod, okay. This is probably what I would use for my bone structure, because it’s lightweight, but yet it is supportive. And then sometimes they come up with their own ideas in terms of materials, like one student brought in his, um, 3d doodle pin mm-hmm <affirmative> and he made joints and everything with this pin.

Sharita Ware (12:54):
And I’m, and I had delayed buying one, cause I’m like, I, how do you have control over that thing? Mm-hmm <affirmative> he brought that in and he did probably two or three iterations of it and, and got it to work where even the knee where it bit back 90 degrees, but it stopped. He made like, so that it didn’t bend forward. It blows my mind. I’m like so many UN unexpected things have, have happened just from my, um, teaching style. Now I did have, my first few years, I had a, a teaching coach, um, come in and, um, I asked her to come into my room because I just wanted to make sure because I was not a traditional teacher. She said, this classroom is amazing. And, and I think the one thing that she helped me with was, was purpose and consistency and the sense of making sure that with the standards that all of these cool things and ways of being, um, that I was doing in my classroom, that, that I kept it purposeful and intentional. So many times as educators, I know in having student teachers again, ask yourself the question, what is the big picture I want the kids to take away. And once you ask that question, then everything that you have them do will lead to that big picture. Well, it should lead to that big picture.

Eric Cross (14:22):
So it sounds like they’re, you’re starting with this end goal in mind and then kind of backwards planning to get there. Yeah. Do you think you would’ve been the same type of teacher if you would’ve gone straight from college into the classroom? No. And if, if, no, as you’re shaking your head, what do you think it is about? Cause I’ve been asking myself these questions, like just over the years, what is it about coming from industry and going into the classroom? Do you feel like, is how has that impacted you in how you teach?

Sharita Ware (14:45):
Well, I think it’s twofold cuz I was older. I already had three children. I think the combination for me, I think is I was already a mom and I had worked in industry. So the behavior aspect of kids and, and then having that real world experience. And I, I just feel like whether it’s in the classroom, um, marriage, kids, to me, it’s 90% relationship, you know, and the rest will work itself out. That’s, that’s just my, my take on it. But I, I feel like having kids, so some of the behavioral things I kind of was aware of, you know, and just learned many times just not to react to some of the things that they did.

Eric Cross (15:31):
Which is huge. Right. Especially in middle school is controlling your reactions.

Sharita Ware (15:35):
Yes. Cuz that’s what they want. You know? And, and I had this student last year as well. She’s brilliant. And so if she cannot wrap her mind around the purpose of what you’re doing and, and you’re pushing her to do something that she doesn’t think is necessary, mm-hmm <affirmative>, she kind of has these meltdowns. And, and so we just had this, you know, I don’t know, we just came to this understanding and it, and it works to control the meltdowns. I tried to make sure. And, and I used her as a gauge because I knew she wasn’t, she wasn’t getting upset because she didn’t understand. She didn’t understand the why mm-hmm <affirmative>. And so I felt like if she got the why then so would everyone else. So when she, if she was okay with it, then I was like, okay, then I must have explained it well enough.

Sharita Ware (16:25):
And so in my mind that I really need to make sure they understand the, again, going back to that purpose <laugh> and intention, making sure that that is clear. And then I think that’s what gets lost. Sometimes mm-hmm <affirmative> uh, with us as teachers, we, we know where we want the kids to go and we want us to trust the process, you know, just do it because I said so, but sometimes, you know, empowering your children to under to understand the why, because that again is what allows them to be able to do bigger and greater things on their own. So on that next project comes along. They’re starting to tell you, well, first we need to make sure we understand what, um, we’re being asked to do to do. So we have to define the question. We have to make our driving question that will help us stay focused. And, and you’re just standing up there going, okay, now you don’t need me. I’ll go here and sit down. <laugh> so it’s, uh, it is really cool.

Eric Cross (17:28):
Now I’m thinking about my own kids. Like, do my students know the why behind the lesson we did today? It’s one area of growth that I wanna make sure I do this year with my students. And so I really appreciate that. So the, and you just hit on something that is, has been in the forefront of my mind lately and math and English as you know, tend to be prioritized in schools everywhere because it’s what state tested. And it’s what, you know, this is a whole other conversation, but I’ve been talking to math teachers frequently about one of the challenges that they experience or they’ve been telling me is that math is kind of taught. Like it’s just computational, you’re solving these problems, but it’s really separated from any real life application. A lot of times, you know, it’s pizza or gumballs or, or just fictional scenarios and students don’t perform well many times. And some of the reasons why is cuz just no connection. I don’t want to solve puzzles. Like it’s not my jam. Do you have any just inside or, or perspective on how math is, is taught in maybe a way that you think it would students would benefit more?

Sharita Ware (18:32):
You know how kids learn in elementary school, you’ve got this, the same teacher teaching all of the subjects. And so wouldn’t that be an awesome opportunity for you to have like these, these projects where I feel like you could, a class could legit work on the same project for a whole entire year. And so couldn’t the English be writing your persuasive letter to the mayor, asking him to do this or do that. And the process of doing that they’re, they’re, they’re writing with a purpose with a true purpose. Um, and then when they’re doing math, you know, they want, they want a new neighborhood park. So, you know, well how much is this gonna cost? Well, math, what size is it gonna be math? Let’s see what it looks like, art, you know, you just, you have all of this things. And then of course then science.

Sharita Ware (19:32):
So if it’s on a heel, how can we, you know, deal with erosion? And you know, you can just pull so many different things into that. And so not only are they learning, but they’re narrowed in and focused on a project, they’re, they’re able to dive deep into, you know, learning more of learning, how to express themselves and communicate with real people. So it’s more of taking these compartmentalized learning that we do in middle school and high school. Mm-hmm, <affirmative> where you’re almost learning apprenticeship style. Mm-hmm <affirmative>, you know, you have these master educators and it’s not about them being the best at math or being the best at this or that. Cuz there’s so many tools now that could help you through that. But you’re, you’re giving, you’re teaching them so many life skills and so many ways to think and problem solve that, that we’re just that the kids just don’t have.

Eric Cross (20:27):

I think that that is amazing. And I think that in that situation, what I’m hearing is we’re going deeper, not wider because there are a lot of different concepts that kids are expected to learn. Or I should say there are several concepts that teachers are expected to teach doesn’t necessarily mean that our kids are learning, but we’re teaching them. And this way you’re embedded it into an authentic context. Students are able to go through this cycle just like real life. And then they’re also able to build these kind of really transdisciplinary skills. Not only am I learning the math, the English, the the, but I’m also learning the interpersonal skills of being able to sell myself and present myself in a way that’s winsome. And it’s especially powerful coming from someone from industry. Last question, even just listening to you, I know you, you are this for a lot of people, but I wanted to ask you who inspires you?

Sharita Ware (21:14):
I think there have been lots of people over the years. Like I’m thinking of my shop teacher who has since, uh, the last few years passed away. Um, he was one of those people, I think similar personality to me, super quiet person, but he was always in the background on my journey and his name was Joe Mo and we called her Madam Carol was my 10th grade English lit teacher. And she was the one that started reading my work out in front of the class. And you know, and that just gave me courage, not so much to be seen. Uh, but that the work I was doing was, was good. And, and I think I needed that kind of encouragement. Lastly, my students inspire me because when I look at their faces and see the excitement, I think of those students for the first time and, and, and think about this seventh and eighth graders for the first time feeling like they really have something to say, they really have something to contribute of value. And, and I do it for them. You know, the reason why I am here in this moment is because of them. Um, without them, you wouldn’t be talking to me <laugh>

Eric Cross (22:37):
This is, this is true. This is, this is true. You would probably never say this about yourself, but you just exude a humility and a service in how you talk about your students and yourself. And I just wanna thank you for using your gifts, but I don’t wanna just call them gifts because it makes it sound like you didn’t earn ’em and your skills that you’ve earned and worked very hard to acquire over the years to go back into the classroom and leave industry, cuz you, you could have gone back to industry too, but you decided not to. And you could have worked in the industry and your hours were a little different pay is a little different, but you came back to serve the kids of Indiana and because of you and because of that choice, those students have a brighter future and believe in themselves and they’re finding their voice. And I want to thank you for that and for representing all of us stem teachers who are in middle school and being that leader. So thank you for that and thank you for being on the podcast.

Sharita Ware (23:24):
You’re welcome. Thank you for having me.

Eric Cross (23:28):
Thank so much for listening. Now we wanna hear more about you in the amazing work you’re doing for students. Do you have any educators who inspire you? You can nominate them as a future guest on science connections by emailing stem, amplifycom.wpengine.com. That’s ST E M 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 Sharita Ware says about science

“Sometimes, empowering your students to understand the why is what allows them to be able to do bigger and greater things on their own.”

– Sharita Ware

Engineer and Technology Teacher, 2020 Indiana Teacher of the Year

Meet the guest

Sharita Ware, a Purdue University graduate, is in her 10th year of teaching engineering and technology education to middle school students in the Tippecanoe School Corporation. Ware challenges her students with real-world, problem-based design scenarios that will help them contribute to global technology and integrated STEM. Follow her on Twitter and Instagram.

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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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S1-01: The journey from student to SpaceX engineer: Juan Vivas

Illustration of Earth with text about a podcast episode featuring Juan Vivas, discussing the journey from student to SpaceX engineer. Includes a photo of a smiling person in a suit.

In this episode, we join Eric Cross as he talks to supply chain engineer Juan Vivas of SpaceX about his experiences growing up as a Latino in STEM. Juan shares his story of moving to the United States to study engineering and becoming successful in his career as a scientist. Juan openly discusses the experiences that made a difference in his life and the teachers that inspired him along the way. He also shares his experience as an engineer in different fields, as well as what it’s like to work in the supply chain during COVID.

Explore more from Science Connections by visiting our main page.

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Juan Vivas (00:00):

But to me, based on my experience so far, I think the best way to put it: An engineer is a technical problem-solver.

Eric Cross (00:28):

Welcome to Science Connections. I’m your host, Eric Cross. My guest today is Juan Vivas. Juan is a supply chain engineer for SpaceX. His career in STEM has pivoted from chemical engineering to working on foods like Cinnamon Toast Crunch to his current role at SpaceX, where he’s responsible for his work on Starlink, a technology that uses low-orbit satellites to provide internet access across the world. In this episode, Juan shares his story of how he became an engineer and how a thoughtful teacher used robotics to inspire him. I hope you enjoy this great conversation with Juan Vivas. Juan, thanks for being here.

Juan Vivas (01:14):

Yeah, yeah, of course! Super-excited to be here.

Eric Cross (01:19):

Hey, and starting off, I kind of like to ask your origin story. We were talking earlier about Marvel, and your journey of one working for…what I consider the closest thing that we have to SHIELD in the Marvel stories is SpaceX. Like with my own students, we talk about SpaceX like it’s a fictional thing, and we watch the rocket launches together and we watch the recovery and it’s so cool.

Juan Vivas (01:45):

Yeah.

Eric Cross (01:46):

And so when I knew that we were gonna be able to talk to you, I was excited. Like, I felt like I was a kid.

Juan Vivas (01:51):

<Laugh>

Eric Cross (01:51):

So I’d love to hear your origin story of you ultimately landing at SpaceX. And begin wherever kind of seems most natural to you.

Juan Vivas (01:59):

Yeah, yeah, of course. You know, I wasn’t one of those kids at from a young age I said “Oh, I’m gonna be an engineer.” Right? “I want to go and build all these things.” Where I grew up, and the social circle that I had, a lot of people were like doctors or lawyers. Just figured, you know, I’ll go to med school and go down the same path that 90% of like everyone else was gonna take. But in high school, I actually got into robotics. And, kind of like I mentioned, I wanted to do med school, that is what I figured I would end up doing. And then I got into robotics in high school. And I think that was what really kind of like changed my perspective of what I wanted to do, because basically these competitions were just—it was full-on driven by students. So we designed, programmed, and manufactured, like, the entire robot itself. And so through that I ended up doing a summer engineering program at the University of Maryland, the summer before going into my senior year in high school. And there we worked on a competition with underwater robots. And so we spent the entire summer, kind of similar scenario, designing a robot, manufacturing it, programming it. And then in the end it was like a competition in the buoyancy tank with different teams. And, you know, I think one thing that was really neat about that experience is that I got to hear Dr. John C. Mathers, who is a Nobel Prize physicist, speak to us in a room with, like, only 10 high school students. And just hearing his experience of where he started and the accomplishment that he’s been able to do, down in the STEM path, was really neat. And that summer was my final decision that I’m “OK, I know I want to be an engineer.” What’s interesting is I ended up choosing chemical engineering, instead of mechanical, which a lot of people, you know, based on all the experience that led me up to be an engineer, they asked me why I didn’t choose mechanical engineering. And I think one of the reasons why I chose chemical engineering is it’s very process-based. So one thing needs to happen, and there’s different inputs to that one step, and that step has an end-to-end reaction to it, right? So certain things need to happen in step one in order for step two to occur. And however the inputs happen in step one, it’s gonna affect the rest of the process. Honestly, very different than what I thought it was really gonna be. But what’s neat about chemical engineering is that it’s one of the most versatile engineering majors that you can have. Chemical engineering, because you work with a lot of process bases. Everything has a process, right? Everything needs to start with step one, and with, you know, step 10, whatever. And it’s all about optimization and improvement along those processes. So you can really take chemical engineering principles and apply ’em to different areas of a career, which is essentially the experience that I had in college. I had three internships with Dow Chemical where I did environmental health and safety, production, and supply-chain improvement. I then did research and development with Clorox. And then I did manufacturing engineering with General Mills. So really different job roles, different aspects, but same methodology applied.

Eric Cross (05:36):

I feel like there’s so much that you just said, <laugh> and I was trying to always, “I wanna ask him about that!” And in there, what I heard was there was a real pivotable, pivot moment in your life. Was the club…or was it a club, the robotics program? Or was that a class?

Juan Vivas (05:53):

You know, it was actually…it was VEX Robotics, specifically.

Eric Cross (05:56):

It was VEX! OK. Yeah, yeah. Really popular. And they still have it; I think we actually have some downstairs. So it was a club, and not necessarily a formal environment, where you were able to build. And it’s both collaborative and competitive, right? Like, there’s both aspects.

Juan Vivas (06:11):

Yep. Yep.

Eric Cross (06:11):

And, and then you had access to one of the only two facilities in the country that have these…were they buoyancy tanks?

Juan Vivas (06:20):

Buoyancy tanks, yep.

Eric Cross (06:21):

And there’s this book, Malcolm Gladwell’s Outliers, and then another similar book called Balance. It talks about how some of these innovators, like Steve Jobs and, and Bill Gates, they had access to things that other people didn’t. So, like, Bill Gates, I think at the University of Washington, had a computer that, you know, no one else did. And Jobs had one at, like, Hewlett-Packard. So it gave you this awesome headstart, where you’re able to test things in a real-life environment that kind of transfers into real-world skills. And then a few internships, so like, internships and mentors. So you had these people in the industry or people who were front-runners that were able to pour into you and give you these opportunities. And so it’s really neat to see how a program that starts as a club, kind of a competitive thing that introduced you to it and hooked you, then led to unfolding all of these opportunities that ultimately led you up to being here. And there’s one part—in looking at your LinkedIn profile, there’s a couple of really cool things that stand out. There’s a lot of cool things, but there’s two that really stood out. So one, working at SpaceX, and we’ll talk more about that, but I wanna go to General Mills and Cinnamon Toast Crunch. Because Cinnamon Toast Crunch is amazing.

Juan Vivas (07:39):

Yeah.

Eric Cross (07:39):

And you were part of the supply chain for that. In my head, I’m thinking, OK, like, what is he like responsible for? Like, getting the cinnamon and sugar?

Juan Vivas (07:51):

<Laugh>

Eric Cross (07:51):

What was, what did your job entail, when you were running that?

Juan Vivas (07:55):

There, I didn’t even know what I was gonna be doing until my first day. It was just, whatever the business need is, that’s where you’re gonna be put. So this was actually a high-priority plan for General Mills. And the production line that made Cinnamon Toast Crunch was split up into processes. So you have, they call it the process-process side, which is like literally raw materials, like making the cereal from scratch, baking it, adding the sugar, and then sending it to be packaged. And then you have the packaging-process side. so I was then placed as a packaging process lead, for the packaging side of that production line. So I was accountable for two packaging lines that packed out Cinnamon Toast Crunch. And that is where—that was actually my first real, you know, call it “real job,” like graduated college, going straight into the industry. I was a process lead for the packaging side of Cinnamon Toast Crunch.

Eric Cross (08:54):

So you went from cereal to rockets, <laugh>, which which is an amazing trajectory to have.

Juan Vivas (09:03):

Yeah. Yeah.

Eric Cross (09:04):

And when you kind of mentioned, back in your story about medical school, and, you know, it’s kinda like, what you see people doing, and you’re “OK, this is what I think I wanna do.” And then we have a perception in our mind about what a certain job’s gonna be like. And then reality hits. I think a lot of—when I ask my students, “What do you wanna do?” They think, like, “lawyer!” and when they think “lawyer!” they’re like, “I’m good at arguing!” Right? And until they find—until they talk to some lawyers and they find out like what that career can look like.

Juan Vivas (09:28):

Yeah.

Eric Cross (09:28):

You’re not just in the courtroom showing off your arguing skills. But, like, an engineer, when I talk to my students about what does it mean to be an engineer, often it’s very linear. It’s “I build bridges,” or, you know, maybe cars, but you’re a supply chain engineer. And, and that’s something that I think, now more than ever, it’s probably an incredibly critical role, especially considering that all of these supply constraints. Can you—what is a supply chain engineer? And what does it look like in your day-to-day? How is engineering rolled into that?

Juan Vivas (10:03):

Yeah, yeah. I think that’s an excellent question. I, too, once thought that engineering was just “I’m gonna be actually making something physical,” and like being super engineer-y about it. But, to me, based on my experience so far, I think the best way to put it: An engineer is a technical problem solver. As a supply chain engineer, specifically right now in my role at SpaceX…you know, as you can guess, the supply chain in the entire world is crazy. There’s no raw materials anywhere, and nothing can ever get on time. And so what I work on is I help our suppliers develop processes to meet the design criteria that we set up for like a specific part. As my job as a supply chain engineer, it’s “Can I take this design and make it manufacturable?” Right? “Can I go to any supplier and can they actually make this to the tolerance that the design engineer set them to be?” Nine out of 10 cases, the answer is no, essentially, is the best high-level way to put it.

Eric Cross (11:10):

When you’re solving these problems, is it this iterative process of going back and forth? Or is it just this aha-moment when you finally figure things out? ‘Cause I imagine they’re coming up with a design; you’re going back and saying, “Can this be manufactured?” or “Can it be done?” They’re saying no 90% of the time. And then are you the one responsible for kind of iterating on this, or changing it and then going back to them and telling them, asking them, until you get a yes? Is that—

Juan Vivas (11:33):

Yep. Yep, yep. Exactly. So we go through a process called Design for Manufacturing, DFMing. And where I essentially take, you know, the design engineer’s proposal, and then I have conversations with the suppliers, and then, that’s where the iteration begins. Where we go back and forth, back and forth, until we kind of meet in the middle to have something that can be manufacturable. Most of the times, in my experience, suppliers will always tell you no, just because they always want something that is manufactured really easily. And so you just gotta learn through experience. Like, when are they actually telling you something that’s a fact, versus when they’re just trying to you know, get out of a tolerance, or that “all right, all right, they mentioned that would just like make their jobs a little bit more difficult.”

Eric Cross (12:17):

So I’m hearing like there’s soft skills that are woven into the technical skills that you also need to be able to have.

Juan Vivas (12:23):

Oh, yes, absolutely. Yeah. I think, you know, as an engineer—and this is something, again, that I feel like you can only learn through experience—you’re gonna see that it’s not just you working to solve this one problem. Especially for a supply chain engineer. You’re talking with marketing; you’re talking with an industrial design team; you’re talking with logistics; you’re talking with procurement, materials management—just a whole set of people that don’t necessarily have technical background. Right? So sometimes, depending on the audience that I’m targeting, I’m always very, very peculiar on what is my target audience, right? How can I—how deep in my technical knowledge do I need to go? Because if I just, you know, talk straight Engineer, they either don’t care or they’re gonna be really confused about what I’m saying. So there is a stronghold of soft skills that definitely go into engineering, which I think are really important to communicate, you know, to, let’s say, students that are really interested in engineering. So you can be extremely smart and intelligent and really good at problem-solving, but if you don’t have those soft skills that you apply in the real world—’cause in the real world, you’re never only gonna be working with engineers, no matter like where you’re at—so having those soft skills to be able to manage with different backgrounds and different sort of people and different ways of thinking, it’s, I feel, really critical, for, for an engineer in the real world.

Eric Cross (13:50):

No, I think that’s a great point. It reminds me of teaching! And so many other professions where your ultimate goal is to really pour into this person in front of you and help develop them and create a sense of inquiry and wonder and personal growth and inspiration. But you’re also working within constraints and people and relationships. You know, you have your other teachers, you have parents, you have administrators, you have a district, you have communities, stakeholders. You have all of these different dynamics that you have to kind of navigate in order to ultimately help this child thrive. Versus just, like, being in the classroom: “OK, I just got <laugh>, the hundred or 200 students, just you and me. That’s it.” But that’s not the real world. And there’s this report that came out, I think Google ran it, Project Oxygen and Project Aristotle, and they asked the question, “What are the most effective traits of a good team and a manager?” And the top seven skills were all soft skills. So it is like exactly what you’re saying, where, yeah, it’s great that you have this technical aptitude, but if you’re not able to work with other people, problem-solve together, work with people of different backgrounds and perspectives, then you’re gonna run into some roadblocks. And that kind of dovetails, like, looking at things like if you looked at education from the perspective of an engineer. So you’re all about optimizing, right? Optimizing, working with what you got. When you look at education, are there any things that you would optimize to help improve the experience of students? Like, looking back, that you would fine-tune, that you think could provide better outcomes in the classroom?

Juan Vivas (15:28):

You know, I feel…I don’t know. Obviously I’m not a teacher. And I’m sure teachers just have so much stuff going on. But I think just like, finding…giving a chance to those students that you see a lot of potential in and really taking the time to mold them. You know, I did have a teacher who was able to mold me and give me that kind of one-on-one personal experience, right? I think honestly to me it just comes down to mentorship, and motivating students on what, you know, they’re passionate for. Like, putting them in front of engineers, right? Like finding engineers to come volunteer and explain to them. I genuinely believe it just takes one spark to really get a student on a trajectory where they can make an impact in the future. So to me, it comes down to, really, exposure. How much are you really exposing your students to…you know what, something I’ve learned, when I joined SpaceX, is that Elon doesn’t believe—well, you know, there there’s a lot of things that Elon believes and not believes in; there’s a whole different type of conversation!—but he doesn’t think that you can just take a curriculum, let’s say, and just apply it massively to everyone and expect like everyone to be it. That’s just naturally not how it works, right? Students learn at different paces; they have different sort of interests. This is actually why he created his own school for his kids in LA, called Ad Astra. You know, if you take that mentality, what that school is doing is that they’re working at the students’ pace and at the student’s interests, right? And I actually have a coworker who has his kids in that school. And I mean, these are one of the most brilliant kids I’ve ever known. Like, they are taking differential equations in the eighth grade. And I didn’t know what differential equations was until I was in college already and they told me, “This is a class you have to take.” <Laugh>. But it’s finding that crossway where, where is the curiosity of the student? What are they really interested in? and exposing them to that.

Eric Cross (17:51):

Yeah. And what I’m hearing of that is, in teacher-speak, a lot of personalized learning. Like you were talking about…is it Ad Astra?

Juan Vivas (17:59):

Ad Astra? Yep.

Eric Cross (18:01):

Ad Astra. You know, every student learns in their own way and they develop knowledge in their own way. And being able to personalize learning according to the students’ abilities and needs, and then accelerate or slow down, really produces some amazing effects. I know this is something that we as teachers try to do with the classroom. Scaling it is the challenge. But it’s great because even with people who are in charge of policy or people who have decision-making ability, hearing people from the top down saying, “Hey, look, this is what worked for me. This is how I was able to become successful. I had a teacher that was able to be a mentor to me because they knew me, they had a relationship with me, they were able to tap into my passions and use those passions to drive me to do or put me in programs that I might not have known about because they, they knew who I was.” And it’s not one-size-fits-all for everyone. So having—maybe it’s curriculum or learning experiences that are kind of modular, where students are able to maybe try on different things and get that exposure, I’m a big, big believer, like you are, in mentorship. That was a huge, huge thing in my life. Having mentors. It’s the reason why I became a science teacher. In seventh grade, I had a mentor who had us doing college-level science, you know, at UC San Diego. And it completely changed the trajectory of my life, in a direction that I wouldn’t have had without him. So I think that’s great. And it’s something that we as teachers would appreciate hearing. Going back to what you said…earlier you said your wife is a supply chain engineer as well. And so that means that there’s two people who are process-minded in the household. And this is kind of a lighter question, but I gotta wonder, do you have the most optimized flow for grocery shopping? <Laugh> Because…

Juan Vivas (19:49):

Yeah, I think we don’t spend more than like 20 minutes at a grocery store. Mind you, we only shop at Trader Joe’s and we have a very specific list before going in. And if you ever shop at Trader Joe’s, you just know where everything is ’cause it’s always there and it’s small, right? But yeah, like we’re, we’re in and out in like 15, 20 minutes. It’s great.

Eric Cross (20:11):

I love it. I love it. I feel like I’m that way by design. I go in with a purpose and this is exactly what I want. I know where the cookie butter is, <laugh>, I know where my coffee is, and then, OK, I’m in and out. Apple Pay or whatever I’m using. And then we’re good to go. Do you think…so as someone listening to this or some people even just becoming aware of supply chain engineering, what advice would you give someone that’s interested in pursuing this career path? If you maybe reverse-engineered your process, knowing what you know now, you were gonna give advice, you were that mentor, what are just some kind of tips or ideas or thoughts or trajectories that you’d think that they should aim for? I’m assuming like robotics….

Juan Vivas (20:56):

Yeah. You know, I think I would say definitely finding some sort of program that exposes you to a lot of things that you won’t be exposed to, like on a day-to-day basis, or something that you just can’t be exposed to naturally at school. And mentorship, honestly. I was born in Colombia and my parents were both—they’re still both professionals, but they were both professionals in Colombia. And when we moved to this country, this was like December of 1999. My parents started from scratch, and so they didn’t really grow up in the States, right? So when it was my time to go to college and do all of this stuff, it was just like me on my own figuring this stuff out. And, you know, they definitely made some mistakes when it came to college applications and whatnot. But once I was in college, I knew that the best way for my success was gonna be through mentorship. And that’s when I joined the, Society of Hispanic Professional Engineers, which is a nationwide organization. And each college, well, most college campuses, have their own chapter. In joining that, I was exposed to resume workshops, mock interviews—basically how do you even talk to a recruiter? Which is so critical, right? And personally that that organization was really what molded my actual professional career.

Eric Cross (22:19):

There’s this theme that I’m hearing, kind of weaving through this. And in addition to—as we’re talking about STEM and technical skills, in addition to that, there’s this thread that I’m receiving of…being able to form relationships with other people, for our students, is an important skill to teach and should be taught explicitly. Which isn’t…it’s not really a curriculum, right? Like, you don’t get tested on your ability to….conflict resolution or how to write an email or how to develop a relationship. And then the other part in I think what you just said is the aspect of community. Through this organization, you learned kind of some of these hidden rules, maybe I would call it.

Juan Vivas (23:04):

Yep.

Eric Cross (23:04):

It’s not that you didn’t have the…you had the aptitude. You had the drive. But there were these kind of hidden rules, and from moving to the US, you needed a community to be able to show you, so that you can kind of go through the proper steps.

Juan Vivas (23:16):

Exactly.

Eric Cross (23:17):

And so that created a lot of value for you.

Juan Vivas (23:19):

Yep.

Eric Cross (23:20):

Well, the last question that I have is, is just kind of a wondering. You have this awesome story, and the story continues to unfold. I gotta say, <laugh> I’m gonna be following your LinkedIn profile, because I think you just have kind of the coolest trajectory of going from, you know, General Mills, working in chemical engineering, and then ultimately it’s SpaceX. And every time I see the rocket taking off and landing, I’m gonna be thinking, thinking about you. So cool!

Juan Vivas (23:47):

Yeah. Yeah.

Eric Cross (23:49):

And personally, I have a hope that one day, one of my students will be at a company, you know, like SpaceX or Tesla or wherever, and one day I get to interview them and talk to them and see what they say. But the last question I want to ask is, is there, is there a teacher who inspired you, or a memorable experience that you have that made an impact on you?

Juan Vivas (24:16):

Yeah, yeah, of course. It was kind of you know, middle school going into high school. The way my school worked, everything was divided from pre-kindergarten, whatever, first to sixth grade, and then seventh grade to 12th grade. So I had a high school science teacher, Ms. Brown, Ms. Velda Brown, who, came from a small little island town on the east coast of Canada. Somehow landed, in the high school that I went to, to teach science. Going back to the beginning of the story where I mentioned that I figured whatever, I’ll go to med school. I played soccer, basketball, and, you know, I said, “I’ll figure it out once I graduate.” It might have been like life science in the eighth grade or something like that. But then she went on to teach me chemistry and physics as well. And when I was in the 10th grade, she approached me and she asked me if I wanted to join the robotics club. And I remember saying robotics? I don’t know. You know, naturally, in school, it’s different sorts of crowds: people that play sports and people that are like in like STEM clubs or whatever. And I was, “Ah, I don’t know; I don’t know how I feel about robotics; not really my thing….” But somehow she convinced me to join robotics. It’s me, coming into this group of kids that already knew each other, and they were all working on robotics. And I’m, “Yeah, I mean, I guess I’m just here to try this thing out.” It was a thing where we met every single Saturday at like seven in the morning. And there were times where I literally had to choose, “Do I go to like a soccer game or do I go to you help my team with robotics?” And I completely loved it. Like, I fell in love with the aspect of building something from scratch, and just making it operative. And she ended up just being a huge mentor for me in high school, actually. With her, with the help of her, I ended up opening the robotics club at my school. And before I left, we opened it up to middle schoolers. And then, you know, later, years later down the road when I was in college, I found out that it was now a whole-school thing. So there was an elementary robotics club at the school, the middle school one, and then the high school one were still a thing like years after I left. And that was like just so amazing to hear. But yeah, it was Ms. Velda Brown, my high school science teacher, that really took her time to mold me and get me into robotics, and really mentor me. And honestly, I’m sure you as teachers, you guys probably hear about it a lot, but you can have a lot of power in shaping a kid by just telling—believing in them, right? She believed in me so much that I would go on to be a successful engineer. And I’m. “OK, yeah, yeah, you’re just saying it.” But she spoke life into her students up to this day. I still speak about it with my wife, and when I’m in conversations about this, that if it wasn’t for my high school science teacher, I would not—well, no, I would probably not be an engineer right now.

Eric Cross (27:38):

Wow. Shout out to Ms. Velda Brown <laugh>. Would you say she spoke…I think one thing that just resonated with me is when you said she “spoke life” into you.

Juan Vivas (27:46):

Yeah.

Eric Cross (27:46):

That was really powerful. And I think we as teachers have that power and we don’t realize it. Because, you know, we get so we’re so familiar and living day-to-day, but we do have the power of life, speaking life, into our young people. And, yeah, that was—

Juan Vivas (28:03):

Absolutely, yeah. You know, I think obviously people grew up with different backgrounds, different communities, life situations, right? So imagine having like a student that is similar in that environment and then they just hear someone at their school, like, “Hey, you’re really good at this. why don’t you consider doing this?” And that’s when I feel teachers have that power. Where like they don’t necessarily know the background, but they can make that opportunity, or make that decision in the moment, to really shape a student’s life.

Eric Cross (28:37):

And we need to hear that. And I think, I hope that other teachers listening to this will be reminded that many times we don’t get to reap the harvest. We don’t get to see the <laugh> Juan Vivases at SpaceX. They just kind of go, and they disappear, and we hope for the best, and we get a new group. But every once in a while they come back, and we get to see what our watering or seed-planting was able to produce. And so, just know that you sharing your story for educators, and for definitely Ms. Brown, makes a huge difference and is a huge encouragement. So.

Juan Vivas (29:11):

You know, I think we touched on earlier, you know, how do I end up going from cereal to rockets, right? And I think it ties along with what I mentioned earlier of just taking—as an engineer, you’re really a critical problem solver, right? And you think that methodology. And if you find a way, you can apply it to different sectors. When I was doing a lot of like the packaging process stuff at General Mills, being a lead on a high-volume manufacturing line, what I do for SpaceX specifically, right now, I’m actually on the Starlink project. So if you’re up to date with Starlink, it’s, it’s essentially high reliable, fast internet that we’re providing to areas where usually people don’t have access to internet, right? Or maybe they do, but it’s extremely expensive. Because to an internet provider company, the benefit is not there, if they extend an entire internet fiber line out to their place because it’s only directed to them, right? So that’s, that’s essentially what Starlink is trying to solve. And this is the first time that SpaceX is facing a consumer packaging scenario. Before it was just rockets. And now they’re selling a product to consumers. They had never done that before, especially in a high-volume manufacturing setting. And so I am the supplier development engineer for all the consumer-facing packaging for the Starlink product itself. And that’s essentially how all those thoughts connected, where I had this experience coming from General Mills and packaging high-volume manufacturing. And then when Starlink started, they’re all, “Right, well, who knows anything about packaging?” Right? “We know so much about rockets, we need someone with this technical background.” And that’s essentially how I bridge over to SpaceX.

Eric Cross (31:11):

And so while you’re working at SpaceX, you’re working on Starlink, which I know you mentioned that—you said that it’s providing internet globally, which in and of itself, we—especially those of us that live in major cities—we kind of take for granted. Internet is like a utility. But we don’t maybe realize that in many parts of the world, internet is not reliable or even accessible.

Juan Vivas (31:33):

Right. Right.

Eric Cross (31:34):

I see every once in a while, I think, the StarlinK satellites sometimes are visible?

Juan Vivas (31:38):

Yep.

Eric Cross (31:39):

Low orbit?

Juan Vivas (31:39):

Yeah. Yeah. You can go—they’ll kind of be like a little train of bright stars that move along together. Yep.

Eric Cross (31:46):

And that must—that must feel…I mean, we all have jobs and we’re all doing different things, but you’re working on a project and you’re engineering something that actually can provide a lot of opportunities or close a gap in some parts of the world where they don’t have access to internet. They’re gonna be able to have access and be connected all over. I dunno, the word would be “existential.” Existential value. Like, what you’re doing is actually providing a service for people. Humanity. Like, addressing a critical need in many, many places around the world.

Juan Vivas (32:26):

Yeah. We’ve had stories where we have sent Starlink kids to a small school in a village in rural Chile, right in South America. And for the first time ever, they’ve had internet. We have supported disaster relief in Europe. I think this past summer, Europe had really bad floods. We sent Starlink kits out there. You know, the vision of working at an Elon Musk company and SpaceX and Starlink—this is all stuff that is being done for the first time in history. We have never, ever done anything like this before until now. And to be able to provide those that don’t have the access to—to your point, it’s kind of wild, right? Like we, we just take it for granted. “Oh yeah, I just have internet. Let me log on.” There are people on Earth right now that have never been on the internet. Or don’t even know what the internet is. And that’s essentially the, the gap that Startlink is starting to close.

Eric Cross (33:26):

Yeah. We think about that while my students are doing TikTok dances. <Laugh> And there are people who, you know, never, never been connected. And, it kind of makes me more like, just inside, if I can ask: What’s it like working at SpaceX? I showed my students what it’s like working at some of the Silicon Valley companies. ‘Cause just to show them there’s slides and food and, you know, they kind developed this ecosystem inside so that it’s really kind of homey to kind of keep you there, you know. When you’re working and there’s bikes and things like that. And that’s a very Silicon Valley type of thing. But, you know, in listening to you talk about SpaceX and Elon, you know, you’re with a really visionary kind of company, and when I hear you talk about it, there’s I can hear this passion, this, “we’re doing something.” Is that culture, like, pervasive everywhere? Are you around folks that kind of are on that same wavelength? Because I definitely get it from you as you talk about what you do.

Juan Vivas (34:28):

Yeah, yeah. Definitely. I think, as an engineer, you know, going to SpaceX and working at SpaceX, it’s essentially—personally, I believe right now in the US it’s like the mecca of engineering, right? Like, it is where engineering in this most, you know, shape and manner, it’s being applied. I think what’s really interesting is that the way that Elon looks at it is just iterate, and iterate fast, right? Like, fail and fail fast. I think as an engineer, you always want to have things perfect, right? And so you spend a lot of time in making a decision or investigating something or whatever. And working at SpaceX is the complete opposite. It’s just you know, “Assume, state your assumptions—like, what are you assuming right now? What are the risk at it? And just make a decision and then see what the result is.” You know, so it’s an environment where you learn, really quick.

Eric Cross (35:28):

You said something that I think was powerful and I hope, I think <laugh>, this is definitely, I’m gonna get a clip of this <laugh> of you saying it. Because it speaks directly to, I think, what a lot of students struggle with in the classroom, is there’s this competition or feeling that you always need to be right. And you need to be right the first try, on the first time. And a lot of times it’s because students will compare themselves to each other, or there’s a tremendous amount of pressure to be successful. But you said, “Fail and fail fast, iterate, state your assumptions.” And it sounds like this critical part of being an engineer or in what you do, like there’s no room for ego or attaching your identity or your sense of value or worth or ability to whether you’re able to solve a problem in the first try.

Juan Vivas (36:13):

Yep.

Eric Cross (36:14):

Like, you have to be OK with the cycle, is kind of what I’m hearing from you. Is that, is that right?

Juan Vivas (36:19):

Yep. Exactly. It only took six months to develop the product from scratch and launch it to the public, which is insane. Nowhere in the world will any company ever iterate that fast and come up with a brand-new project. But it’s because of that mentality—like you’re saying, it’s not about like just trying to make it perfect and have all this information. And I think Elon has learned this personally, you know, through Tesla and the beginning of SpaceX. It’s, “I can wait to have all this information, and most likely I’m still gonna be wrong after I make the decision.” So it’s, “Might as well take the risk, do the decision, and then just see where you learn from it, right?” And then you keep applying that, applying that. So it’s like you iterate, iterate, iterate, iterate until you get what you want.

Eric Cross (37:00):

I think this is even, like, great advice. I’m taking this personally because I get paralysis by analysis <laugh>.

Juan Vivas (37:06):

Yep.

Eric Cross (37:07):

You know, I’ll research something to death but then not actually execute. Like, I need to make a decision and do it and then course-correct along the way. Somebody once told me it’s a lot easier to turn a moving car than it is a car that’s sitting still. And so as you’re kind of flowing, you’re just making these adjustments along the way until you end up on the path that you want to be. So I think that there’s so many gems in the things that you’re saying right now. What I’m thinking through the lens of my seventh graders that want to work in any STEM field—I mean, really, any field in general, but especially engineering, especially the STEM fields—knowing that, pick it, make a decision, move forward, and then course-correct along the way. That’s what science looks like in the real world.

Juan Vivas (37:49):

Yep. Exactly. Yep. And definitely most important—and I feel like this is sometimes where, not necessarily education in general, but it’s just, we want students to, “OK, you need to get it right the perfect time, right?” But it’s like, every student is gonna think differently. A student is gonna take a different assumption based on their background and experiences. And I mean, you know, we can go a lot deeper in that, but the way a student is shaped, they’re gonna take certain assumptions. So that’s where it gets interesting. OK, why are you assuming that? Where’s your thought process in this?

Eric Cross (38:25):

And we all come from different backgrounds and mindsets and filters and biases that cause us to look at something a certain way. And it’s not just like calling it out, just going, “Hey look, this is what it is.” Like autopsy without blame, this is what I’m working with. Let’s discuss it openly. Right? And if we started that process earlier, you know, younger, in classrooms, we can de-stigmatize the right answer being the best answer more, as opposed to focusing on process as opposed to outcome. And then you kinda get used to wanting to go through the process. I look at it like video games and I talk to my students. I say, “You know, you don’t pick up a video game that’s brand-new and then play it and then you die once and you’re ‘Ah, I’m never gonna play this game again.’ You know, it just doesn’t work that way. You’re going through this iterative process, and no matter what you play, you’re trying things differently. You’re data collecting. And then you’re making new decisions based on the data that you collected.” And for some of my kids, they’ll just raise their hands, say, “No, I just get mad and throw the controller across the room.” <Laugh> But I go, “Yeah, and then you’ll try it again.”

Juan Vivas (39:33):

The best way to know how not to do something is to fail. And so you already…I mean, what is that famous quote? I think that’s why Thomas Edison’s, “Oh, I, did not fail 99 times. Right? I only found 99 times…” I mean, that is that is true. And I feel like at work in a SpaceX, that is something that probably the core of it comes from there. It’s you know, any failure, quote unquote, that you may take it as a failure, it’s really not. You’re just “OK, we, we tried that. It didn’t work. Like what are we gonna do next?” So it’s just like taking that learning and like moving off with it quickly.

Eric Cross (40:09):

I heard a couple of teachers say, “Things fail: First Attempt In Learning: F A I L.” And then another teacher, one of my mentor teachers, she said, “There’s no such thing as failure, just data, in science.”

Juan Vivas (40:20):

Mm-hmm. <affirmative>. Exactly. Yep.

Eric Cross (40:23):

And so I’ve always taken that to heart. And I share that with my own students, just, “A ‘no,’ a lot of times, will tell you more information than a ‘yes.’” ‘Cause if something works in the first try, you may not exactly know why it worked. It just did.

Juan Vivas (40:34):

Yeah. Yep.

Eric Cross (40:37):

So yeah. Well, I went on your time, brother. Dude. <laugh>. The time flew. It was…

Juan Vivas (40:46):

Yeah.

Eric Cross (40:47):

There were so many things I was trying to write out as you were talking, that I just felt like, “This guy is sharing so many gems!” But yeah, I want to thank you for taking time outta your day and for sharing that information for your passion for what you do. And, I don’t know, I think that students and teachers that listen to this will get an insight from a perspective that really matters. ‘Cause ultimately we’re, we’re trying to really prepare our students for real life. Maybe I’ll email you privately if I order a Tesla, if you can move me higher up the Cybertruck line. <laugh>

Juan Vivas (41:22):

Yeah. No promises.

Eric Cross (41:24):

<laugh>

Juan Vivas (41:25):

Yeah. No, I appreciate you guys having me, having me here, and be able to speak on my experience. And hopefully it sparks a couple, one, even if it’s just one teacher that will spark another student, that is already success there. So.

Eric Cross (41:42):

Well I know, I know what you said resonates with me and it fills my cup. And I’m excited. So I’m already thinking of some ideas of things that I can do, just because of this conversation, and I know other people will as well. And, again, this is Juan Vivas, who’s a supply development engineer at SpaceX. He’s worked at some amazing places. And someone who believes deeply in not only the power of the technical skills, but the heart skills, and how community makes a huge impact in his life. It made a huge impact in him ultimately becoming a scientist, and now working on a project at SpaceX, Starlink, that is going to provide access to the world, to the web. And that’ll ultimately help us solve more problems and innovate and create some solutions that will benefit everybody. Thank you, sir. Appreciate you.

Juan Vivas (42:30):

Yeah, thank you. Thank you so much, Eric. Appreciate it.

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What Juan Vivas says about engineering

“Based on my experience so far, I think the best way to put it… an engineer is a technical problem solver.”

– Juan Vivas

Supplier development engineer, SpaceX

Meet the guest

Juan Vivas is a chemical engineer currently working as a Supplier Development Engineer at SpaceX. Juan got his start at the University of Florida, where he led the Society of Hispanic Engineers (SHPE) as vice president. He’s worked for companies like Clorox, Dow Chemical, and General Mills. Juan lives in Los Angeles, California with his wife and two dogs.

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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.

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S3 – 04. Ideas to build math fluency with Valerie Henry, Graham Fletcher, and Tracy Zager

Promotional image for "Math Teacher Lounge" Season 3, Episode 4 titled "Ideas to Build Math Fluency," featuring Valerie Henry, Tracy J. Zager, and Graham Fletcher.

Fluency in math can oftentimes be associated with negative experiences with its development— timed worksheets, for example. Bethany and Dan are joined by three guests to better understand fluency and how to make its approach fun. Dr. Val Henry shares her three-part definition of fluency and her five principles for developing it. Additionally, Tracy Zager and Graham Fletcher join Bethany and Dan to better understand fluency through a lens of equity and using multimedia as a tool.

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Dan Meyer (00:03)

Hey folks. Welcome back. This is Math Teacher Lounge, and I am one of your hosts, Dan Meyer.

Bethany Lockhart Johnson (00:07):

And I’m your other host, Bethany Lockhart Johnson. Hi, Dan.

Dan Meyer (00:11):

Hey, great to see you. We have a big one this week to chat about and some fantastic guests. We are chatting about fluency, which is the sort of word and concept that I feel like people have very, very non-neutral associations with it. A lot of them are very negative, for a lot of people.

Bethany Lockhart Johnson (00:26):

I saw you frown a little. What’s up with that, Dan? You kind of, like, shrank.

Dan Meyer (00:30):

I have strong feelings about it. You know, there’s lots of ways that people go about helping people become fluent in mathematics. And a lot of them are harmful for students, and ineffective. And it got me thinking about fluency as it exists outside of the world of mathematics, where we have a lot of very clear images of it. We’re getting fluent in things all the time. Like, as humans. Human development is the story of fluency. And I just was wondering….Bethany, would you describe yourself as fluent at something outside of the world of mathematics? What is that? How’d you get fluent at it? What was the process?

Bethany Lockhart Johnson (01:05):

Hmm, I think I’m a pretty fluent reader. I read all the time. I’m a happier person if I’ve read that day. I once saw this poster in a classroom; it said “10 Ways to Become a Better Reader: Read, Read, Read, Read, Read…you know, 10 times. Get it? Reading? You get better at reading by reading! So I would say reading. And it’s been kind of cool—I have a one-year-old who, it’s been really exciting slash overwhelmingly anxiety-producing to see him get very fluent with walking slash running, ’cause he’s getting faster every day. And it’s kind of fun. When I think of what’s something somebody’s trying to get fluent with…walking! He’s trying to be more fluid. He’s practicing transitions. He doesn’t wanna hold my hand while he traverses rocky terrain. He’s getting better at it. He’s practicing. What about you? What’s something…?

Dan Meyer (02:08):

I think about driving a lot. I’m a very fluent driver and I think a lot about when I was first a driver, you know? And how l have my hands on 10 and 2, vice grip, and do not talk to me; do not ask me anything; don’t ask me my NAME. I need to focus so hard. And then a year later, you know, I’m driving with one hand, smash the turn signal, take a sip off of whatever, change the CD. And then it’s no big deal.

Bethany Lockhart Johnson (02:38):

Wait, did you pass the first time? Your test?

Dan Meyer (02:40):

Yeah, I don’t like to brag about it. <laugh> But I do all the time. <laugh> But I got a hundred on my driving test. I don’t care who knows it. And I hope it’s everybody. But I guess all of this is just to say there are areas of life where fluency feels natural, with the case of walking. There’s areas of life where fluency feels motivating, with like driving—I wanna be able to switch the CD out or whatever. And there’s areas where fluency feels terrifying and hard to come by, like mathematics, sometimes. So we have a set of guests here. Our first guest will help us figure out what do we mean by fluency? And what’s the research say about what fluency is and how students develop it in mathematics? And then our other guests will help us think about what it looks like in practice in the classroom. What are some novel, new ways to work on fluency? So first up we have Val Henry, Dr. Val Henry.

Bethany Lockhart Johnson (03:32):

So we knew we needed help with the fluency definition, because when we think about it, it’s kind of big, right? And we wanted to look at what research about fluency really says. So we called on Valerie Henry. Val is a nationally board-certified teacher, taught middle school for 17 years, and since 2002 has worked with undergraduates graduates, credential candidates as a lecturer at the University of California, Irvine, one of my alma maters. So after doing her dissertation on addition and subtraction fluency in first grade, Val created a project to study ways to build addition and subtraction and multiplication and division fluency while also developing number sense in algebraic thinking. And the pilot grew and grew over the last 18 years into a powerful daily mini-lesson approach to facts fluency called FactsWise. And when we thought of fluency, the first person I thought of was Val. Welcome, Val Henry, to the Lounge! I’m so excited to have you here. Welcome.

Valerie Henry (04:36):

Thanks, Bethany. And thanks to you, Dan. It’s great to be here today.

Dan Meyer (04:41):

Great to have you; help yourself to whatever you find in the fridge. The names that people write down on those things in the bags are just recommendations. It’s potluck-style here. I’m curious, Val, if you’re, like, on an airplane, someone asks you what you do, and you say you study fluency…what is the layperson’s definition of what does it mean to be fluent in mathematics? And if you can give a brief tour through what the research says about what works and what doesn’t that would really help us orient our conversation here.

Valerie Henry (05:12):

The first thing I have to do when I talk to somebody on a plane is define the idea of fluency. And I often use an example of tying your shoelaces. Because that works with first graders as well as adults. This idea that when we first start trying to put our shoes on and get those shoelaces tied, somebody tries to, first of all, just do it for us. But then of course maybe tries to teach us the bunny-ears approach. And we struggle and struggle as little kids and eventually either the bunny-ears approach or something else starts to work for us. But we still have to pay attention to it. We have to think hard and it’s not easy. And then over time we get to the point where we basically don’t even think about it. When I tie my shoes in the morning. I’m not thinking about right-over-left and left-over-right and all of those things. I just do it. And so that’s a good, easy example of becoming fluent with something. I think what we’re talking about today though, is the basics, the adding and subtracting that we hope kids are going to have mastered maybe by second grade, and the multiplication and division facts that we wanna maybe have mastered by third, maybe fourth grade. So now what does that mean to become fluent with those basics? I have a three-part definition that seems to match up really nicely with the common core approach to fluency. Which is, first of all, we want the answers to be correct. And then second, we want the answers to be easy to know. And so what does that mean? Well, to me, it means without needing to count,

Bethany Lockhart Johnson (07:12):

You mean without having to kind of muscle through it? Or say more about you mean.

Valerie Henry (07:16):

Well, I guess what I mean is that when you watch a young child try and solve something even as simple as two plus three, they might put up two fingers and then go 3, 4, 5 with three more fingers winding up on their hand, one or the other of their hands. While they’re doing that, they don’t really have a sense of whether even their answer is right or not, quite often. Especially when you get to the larger adding and subtracting problems, you can see a lot of errors happening as they’re trying to count. And it’s taking up cognitive energy to do that counting process, especially as you get to the larger quantities. So my definition of fluency now is “getting it right without needing to do that hard work like counting.” Now, some people might say, well, we just want them to have ’em memorized. But in my research, I’ve learned that a lot of very fluid adults don’t always have every fact memorized. In fact, if you ask a room full of adults, what’s seven plus nine, you might learn that they can all get it correct quickly, quickly…but they don’t all have it memorized. And so when you ask them, “How did you get that?” Many of them will say, “Well, I just gave one from the 7 to the 9 and I know that 10 plus 6 is 16.”

Bethany Lockhart Johnson (08:53):

That’s such an important distinction. My brain literally just did that actually!

Valerie Henry (08:58):

<laugh> Right? <laugh> But you’re fluid with it, because it doesn’t take you much cognitive energy at all.

Bethany Lockhart Johnson (09:05):

Right.

Valerie Henry (09:07):

So now we have “correct without needing to put that cognitive energy,” which usually means that you’re counting. And then the third thing is “relatively quickly,” so that you’re not spending 15 seconds trying to figure it out. Even that part-whole strategy approach can be done really quickly, almost instantaneously. Or it can take a long time. So if a student can get the answer correct within, you know, three or four seconds— is I’m pretty generous—I figure that they’re pretty darn fluent with that fact. So that’s my three-part definition of these basics, fluency.

Dan Meyer (09:55):

I love the distinction between getting it correct and getting it quick. It’s possible to be quick with wrong answers. It’s possible to be like, “Those are separate components there.” And I echo Bethany’s appreciation for this third option in between knowing it instantaneously through memorization and muscling through it. But there’s like a continuum there of how much energy it took you to come up with it that all feels extremely helpful.

Valerie Henry (10:21):

And you know, one of the things that I’ve noticed is that when kids are pressured to come up with those instantaneous answers, they often default to guessing and get it wrong.

Bethany Lockhart Johnson (10:30):

Mm, yeah.

Valerie Henry (10:30):

So that’s one of the things that I’ve learned is that as we’re trying to help students develop fluency, it’s important to start with building their conceptual understanding of what it means to do, you know, 3 times 9 and what the correct answer is, maybe using manipulatives or representations of some sort. Not skip-counting! I really have found that skip-counting just perpetuates itself in many students’ minds and that they never stop skip-counting, which means they’re putting in not very much mental energy if it’s 2 times 3 but a ton of mental energy if it’s 7 times 8. Because frankly, it’s really hard to skip count by sevens. And by eights.

Bethany Lockhart Johnson (11:18):

I can get to 14 and then I’m like, wait, wait, what was next? Right? No, no, no…21! What do you feel are some misconceptions that maybe teachers, maybe parents have about fluency in math?

Valerie Henry (11:30):

I think maybe one of the first ones is that if students count or skip-count, their answers repetitively over and over and over and over, that they’re bound to memorize them. And the study that I did back in 2004, I actually had a school that had decided that they were going to do time tests with their students every day, all year. And that undoubtedly by the end of the year, those students would be fluent.

Bethany Lockhart Johnson (12:06):

And to clarify by time test, you mean like, sit down, pencil, paper, ready, go, worksheet kind of thing.

Valerie Henry (12:15):

Yes.

Bethany Lockhart Johnson (12:16):

Some of us might remember quite vividly.

Valerie Henry (12:18):

<laugh> Very vividly. And you know, you have to get it done within a certain amount of time. So they made it fun for the students. Apparently the students enjoyed it. I was a little leery about that, but in the end, when I went and checked on the students and I did one-on-one assessments with half of the students in every class that were randomly selected so that I could get a sense of where they were with their fluency—and these were first graders—they basically had nothing memorized. They were simply counting as fast as they possibly could. And, you know, mostly getting the right answers. But they had not memorized. So that’s one of the myths, I think, is that repetitive practice of counting gets you to memorization.

Bethany Lockhart Johnson (13:10):

If I put it in front of you enough times, you’ll become fluent.

Valerie Henry (13:14):

Right, right. Now these students didn’t really get any instruction, any help learning these. They just simply tested over and over and over. So that’s another thing that I think is a misconception. It’s that if we test students, but don’t really teach them fluency, then they’re going to become fluent. If we just test them every Friday or that kind of thing. And that they’ll learn them at home. But really what that means is a few lucky kids who have parents who have the time and the energy and the background to know how to help will take that job on at home. Not that many students are really that fortunate.

Dan Meyer (14:01):

It’s almost like the traditional approach, or the approach you’re describing, confuses process and product. It says, “Well, the product is that eventually fluent students will be able to do something like this, see these problems and answer them, answer them quickly,” and says, “Well, that must be the process then as well; let’s give them that products a whole lot.” But as I hear you describe fluency with bunny ears on shoelaces, there’s these images and approaches and techniques that require a very active teacher presence to support the development of it. That’s just kind of interesting to me.

Valerie Henry (14:35):

My initial project, the pilot project that I tried, was to simply ask teachers to follow five key principles. And the first one was to do something in the classroom every day for—I told them, even if you’ve only got five or 10 minutes, work on fluency for five or 10 minutes a day, and let’s see what happens. So that was one key element was just to teach it and to give students opportunities to get what the research calls for when you’re trying to memorize, which is actually immediate feedback. When I talk about immediate feedback with my student teachers, I say, “I’m talking about within one or two seconds of trying a problem, and then sort of immediately knowing, getting feedback of whether you got the answer right or not so that your brain can kind of gain that confidence. ‘Oh, not only did I come up with an answer, but somebody’s telling me it’s the correct answer.’”

Dan Meyer (15:38):

There’s a lot of apps now in the digital world that offer students questions about arithmetic or other kinds of mathematical concepts and give immediate feedback of a sort: the feedback of “You’re right; you’re wrong” sort. Is that effective fluency development, in your view?

Valerie Henry (15:57):

I haven’t heard and I haven’t seen them being super-effective. The ways I think about this are “Immediate feedback isn’t the only thing we need.” Probably one of the biggest things that we need is for students to develop strategies. And this is one of the other things I’ve learned from international research, from countries that do have students who become very fluent very early, is that they don’t shoot straight for memorization, but they go through this process of taking students from doing some counting and then quickly moving them to trying to use logic. So, “Hey, you really are confident that 2 + 2 is 4; so now let’s use that to think about 2 + 3.” Actually, as an algebra teacher, I would much rather have students that have a combination of memorization and these strategies, than students who’ve only memorized. Isn’t that interesting that my most successful algebra students were good strategy thinkers. Not just good memorizers.

Bethany Lockhart Johnson (17:09):

So you mentioned there were five that kind of helped root this idea in like, “What can teachers do? What is the best thing that teachers can do to support with fact fluency?” So, everyday was key.

Valerie Henry (17:22):

Then the next principle that I really focus on is switching immediately to the connected subtractions so that students—

Bethany Lockhart Johnson (17:33):

Not waiting until you’ve gotten all the way through addition. But making “Ooh!”

Valerie Henry (17:38):

Totally. And I didn’t do that the first year. And when we looked at the results of the assessments at the end of the year, we realized that our students were so much weaker in subtraction than addition. So the following pilot year, we tried this other approach of doing subtraction right after the students had developed some fluency with that small chunk of addition. And we got such better subtraction results.

Bethany Lockhart Johnson (18:11):

What are the other principles?

Valerie Henry (18:13):

The biggest one is to use these strategies. So the strategies makes the third. And then the fourth I would say is to go from concrete to representational to abstract.

Bethany Lockhart Johnson (18:27):

Don’t put away those manipulatives. Don’t put away those tools.

Valerie Henry (18:31):

Oh, so important to come back to them for multiplication and division. And my fifth principle is to wait on assessment. To use it as true assessment, but not race to start testing before students have had a chance to go through this three-phase process. Which is conceptual understanding with manipulatives; building strategies, usually with representations; and then working on building some speed until it’s just that natural fluency.

Bethany Lockhart Johnson (19:07):

I wanna say thank you so much for offering your really learned perspective, because you have not only done the research, but seen it in action and seen how shifting our notions of fluency and what fluency can be and what a powerful foundation it can be for all mathematicians. Really, that shift is so powerful. And I appreciate you sharing it with our listeners and with us. So we’re so excited that we got to talk with you today, Val—

Dan Meyer (19:35):

Thank you, Dr. Henry.

Valerie Henry (19:37):

You’re welcome!

Dan Meyer (19:41):

With us now we have Graham Fletcher and Tracy Zager, a couple of people who understand fluency at a very deep and classroom level. I wanna introduce them and get their perspective on what we’re trying to solve here with fluency. So Graham Fletcher has served in education in a lot of different roles: as a classroom teacher, math coach, math specialist, and he’s continually seeking new and innovative ways to support students and teachers in their development of conceptual understanding in elementary math. He’s the author, along with Tracy, of Building Fact Fluency, a fluency kit we’ll talk about, and openly shares so much of his wisdom and resources at gfletchy.com. Tracy Johnson Zager is a district math coach who loves to get teachers hooked on listening to kids’ mathematical ideas. She is a co-author of this toolkit, Building Fact Fluency, and the author of Becoming the Math Teacher You Wish You’d Had: Ideas and Strategies from Vibrant Classrooms. Tracy also edits professional books for teachers at Stenhouse Publishers, including, yours truly. Thank you for all that insight, Tracy, and support on the book.

Bethany Lockhart Johnson (20:49):

Dan and I were talking at the beginning of the episode about things we feel like, “Hey, I’m fluent in that. I’m fluent in that.”

Dan Meyer (20:55):

Just very curious: What’s something you would like to get fluent in outside of the world of mathematics, let’s say?

Tracy Zager (21:00):

I’ll say understanding the teenage brain, as the parent of a 13-year-old and 15-year-old. That’s the main thing I’m working on becoming fluent in!

Bethany Lockhart Johnson (21:10):

Ooh!

Dan Meyer (21:13):

A language fluency, perhaps. All right, Graham. How about you?

Graham Fletcher (21:16):

For me typing, it’s always been an Achilles heel of mine. So voice-to-text has been my friend. But it’s also been my nemesis in much of my texting here and working virtually over the last couple years. So yeah, typing.

Dan Meyer (21:33):

Do you folks have some way of helping us understand the difference in how fluency is handled by instructors and by learners?

Tracy Zager (21:40):

I would say that the lay meaning of fluency is definitely a little different than what we mean in the math education realm. When we’re talking about math fact fluency, which is just one type of fluency. So you gotta think about procedural fluency and computational fluency; there are lots of types of fluency in math. And Graham and I had the luxury of really focusing in specifically on math fact fluency. We’re looking at kind of a subset of the procedural fluency. So the words you hear in all the citations are accurate, efficient, and flexible. There’s this combination of kids get the right answer in a reasonable amount of time and with a reasonable amount of work and they can match their strategy or their approach to the situation. That’s where that flexibility comes in. And there’s like lots more I wanna say about that about sort of…I think one issue that comes up around fluency is that people are in a little bit of a rush. So they tend to think of the fluency as this automaticity or recall of known facts without having to think about it. And that is part of the end goal, but that’s not the journey to fluency. So this is one of the things that Graham and I thought about a lot was the path to fluency. The goal here it’s that student in middle school who’s learning something new doesn’t have to expend any effort to gather that fact. And they might do it because they’ve done it so many different ways that they’ve got it, and now they just know it, or they might be like my friend who’s a mathematician who still, if you say, “Six times 8,” she thinks in her head, “Twelve, 24, 48…” and she does this double-double-double associative property strategy. And it’s so efficient, you would never know. And that’s totally great. That’s fine. That’s not slowing her down. That’s not providing a drag in the middle of a more complex problem or new learning. So we’re really focused on having elementary school students be able to enter the middle and high school standards without having that pull out of the new thinking.

Graham Fletcher (23:53):

And as I think about that, I think about how so many students will memorize their facts, but then they haven’t memorized them with understanding. So that when they move into middle school and they move into high school, it’s almost like new knowledge and new understanding that’s applied from a stand-alone skill.

Bethany Lockhart Johnson (24:10):

So something that felt really unique to me, Graham, as I was diving into the toolkit, is your use of images, Tracy, Graham, is the way that you use images to help students notice and wonder to start making sense of these quantities and the decomposition of numbers using images. Can you talk a little bit about how images played a part in the way that you think about this building a fact fluency?

Graham Fletcher (24:41):

What I realized is so many times when we approach math with just naked numbers with so many of our elementary students, the numbers aren’t visible. The quantities. They can’t see them; they can’t move them. They’re just those squiggly figures that we were talking about earlier on. So how is it that we make the quantities visible, to where students feel as if they can grab an apple and move it around? Because a lot of times we start with the naked numbers and then if kids don’t get the naked numbers, then we kind of backfill it. But what would happen if we start with the images? And then from there, these rich, flourishing mathematical conversations develop from the images. And I think that was the premise and the goal of the toolkit.

Tracy Zager (25:22):

When you look at how fact fluency has traditionally been taught, it’s all naked numbers. And sometimes we wrote ’em sideways. Like, that’s it. That was our variety of task type. Right? Sometimes it’s vertical; sometimes it’s horizontal. And that was it. And I’ve just known way too many kids who couldn’t find a hook to hang their hat on with that. It didn’t connect to anything. And so part of why I knew Graham was the perfect person for this project was his strength in multimedia photography, art, video. And so we started from this idea of contexts that for each lesson string in the toolkit, there’s some kind of context. An everyday object, arranged in some kind of a way that reveals mathematical structure and invites students to notice the properties. So we start with images of everyday objects: tennis balls, paint pots…um, help me out; here are a million of them. Crayons—

Bethany Lockhart Johnson (26:18):

Crayons, markers.

Tracy Zager (26:18):

Shoes, right? Sushi, origami paper, all kinds of things in the different toolkits. So there’s a series of images or a three-act task or both around those everyday objects, and then story problems grounded in that context. And then there are images with mathematical tools that bring out different ideas, but relate in some way to the image talks. And we do all of that before we get to the naked number talk. Which we do, and by the time you get to the number talk, it’s pretty quick, ’cause they’ve been reasoning about cups of lemonade. And now when you give them the actual numerals, they’re all over it.

Bethany Lockhart Johnson (27:03):

I have to say too, as somebody who—particularly in middle school—navigated math anxiety, we recently talked with Allison Hintz and Anthony Smith about their amazing book Mathematizing Children’s Literature.

Tracy Zager (27:14):

Yay!

Bethany Lockhart Johnson (27:14):

And I was explaining, like, if I sat down at the beginning of a math class and my teacher opened a picture book and said, “We’re gonna start here,” I felt my whole body relax. And if we start with this image, if we start with just looking at an image and making sense of an image, I feel like that could be such a powerful touchstone for all the work you do from there.

Tracy Zager (27:41):

That’s core. That’s a core design principle, is that invitational access. There are no barriers to entry. There’s nothing to decode. There’s nothing formal. We’ve been learning from Dan for years about this, right? Of starting with the informal and then eventually layering in the formal. I was in a class in Maine where they were doing an image talk and it’s these boxes of pencils. It’s a stack of boxes of pencils and they’re open and you can see there are 10 pencils in each box. And so there are five boxes of pencils each with 10 pencils in it. And then the next image is 10 boxes of pencils and each box is half full. So now it’s 10 boxes each with five. And the kids are talking and talking and then the third image, I think there are seven boxes each with 10 pencils in it. And she said, “What do you think the next picture’s gonna be?” And this girl said, “You just never know with these people!” <laugh> I dunno!”

Bethany Lockhart Johnson (28:37):

That’s kinda true. Knowing you both, it’s kinda true.

Tracy Zager (28:42):

Like if it’s seven boxes with 10 in it, one kid said, I think it’s gonna be 14 boxes of five. And other kids are like, I think it’s gonna be 10 boxes with seven. And they start talking about which of those there are and the relationships between—

Bethany Lockhart Johnson (28:58):

But they’re making sense of numbers!

Tracy Zager (28:59):

Totally. So all the kids felt invited. They can offer something up. They’re noticing and wondering about that image. They’re talking about it in whatever informal language or home language that they speak. And that was core to us. That was a huge priority, because honestly, one of the motivations to talk about fluency is that it’s always been this gatekeeper. It has served to keep kids out of meaningful math. Particularly kids from marginalized or historically excluded communities. So they’re back at the round table, doing Mad Minutes, while the more advantaged kids are getting to do rich problem solving. And so, we thought, what if we could teach fact fluency through rich problem solving that everybody could access? That was like square one for us.

Bethany Lockhart Johnson (29:45):

That’s huge.

Dan Meyer (29:46):

That’s great to hear. What’s been helpful for me is to understand that students who are automatic, that’s just kind of what’s on the surface of things. And that below that might be some really robust kind of foundation or scaffolding that bleeds to a larger building being built, or it might be just really rickety and not offer a sturdy place to build farther up. It’s been really exciting to hear that. I wonder if you’d comment for a moment about, in the digital age and—I’m at Desmos and our sponsors are Amplify and we all work in the digital world quite a bit. There are a lot of what report to be solutions to the fluency issue, to developing fluency in the digital world. Just lots and lots of them. Some that are quite well used, others that are just like X, Y, or Z app on the market. You can find something. Do you have perspectives on these kinds of digital fluency building apps? Like, what about them works or doesn’t work? Let us know. Graham, how about you? And then Tracy, I’d love to hear your thoughts too.

Graham Fletcher (30:47):

Yeah, I think that’s a great question, ’cause there’s a lot of shiny bells and whistles out there right now that can really excite a lot of teachers. But I always come back to what works for me as a classroom teacher is probably gonna work in a digital world as well. So what are the things that I love and honor most about being in front of students, and how can I capture that in that virtual world? I think one of the things that really helps students make connections is coherence. I think coherence, especially when you leave students for—you don’t get to talk with them after the lesson is done—so I think about how we can purposefully sequence things through a day-to-day basis. I think coherence is something that gets really lost when we talk about fluency, especially with whether it be digital or whether it be print, because what ends up happening is we say, “OK, we have all these strategies we need to teach,” and it becomes a checklist. So how is it that we can just provide students the opportunity to play around in a space, whether it be digital or in person, but in a meaningful way that allows them the time and the space and that area to breathe and think, but be coherent. And connecting those lessons along the way. And I think coherence is one thing that a lot of the times it’s harder to—when we’re in the weeds, it’s so hard and difficult to zoom back out and say, “Do all these lessons connect? How do they intentionally connect? And how do they purposefully connect?” And without coherence, everything’s kind of broken down into that granular level. So when looking at—I think about Desmos and I think about the Toolkit and I think about how Tracy and I talked a lot about, “Well, this, does it connect with the context problem, does it connect with the image talk, or the lessons? Like, how does it all connect and how are we providing students an opportunity to make connections between the day-to-day instruction and lessons that we tackle?”

Tracy Zager (32:44):

I’m reminded of a conversation that Dan, you and I had a long time ago, in Portland, Maine, in a bar. I’ll just be honest. <laugh> And we were talking about how, in the earlier days of Desmos, you were stressed out by what you saw, which was kids one-on-one, on a device, in a silent room. And you were like, no, this is not it. This is not what technology is here to serve. We can do so many things better using technology appropriately, but we can’t lose talk and we can’t lose relationships and we can’t lose formative assessment and teachers listening to kids and kids listening to each other and helping each other understand their thinking. Right? So when I think about the tech that’s out there for fact fluency, most of it is gonna violate all rules I have around time testing. So that a whole bunch of it, I would just toss on that premise. They’re really no different than flashcards. It’s just flashcards set in junkyard heaps. Or, you know, underground caverns. Or with a volcano or whatever. It’s the same thing. There are some lovely visuals—I’m thinking of Berkeley Everett’s Math Flips. Those are really pretty. Mathigon has some really nice stuff that’s digital. And I think that those resources invite you to kind of ponder and notice things and talk about them. All the tools that we design in the toolkit are designed to get people talking to each other, and give teachers opportunities to pull alongside kids and listen in and understand where they are. For example, our games, we didn’t design the games to be played digitally, even though you could, and people did during COVID, because we want kids on the rug, next to each other, on their knees; I’ve seen kids like across tables. I was in a school recently where a kid was like, “I hope you believe in God, ’cause you’re going…!” You know what I mean? <laugh>. Like they’re all pumped up.

Bethany Lockhart Johnson (34:41):

They’re invested!

Tracy Zager (34:45):

They’re psyching each other up and down and they’re interacting and it’s social and the teacher’s walking around and she’s listening to the games. And they don’t actually need any bells and whistles. They need dice and they need counters and they need this game that is actually a game. In all of our conversations, games have to actually be games. Games cannot be “roll and record.” Games have to involve strategy. They have to be fun. So in designing those games, we didn’t feel like it brought any advantage to make that a digital platform. But things that did bring advantages digitally, like the ability to project these beautiful images or to use short video in the classroom, that really was a value-add that enabled us to do something different in math class than we had done before, and to get kids talking in a different way than they ever had before. When I think about fluency, historically, if you say like, “OK, it’s time to practice our math facts,” you hear a lot of groans. And when I see a Building Fact Fluency classroom and I say, “OK, it’s BFF time!” There’s like a “YEAAAAHHH!” You know? And so that’s what we’re after.

Graham Fletcher (35:47):

It’s all about kids, really, for us. And I think at the heart of it, we made all the decisions with teachers and kids at the forefront of it.

Tracy Zager (35:55):

I know of high schoolers who are newcomers, who have experienced very little formal education, and speak in other languages, are using it as high schoolers, because it involves language and math and all the deep work in the properties and it’s accessible, but it’s also not at all condescending or patronizing. Like we designed it to be appropriate for older kids. So that’s just something that I think we’re both really proud of. One thing we thought a lot about, especially in the multiplication-division kit is how a classroom teacher could use it and a coordinating educator in EL, Title, special education, intervention could also use it because there’s so much in it, that students could get to be experts, if they got extra time in it, using something that’s related and would give them additional practice. So they could play a game a little bit earlier than the rest of the classes. And they could come in already knowing about that game, or they could do a related task. We have all these optional tasks that no classroom teacher would ever have time to teach it all. So the special educator could use it and have kids doing a Same and Different or a True/False, or some of the optional games. And then the work in both special education and general education could connect.

Dan Meyer (37:20):

I just wanna say that this is an area that for so many students, as you’ve said, Tracy, it presents a barrier for their inclusion in mathematics. It’s a very emotionally fraught area of mathematics. And we really appreciate the wisdom you brought here. And just the care you’ve brought to the product itself. Your knowledge of teaching, knowledge of math, and yeah, especially a love for students feels like it’s really infused throughout Building Fact Fluency. If our listeners want to know more outside of this podcast, outside of the product itself, where can they find your words, your voice? Where you folks at these days? Tell ’em, Graham would you?

Graham Fletcher (37:57):

You can find us at Stenhouse, Building Fact Fluency. And then Tracy and I, currently playing around, sharing ideas a lot on Twitter, under the hashtag #BuildingFactFluency. That’s kind of where we can all come together and share ideas. And then also on the Facebook community, where there’s lots of teachers sharing ideas.

Bethany Lockhart Johnson (38:19):

If you were to ask our listeners like, “Hey, if you wanna keep thinking about this, here’s something you could try or here’s something you could go do,” what could be a challenge that we could share that could help us continue this conversation?

Graham Fletcher (38:35):

Online you can actually download a full lesson string. And a lesson string is a series of activities and resources that are purposefully connected. You can pick one or two of those from the Stenhouse web site, Building Fact Fluency. You can try the game. You can try one of those strategy-based games. You can try an image talk and just see how it goes. And just share and reflect back, whether on Twitter or on Facebook. But it’s kind of there, if you wanna give it a whirl. And as Tracy was sharing, even if you’re a middle-school teacher or a high-school teacher, we really tried to think about those middle-school and high-school students keeping it grade level-agnostic. Just so every student has those opportunities for those mathematical conversations. So download a lesson string and give it a whirl, and we’d love to hear how it goes.

Dan Meyer (39:25):

Bethany and I will be working the same challenge with people in our life.

Bethany Lockhart Johnson (39:29):

Yes.

Dan Meyer (39:29):

Enjoying some fact fluency with people in our homes, perhaps. We’ll see. And we’ll be sharing the results in the Math Teacher Lounge Facebook group. Graham and Tracy, thanks so much for being here. It was such a treat to chat with you both.

Bethany Lockhart Johnson (39:42):

I love learning with you and just helping to shift this idea of fluency into something that can be accessible and powerful and positive.

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What Valerie Henry says about math

“A lot of very fluent adults don’t always have every fact memorized. ”

– Val Henry

Meet the guests

Valerie Henry has been a math educator since 1986. She taught middle school math for 17 years and has worked as a lecturer at University of California Irvine since 2002. After doing her 2004 dissertation research on addition/subtraction fluency in first grade, Valerie created FactsWise, a daily mini-lesson approach that simultaneously develops  fluency,  number sense, and algebraic thinking. Additionally, she has provided curriculum and math professional development for K-12 teachers throughout her career, working with individual schools, districts, county offices of education, Illustrative Mathematics, the SBAC Digital Library, and the UCI Math Project.

Graham Fletcher has served in education as a classroom teacher, a math coach, and currently as a math specialist. He is continually seeking new and innovative ways to support students and teachers in their development of conceptual understanding in elementary mathematics. He is the author of Building Fact Fluency and openly shares many of his resources at gfletchy.com. Follow him on Twitter.

Tracy Johnston Zager is a district math coach who loves to get teachers hooked on listening to kids’ mathematical ideas. She is a co-author of the Building Fact Fluency toolkits and the author of Becoming the Math Teacher You Wish You’d Had: Ideas and Strategies from Vibrant Classrooms. Tracy also edits professional books by teachers, for teachers at Stenhouse Publishers. Follow her on Facebook.

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About Math Teacher Lounge: The podcast

Math Teacher Lounge is a biweekly podcast created specifically for K–12 math educators. In each episode co-hosts Bethany Lockhart Johnson (@lockhartedu) and Dan Meyer (@ddmeyer) chat with guests, taking a deep dive into the math and educational topics you care about.

Join the Math Teacher Lounge Facebook group to continue the conversation, view exclusive content, interact with fellow educators, participate in giveaways, and more!

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S1-10: Empowering the science educator: Jessica Kesler

Promotional graphic for "science connections podcast" season 1, episode 10, featuring a smiling black woman named Jessica Kesler, with educational icons like a globe and magnifying glass around her.

In the final episode of the season, Eric sits down with his friend and professional development facilitator, Jessica Kesler. Jessica describes her passion for sharing free, high-quality, empathy-centered professional development for K12 educators. Jessica also shares her experience jumping into leadership positions while teaching in Philadelphia. Eric also chats with Jessica about how students often lean on teachers for more than delivering content. Explore more from Science Connections by visiting our main page.

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Jessica Kesler (00:01):

One student at a time, isn’t gonna bring a million students through the door. But if we focus on their teachers, then they can implement it in their classroom and have this multiplicative effect that can continue on and help us to reach those millions of kids and helping them be prepared for future careers.

Eric Cross (00:19):

Welcome to science connections. I’m your host. Eric Cross. My guest today is Jessica Kessler. Jessica’s director of professional learning at TGR foundation, which is a tiger woods charity. There she creates and leads free stem, professional learning opportunities for educators across the country. Prior to working at TGR, Jessica worked as an elementary, middle and high school science teacher while fulfilling several leadership roles, including science department, chair and principal intern. In this episode, Jessica shares some of her classroom experiences while working in Philadelphia, where she was in classrooms, where her students needed her to be more than just her content. She also addresses how designing professional learning with empathy for teachers in mind creates better experiences for teachers. And now please enjoy my discussion with Jessica Kessler. So let’s, let’s start off with St. Joseph’s chemistry college to the classroom, like your origin story. What led you to ultimately get into the classroom and being successful, even just looking at, at your kinda like your resume or your CV of all of the things that you’ve done. You definitely weren’t idle, but start off with chem. Yeah. Like where did that passion come from?

Jessica Kesler (01:27):

Yeah. So when I was younger, I just had this burning passion to help people. Right. And when you’re young and you think about helping people, you think about doctors, doctors help people. Right. So I had this idea that I wanna be a surgeon. I wanna be a black surgeon. I wanna be a young girl, female Charles drew, and I just wanna go out there and do it. And so my mom is actually an alum of St Joe’s. So I spent a lot of time on campus cuz as she was getting her mini master’s degrees I will visit campus with her often. And so when I applied, I had the scholarships, had everything and I went in ready to be bio ready to be a surgeon. I took my first bio class and I was like, yes, let’s talk about the human body. And let’s get into dissections and sections. And they were like, okay, so a plant so has this. And I was like, Ooh <laugh> I was like, this is not what I was expecting at all. It just felt so detached from the trajectory that I wanted to take. And it just did not feed that passion of helping people in the immediate moment.

Eric Cross (02:31):

Did it, did it feel too abstract?

Jessica Kesler (02:33):

It felt abstract. It felt boring. Okay. And one thing I didn’t want was to be like stuck, bored. Like if I’m not being stimulated in a good way, mm-hmm <affirmative> then it’s not gonna last, but I love science. So I switched over to chemistry cuz I’m like this chemistry is exciting. I’m mixing things together. I’m producing new things. I’m doing extractions. I’m being introduced to machinery that I haven’t seen before. I’m loving it. I’m doing a math. The math is awesome. And so I switched over to chem and I started doing research in the summers and things like that. My research was around water quality in Philadelphia and looking at different natural water sources and comparing them and all those great things. But I was in a lab and the lab had no windows and I was stuck talking to this atomic absorption specter every day.

Jessica Kesler (03:24):

And I hit that, that wall again, where it was like, is this the rest of my life? Like talking to these machines and not having windows and not being able to interact with people. What is this? This can’t be life. And so I was seeking out some new opportunities that said, Hey, I need more money. First of all. So I’m like, I call the financial aid office like every week, like, Hey, what’s out today. What new scholarships do you have? I’m applying for everything. Like it was my goal to not have to pay for much of my education. And so I was talking to them and they’re like, Hey, you’re in science. There’s this awesome opportunity called a noise scholarship where they’ll pay for your last year and your master’s degree. If you go into education mm-hmm <affirmative> and I sat on it and I was like, this makes so much sense to me.

Jessica Kesler (04:12):

I was like, I’ve been literally tutoring my peers and teaching in churches and all this other kind of stuff. My whole life. It makes so much sense. How come nobody ever said this before? <Laugh> and so I applied for the noise scholarship, got in and started, you know, mm-hmm, <affirmative> doing practicums in the classroom as I went through my last year as a chemistry major and my first year for my masters and it just felt so right. And I was like, I can do this. And of course there were a lot of people who told me, no, Josh, you can’t do that. Like these kids will eat you alive. And I’m like I don’t think so. <Laugh> but, but that’s give it a go. And I stepped into the classroom and it, it just felt like, felt like it was always meant to be there.

Eric Cross (04:57):

So you were able to, you were able to make that connection between, I mean, if you’re, if you’re studying chemistry and bio and going into stem, I mean, there’s, there’s an aptitude there, but then you realize that this there’s a road that you could take that leads you into a room with no windows. And you’re just hanging out with machines all day

Jessica Kesler (05:14):

And I’m not helping people. Right. Right. And that was, my passion was like, I’m not helping people sitting in this room. I need to be a person that’s outside telling people about what happens in the room. Right. And how they can get involved and like what’s going on in here. Like that’s, that’s where I can be useful.

Eric Cross (05:28):

When you were, you were in Philly when you were teaching, what were you teaching when you were there?

Jessica Kesler (05:33):

So I started off teaching eighth grade science first job in north Philadelphia, teaching eighth grade science and just a, a funding tangent that first day a student called me a B

Eric Cross (05:44):

Trial by fire

Jessica Kesler (05:45):

Trial by fire called me out in front of like the whole floor. We were outside doing line drills and just was like, I hate you miss Kusa your B. And I was like, oh, this is it. This is it. This is where you stand your ground and you take it or you, you bail out <laugh> and you go back into the lab mm-hmm <affirmative>. And of course at the end of that, that traumatic experience between all the kids, like two months later, she wanted me to adopt her. So like everything comes full circles. Right.

Eric Cross (06:10):

That’s how it is. Right.

Jessica Kesler (06:11):

But I started teaching eighth grade science. There’s not a lot of science teachers at that level who actually have a science background. Most of them have elementary school background. So I’m the only scientist walking into the science classroom and saying, this is how science actually works. And so I ended up taking a lot of onus of science while I was there. Ended up building out the K through eight curriculum for science. I ended up doing like a science strategic plan to submit to the district. I ended up leading out our first couple stem nights and like really leading the stem department and kind of our science department. And this was as like a second, third year teacher <laugh> know, but nobody else had the science mm-hmm, <affirmative> the way that I had the science and the education. So it really opened up a door for me to be able to, to run full steam with all those things.

Eric Cross (07:04):

So MI was it primarily middle school during those, those years that you were there?

Jessica Kesler (07:07):

So there, I started with middle school and I did that purposefully because I was still young and I wanted there to be a good age gap between me and the students. And then I moved up to high school and taught high school chemistry, also taught a couple other different subjects while I was at that school. But primarily high school chemistry. Then I actually took a big leap down and I said, okay. I was going for my second master’s degree in educational leadership. And I was going for my principal cert. And I said, if I’m gonna be a principal of a school, then I need to understand all the levels of education and how they operate, cuz they operate really differently. So I said, I started in middle school, went to high school. I don’t have elementary school experience. In fact, I’d spent a day in a kindergarten classroom and I was like this never again, but I was like, I need to go back down there and I need to figure out how this system works because you know, I never know where I’m gonna land as far as principalship.

Jessica Kesler (08:01):

So I went and taught fourth grade.

Eric Cross (08:03):

How was that experience?

Jessica Kesler (08:05):

So imagine me going from teaching high school, seniors and juniors Uhhuh and like they’re self-sufficient and you know, they’re independent, they’re driving to school and all these things. And then I immediately drop down and go into fourth grade where these kids are crying every five seconds. They still have like a lot of bodily fluids, like there’s noses running and things. And like <laugh>, I was like a fish outta water. I was like, what is this? What’s going on down here. But those kids pour out so much love. And they, you, you become another parent to them. Mm-Hmm <affirmative> your high schoolers know who their parents are. They kind of are finding their place in society, but the little ones, they only know big people as parents, small people as equal. So they see you as another parent. So it taught me a lot about, you know, patience and breaking information down, even smaller. I had to figure out new and inventive ways to teach science and bring it down so far that they would be able to grab onto it and achieve it. And it was a challenge, but at the end it paid off, we were running, we were hitting like great markers for all of our PSSA goals that year. I mean, we were really knocking it out the park

Eric Cross (09:17):

And this backstory leads into how we met and adds to the picture as to why I really want to have you on, because your involvement with TGR, which is where I want to go next for the folks listening. I bet a lot of them have no idea what it’s about, just like I did. And now me learning about TGR foundation and meeting you I would love to make sure that everyone knows about it and what they offer.

Jessica Kesler (09:39):

Absolutely. So TGR foundation, a tiger woods charity was founded by tiger woods and his father with a mission to really introduced them education to students in low income minority populations and prepare them for success in their world and their future careers moving forward. And so was founded in 1996 and went through several changes in iterations since 1996. But eventually opened up its first learning lab, which is in Anaheim, California. And through the learning lab, they opened up these satellite sites. So they basically partner with schools to provide after school education and robotics and wearable electronics and things like that. And they would partner with schools to teach these courses after school, they would pay the teacher, pay for the materials and stuff like that to provide more opportunity for students in different areas. And so that’s how I was introduced to the foundation because while I was teaching high school my good friend and previous manager, Jason Porter shout out to JP Jason Porter used to lead the tiger woods foundation when it was the tiger woods foundation.

Jessica Kesler (10:52):

He used to lead the afterschool program. And when I joined that high school, he said, Jess, you got all this great content, knowledge, all this great enthusiasm, and we wanna get more women into this robotics. We wanna get them engaged in this process of, of stuff. And you will be a great role model to start bringing in more of our female students. And I was like, great, sign me up. And that’s where I started working with the TGR foundation, right after school programs, getting my students into robotics, competitions and clubs, doing different challenges and design challenges. And then after some time, a few years, they actually needed someone to come to the DC area and support the development of professional learning and partnerships here in DC, as they were continuing to expand. And really it came out of the idea that tiger gave this big mission to the organization that he wanted to reach millions of kids.

Jessica Kesler (11:48):

He said millions and everybody said, what millions, what M <laugh>. So the foundation was like, okay, well we can’t reach millions by just tackling one student at a time, right? Not one student at a time, isn’t gonna bring a million people or students through the door. But if we focus on their teachers, mm-hmm <affirmative>, then those teachers not only spend most of their day with these students and learn the basics of their skills with these students. But each one of those teachers has 30 to 150 200 students that they see every day. And that’s how we multiply this effect. So we train the teachers on all the stem competencies and the pedagogical tools and strategies to implement the stem that we’re doing in our learning labs. And then they can implement it in our classroom and have this multiplicative effect that can continue on and help us to reach those millions of kids and helping them be prepared for future careers.

Eric Cross (12:44):

And so D divide the effort, multiply the effects. Exactly. And then when I was exposed to it, this was over zoom. Now, how long has it been going on? Has it always been virtualized or did you do the, were you all doing this before? We all went online

Jessica Kesler (12:57):

Before the pandemic man, the glory days, right before pandemic, it feels like I’m talking about prehistoric times, right? Like back in the dinosaur, like era, like, I don’t know, pre we actually did these workshops in a person. So we would invite people to come to DC, invite teachers in Philadelphia to do a Philly one. We were in New Mexico. We were in Florida. We were, I mean, we were everywhere and this would be a extremely hands on engaging workshops. So not only do we focus on this is the theory and the philosophy behind the pedagogy, but we would also focus on like creating a student experience for the teacher, having the teacher flip into student mode and put on that student hat and actually go through sample lessons, model lessons and activities as the student so that they can feel it. So you can feel if, if you feel confused, your students are gonna feel confused.

Jessica Kesler (13:52):

If you feel like this is challenging, you, your students are gonna feel the challenge. If you are, don’t understand the instructions, your students will understand the instructions. So it gives us a different perspective and it puts us in their shoes. So we can better empathize with them and create more responsive lesson planning. So we flipped them into that student role for that purpose. When COVID hit, we went virtual, but virtual allowed us to reach teachers that we probably would’ve never hit. So it was kind of that blessing and disguise, right? It was like we didn’t keep people as long cuz obviously virtually you’re not, you don’t wanna stare at a screen for eight hours. So we cut it down. We revised it a little bit, but we kept the hands on philosophy and feel of it going by, you know, using materials that they could find at home really modeling what education could look like.

Jessica Kesler (14:41):

Mm-Hmm <affirmative> if you used your Z zoom room to capacity, or if you had these materials and resources or rethought your lesson plans and structures. So we went virtual and not only were we able to hit so many more thirst that first year thirsty educators ready to get, dive into it, ready for some comradery with fellow educators. But we were also able to expand our international network. We were able to get so many international educators through our global work that it was, it was beyond what we had when we were in person. So it really had this skyrocketing effect.

Eric Cross (15:20):

There’s professional learning pathways and then virtual stem studio. Is that right for professional development for like teachers who are listening, are those the two kind of main prongs?

Jessica Kesler (15:30):

Yeah. So a stem studio is basically just one, right? And a pathway is a collection. So we now offer four stem studios, four separate stem studios. The first one is on inquiry mindset. You attended that one area. And it’s really about for teachers who are changing their perspective on what the classroom should look and feel like, especially administrators too. It’s about developing that inquiry mindset. So you understand and you feel, and you practice and you learn the tools that are necessary for inquiry to happen in your classroom. We never promote overhauling your classroom. We’re just saying, add a little bit here and there and see how it impacts your students. The second one is on making inquiry, visible, making inquiry visible is all about making students thinking visible in the moment. What are tools and strategies that you use so that students can illuminate their thinking for themselves, but for you and their peers as well and how we benefit from that.

Jessica Kesler (16:28):

So not only do the students get to see their own thinking as they progress and you get to tell the story of how their minds have evolved, but you, as the teacher get to see, oh, this is where everyone is making the mistake, or this is how this misconception came about. Or this is where I need to target for my next lesson. So it makes you more responsive in the moment. And then the third and fourth one where we’re actually launching for a small group this summer, it won’t be available to the masses until maybe a year or two down the line. We have one small group that we’re just going to test it out with. The third one is about developing your inquiry environment. So thinking not just about your physical space, but thinking about your intellectual space too. So what are the things that you can embed into your physical space and develop in a student’s intellectual space that will help you create a holistic inquiry environment?

Eric Cross (17:22):

So this is this inquiry space, not just physical, but then also the intellectual environment

Jessica Kesler (17:26):

Intellectual. Exactly. And it focuses in on the design process and how we design spaces. Because as a teacher, we take a lot of background in the background onus of de creating these spaces. If you take someone out of an old habit or space and tell them, oh, we are gonna change in your minds and teach inquiry, but put them back in the same environment, they’re gonna be conflicted, right? Their bodies wanna do one thing, their minds wanna do another thing. And they don’t know how to bridge the gap between the two. So this is a really illuminating, like how do you change all the spaces? How do you design a flow in space in your classroom and in your students thinking that allows them to be productive in that inquiry environment. It’s really good stuff

Eric Cross (18:11):

Who creates these experiences for teachers.

Jessica Kesler (18:14):

We do. So me and my teammate, Holly, Dard shout out HD. Holly Dard, we really put our brains together and developed these. So it’s a really a team effort because like Jason Porter, Eric even David Tong when he was with us, really collectively thought about what it is that we wanted educators to experience. And then Holly and I do a lot of the grunt work, but then we really collectively put it all together and make it what it is. So I have a heavy hand and a lot of that. And in fact, inquiry four is all about the entrepreneurial mindset. So oftentimes educators don’t consider themselves entrepreneurs, but if you take a look at what an entrepreneur is and what they do on a regular basis, educators are entrepreneurs, but we are missing an opportunity to use our entrepreneurialship in the classroom to drive for stem competencies in inquiry based practices. And so in, in stem studio, four, we really focus in on how the educator is the entrepreneur of their classroom, but also uses entrepreneurial techniques to tackle issues in their schools, districts, and spheres of influence. So it’s really taking the educator to the next level of their teaching practice through entrepreneurship. This is some deep stuff.

Eric Cross (19:37):

It is, well, this entrepreneurial mindset is, is something that I’ve heard before. And I definitely see the link between even the term teacherpreneur beyond just selling lessons on teachers, pay teachers. <Laugh> it’s way bigger than that,

Jessica Kesler (19:52):

Where entrepreneurs actually in the classroom, not just because we do things on the side to make money. Exactly.

Eric Cross (19:57):

A lot of teachers hear that. They’re like, yeah, I got, you know, I got, got a few jobs going on. Exactly. Yeah. And, and I think one thing we, I should have said this earlier, and I’ll, I’ll say the intro, but these are all free.

Jessica Kesler (20:07):

This is largely sponsored by do OD stem as well. So we have a partnership with D O D stem and they have been driving forth the department of defenses, strategic stem plan for years. And as a part of that, they give us funding in order to provide these opportunities for educators for free. So literally educators don’t have to come with anything. And we are giving you not only the content of our, our lessons and our instruction, but we’re also going give you a chance to earn a free micro credential. So people are spending 12 plus hours with us in a workshop which sounds like a lot of time, but it’s over a series of time and days. But we wanna give you something that means something after that, we wanna give you a micro credential to add to your resume, to show your administrator, to show that you have achieved the next level in your professional learning career.

Jessica Kesler (20:59):

Right? And if you finish the pathway, which is all for, then we give you our TGR foundation certificate that says that you’ve completed so much professional learning in these areas that you are basically a warrior of inquiry that you are ready to go out and really lay inquiry out in new creative ways, not in your CLA just in your classroom, but everywhere you go in your district, in your school. And on top of that, we just offer so many other great free partnership incentives like discovery, education, experience licenses. We’re doing raffles this summer. We’re giving out free a free meal voucher so that you can get some lunch. One of these days we’re offering $50 gift cards so that people can get school supplies. So anything you do with us, and you’re like, man, I really wish I could have this so that I can do that in my classroom. We wanna break down all the barriers that prevent teachers from doing this stuff in their classroom, actively engaging in this stuff. And we give you a free copy of the books that we reference. Again, trying to break down the barriers,

Eric Cross (22:00):

What are some of the things that you’ve noticed kind of being on both sides of science teaching in the classroom, and then in training trends with teachers, things like moments that have been great or, or challenges that you’re noticing teachers experiencing, especially maybe changes in differences from a, from, you know, an outsider’s perspective. Seeing what teachers are experiencing are like, since you’ve been doing PDs for folks.

Jessica Kesler (22:22):

Yeah. So it’s actually really interesting being on both sides of the fence. You know, what I always noticed is that teachers are eager, but they’re tired. They’re wanting to learn, but they can’t take advantage of every opportunity to learn. And especially during COVID time, if you take a look at even all the professional learning that’s happening across the world right now, attendance is going down because teachers are so burnt out this hybrid space, this either we’re in person, but we’re still wearing masks and still social distancing and all this other stuff, or I’m still virtual or I’m virtual some days and I’m in person other days, it’s just wearing our teachers out. And I think we notice that as we see a large numbers of friends and family just start to retire, right? Like people are just like, I don’t know if I can adapt to another change in education.

Jessica Kesler (23:14):

Like education goes through these waves of big changes and it’s hard for everybody to adapt to, but for those who are willing to stick it out and those who are able to stick it out and, and still have that energy and enthusiasm to learn, they come in so hungry for more resources, so hungry to learn more and they still have their why at the top of their minds, as they think about why they do this it’s for the kids it’s to drive this mission is to get more kids excited about this. And they just come in so passionate. So once they come in, once we can get them to come in they stick with us for a really long time. They’re like, what else do you have? What else do you have? What else do you have? But we hear, still hear the common threads of like, do I have time for this?

Jessica Kesler (23:58):

Do I have the funding for this? Do I have the energy for this? Do, will my students understand this? And we are constantly facing that challenge of trying to address those things by, but keeping the excitement going, like we know you don’t have enough time. We’re gonna call it out from the start. I know you don’t have enough time to try to do 29 extra things. Mm-Hmm <affirmative>. But my advice is always, but do one thing at a time, start with something small, asking your students a few questions rather than lecturing to them. Doesn’t take a whole lot of extra time, but it gives you so much extra insight. So let’s not work, you know, harder, let’s work smarter. Let’s embed this into our, our work together. And I always say that we’re not asking you to add to your plate. You know, it’s not Thanksgiving where you just pile, keep piling on a plate.

Jessica Kesler (24:47):

It’s it’s a time where you organize the plate. It’s allowing inquiry to restructure your plate so that everything has its place and its time mm-hmm <affirmative> do you wanna leave room so that the educator feels comfortable trying some new initiative? That’s why we encourage admin. We have librarians attend elementary school teachers, administrators, we, and we encourage it because everyone can support the classroom. And if administrators are more in touch with these new practices and tools and strategies, then they can help facilitate the learning. As the teachers are trying new things and coaching them in specific areas. So we really opened the door for some studios, for any and all who are gonna participate in that child’s education, because us all rallying around them as that three-legged stool helps to create that environment and helps support the teacher. The teachers need support, and we’re trying to do our part by providing the resources and the tools, but they need everyone else to.

Eric Cross (25:42):

We don’t always think about it as a way to support, to get support in our classrooms for ourselves. But I agree with you by, by educating vertically up the chain, you know, vice principal, principal, whoever it is, mm-hmm <affirmative> superintendent getting them on boarding and, and educating them to see what’s ex expected. We’ll open up doors and more freedoms for you because now you just have this vertical alignment of folks kind of on the same wave length. Exactly.

Jessica Kesler (26:07):

Yep. And that’s why we love districts. Anaheim union school district is actually one of our partners this year, where they have invited their teachers to participate in the whole pathway because they know how important it is that we practice these tools and strategies. And they want as many educators in the same space going through this at the same time as possible so that we can support each other through it. And so that we don’t feel like islands, oftentimes as educators, we feel like islands we’re in our classroom day in and day out. And we don’t feel like there’s anybody else who’s doing the same things we’re doing and supporting the work that we’re doing. So when we get administrators who support it, it’s magical. It can be magical.

Eric Cross (26:47):

What are some opportunities that are coming up if somebody’s listening and they, they wanna sign up for something, are there things coming up this month or next month or in the summer that they can participate in?

Jessica Kesler (26:55):

Yeah, for sure. So we’ve been doing our monthly workshops. And if you go to our website, so if you actually go to TGR foundation.org and slash stem studio you’ll actually see our summer events already posted, already live for everybody to start engaging in. And again, everything is free. So registration is open and available for everybody to participate. We are offering that first inquiry stem studio inquiry mindset twice the week of June 21st and the week of June 28th, two opportunities for educators to join us for inquiry mindset for the first one. And then also in July, we’re offering the second one making inquiry visible, and that’s the week of July 12th. So again, all free stuff, raffle prizes are available for those who register early and get in there and reserve their seat. It is limited seating. And so, yeah, a bunch of opportunities coming up this summer and guess what all you have to do is sign up and then you get all these free things coming your way. You get to look forward to all this exciting stuff. So TGR foundation.org/studio.

Eric Cross (28:01):

And if folks wanna follow you in your career, your journey.

Jessica Kesler (28:05):

Yeah. I’m on Twitter and LinkedIn, for sure. And it’s Jessica Kessler, K E S L E R one S

Eric Cross (28:12):

I wanna honor your time. And as we close, you’ve been an educator of impact in, in your own classroom. And I know you’re still teaching actively now, and you’ve also made an impact on me and other educators through your professional development. And, and the last question I’d like to end with is who’s the most memorable teacher or learning experience that you had during K eight. When you think about you, your time in school, who was a memorable teacher or a moment that kind of stands out to you and what was it that they did that made them memorable?

Jessica Kesler (28:44):

It was that one teacher who brought me my first T I, 84. You remember when a new calculators came out, I had a teacher give me one amazing, but I think in high school, there was really a turn about where I had miss Caroline and Mr. Canello math and Spanish teacher. So two opposite wings of the, the education spectrum there. But most of all, they listened. They listened to me. I felt seen with those teachers, they supported me. They listened to me, they saw my potential. And they just rallied around me and continued to support me thereafter. Even afterwards, I continued to reach out to those educators. And I think that’s what drives me to be that force for, for my students. And I remember my most memorable heart touching education experience was probably, I had a high school student get interviewed by the newspaper.

Jessica Kesler (29:38):

And they were like, oh, what’s your favorite classes? And what’s your favorite this, and what’s your favorite of that? And he was like, well, I love chemistry, which is what I was teaching. It was like, and I love my after school robotics team. I was leading and I love this and this and this. And he basically listed all the stuff that I was doing that I was teaching and that I was leading in the school. And I was like this one student, literally out of all the classes and experiences he’s experiencing is really just calling out everything that I’m doing. And I feel like it’s because he felt seen, he felt heard. He was like, this person is listening to me. And no matter what space we’re in this teacher is, is there for me. And so I try to be that wherever I go, <laugh>,

Eric Cross (30:16):

It’s amazing how making someone feel seen and, and making them feel important and heard, and, and being present for them. All of a sudden opens up their interests into the subjects that you’re teaching. Thank you for, for making time for serving our kids for serving teachers during a hard time, and for making PD one, being part of an organization that made it free and serve teachers, but also making PD fun and enthusiastic. I think that was one of the things in addition to the empathy that you led with, but also your enthusiasm and passion was something that really resonated with me. And it made our time together. Feel like something that was, was making me a better teacher for my kids. And so, thanks for making time for us tonight. Oh,

Jessica Kesler (30:53):

Bless face.

Eric Cross (30:57):

Thanks so much for joining me and Jessica today. If you have any great lessons or ways that you connect with students, please email us@stemamplifycom.wpengine.com. That’s S TM amplifycom.wpengine.com. And please remember to support the podcast by clicking subscribe, wherever you listen to podcasts, you can also hear more about the podcast in our Facebook group, science connections, the community until next time.

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What Jessica Kesler says about science

“One student at a time isn’t gonna bring a million students through the door. But if we focus on their teachers, then they can reach those millions of kids and help them be prepared for future careers. ”

– Jessica Kesler

Director of Professional Learning, TGR Foundation

Meet the guest

In the final episode of the season, Eric sits down with his friend and professional development facilitator, Jessica Kesler. Jessica describes her passion for sharing free, high-quality, empathy-centered professional development for K12 educators. Jessica also shares her experience jumping into leadership positions while teaching in Philadelphia. Eric also chats with Jessica about how students often lean on teachers for more than delivering content.

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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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Watch the recording: Supporting Student-To-Student Discourse in Science (And Bey…

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Weaving Literacy Instruction Into the Science Classroom to Accelerate Learning

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Dyslexia: Early screening for risk

Dyslexia is one of the most common forms of learning disability, with some estimates suggesting that it may affect more than 17 percent of school-age students (Shaywitz, 2004). Although there are many different forms of reading difficulty, dyslexia is primarily characterized by difficulty in word-level reading ability, often due to deficits in automaticity or phonological processing.

Universal screening is an essential practice for identifying reading difficulties in the early grades, including characteristics of dyslexia. According to the International Dyslexia Association (IDA), early identification of reading difficulties helps get students the support they need and prevents further difficulty.

Amplify’s universal and dyslexia screening in one too

Measure what matters 

mCLASS® with DIBELS 8th Edition® provides a formative assessment solution that supports the identification of students at risk for reading difficulties, including difficulty related to dyslexia. DIBELS 8th Edition was developed by the University of Oregon with the primary focus of ensuring that the measures are able to meet state-level dyslexia screening requirements.

How mCLASS identifies students at risk of dyslexia

When screening for risk, nothing can replace the power of listening to a child read—listening to their strengths as a reader AND their struggles. 

With mCLASS, teachers administer predictive one-minute assessment measures that involve listening to students interact with sounds, letters, words, and text while screening for reading difficulties.

They will document all behaviors simultaneously on a mobile device. Accurate, efficient collection of data allows for immediate analysis that results in a clear identification of risk, not only for reading difficulty but also for dyslexia. 

Research and statistics

Identifying at-risk students: What comes next?

“90 percent of students who struggle in third grade will continue to struggle at the end of elementary school if they do not receive intervention.

Research and statistics about dyslexia in early literacy

Identifying at-risk students: What comes next?

“74 percent of students who are poor readers in third grade will be poor readers in ninth grade, and, in general, have a higher risk of academic failure and school dropout. ”

Research and statistics about dyslexia in early literacy

Identifying at-risk students: What comes next?

“According to a 2015 National Assessment of Educational Progress study, only 35 percent of fourth-grade students were proficient in reading. Most of these children will spend the rest of their time in school trying to catch up. ”

Research and statistics about dyslexia in early literacy

Dyslexia toolkit
This toolkit offers answers for educators looking to learn about dyslexia and how to screen for it.

Download the toolkit

mClass solutions

mCLASS Instruction

mCLASS Instruction provides teachers with a single view of the personalized, blended instruction (teacher-led and online) that is available to support individual student or small-group needs in skill areas directly assessed in the mCLASS assessment. 

Employ teacher-led instruction for whole classes, small-groups, and individual students, including activities created by Susan Hall, author of I’ve DIBEL’d, Now What, are provided for skill practice.

Additional instructional resources for comprehension include grade-level passages that provide more practice.

Boost Reading

Get online student instruction and practice with Boost Reading, which places students in a personalized instruction path based on mCLASS assessment data and adapts based on progress in the curriculum. Students engage with skills-based games as well as an eReader.

mCLASS intervention

Receive rigorous, teacher-led intervention with mCLASS Intervention to address students most in need of support.

mCLASS Home Connect

Teachers can download a letter with student assessment results to send home to parents

and guardians, or use as a basis for discussion at conferences. Home Connect letters describe how the measures relate to skills development. Progress bars indicate the student’s performance on each measure.

Home Connect extends reporting to parents and guardians in a way that is easily understood and provides suggestions for positive action.

Resources

Dyslexia Toolkit

This toolkit offers answers for educators looking to learn about dyslexia and ho…

Dyslexia Screening and DIBELS 8th E…

mCLASS helps reveal to educators the early warning signs of reading difficulty o…

Webinar Title

Request a demo

Simply complete the form to request a demo, and an Amplify sales representative will be in touch.

High-impact literacy tutoring for K–6 built on the Science of Reading-NEW | Amplify

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An authentic Spanish assessment built specifically for bilingual students learning to read

Part of the mCLASS® Español suite, mCLASS Lectura is a universal screener for K–6 built on modern Spanish literacy research. It helps educators accelerate reading growth for Spanish-speaking students by delivering complete parity between English and Spanish reading assessments. Para la versión en español, haga clic aquí.

Promoting fairness for Spanish-speaking students in early literacy

Spanish-speaking students have been underserved and misclassified for decades. By combining mCLASS Lectura and mCLASS® DIBELS® 8th Edition, you’ll be able to understand where your Spanish-speaking students are in their English and Spanish literacy paths.

Based on the science behind how students learn to read in English and Spanish, the mCLASS system allows teachers to connect with their Spanish-speaking students face-to-face, one-on-one, and in the language most comfortable to them. Teachers are able to pinpoint where their Spanish-speaking or emergent bilingual students really are in their literacy skill development and what instruction to prioritize.

What experts say

“It’s incredibly important we attend to the Spanish language alongside English in assessment practices, to make sure we’re not underestimating the ability of a really significant percentage of our nation’s school population.”

–Dr. Lillian Durán

Co-developer of mCLASS Lectura, Ph.D., Associate Dean for Academic Affairs, College of Education, University of Oregon

Built by leading biliteracy experts

The mCLASS® Lectura universal screener was co-developed with the Center on Teaching and Learning at the University of Oregon. The assessment was validated by Amplify in partnership with Dr. Lillian Durán of the University of Oregon.

The development of mCLASS Lectura also involved a team of nationally recognized experts representing a range of regions (Mexico, Central America, South America, and the Caribbean), along with focus groups featuring classroom teachers, special education teachers, specialists, and administrators.

Our approach

Aligned to the Science of Reading, mCLASS Lectura allows teachers to connect with their students through observational assessment and in the language most comfortable to them. We built mCLASS Lectura so that when used in tandem with mCLASS DIBELS 8th Edition, educators can achieve complete parity between English and Spanish literacy skills.

Complete parity between English and Spanish

mCLASS Lectura is an authentic Spanish assessment that delivers complete parity when combined with mCLASS DIBELS 8th Edition, including parallel reporting across English and Spanish assessments and unique dual-language reporting.

Listen to your students read in both languages, one-on-one

mCLASS Lectura provides teacher-administered assessments in Spanish that deliver accurate and reliable measurements of each student’s literacy progress. 

Built from the latest research in Spanish literacy development

mCLASS Lectura is a high-quality assessment that accounts for the major differences between English and Spanish, not simply a direct translation or transadaptation between the two languages. 

Transfer skills in one language to the other

By providing teachers with insights into the skill areas in which their students are proficient, in their native language, the program helps Spanish-speakers build on their strengths and make connections to their second language. Educators also receive guidance on the cross-linguistic transfer of critical skills in both languages.

Effective interventions come from confident teachers.

Help build teacher confidence and improve effectiveness of intervention delivery with mCLASS Lectura professional development. Launch sessions help your team get up and running, while Strengthen sessions help teachers go beyond the basics.

Explore Amplify PD

What’s included

mCLASS Lectura includes one-minute measures validated for universal and dyslexia screening, and provides dual language reports for teachers and administrators.

Comprehensive Spanish literacy measures in mCLASS Lectura

mCLASS Lectura is validated to assess for all key foundational skills for K–6, including:

  • Letter Naming
  • Phonological Awareness
  • Alphabetic Principle
  • Fluency
  • Comprehension
Learn more

Reports in English and Spanish

mCLASS Lectura analyzes Spanish literacy and English literacy development side by side, enabling you to see where kids are in both languages.

Instructional activities to build Spanish literacy skills

With mCLASS Lectura, educators get hundreds of step-by-step instructional activities for small groups or individual students and receive effective activities to target the Spanish literacy skills with which students need the most support.

Comprehensive reporting

mCLASS Lectura provides reporting for everyone at all levels, from classroom teachers and literacy specialists to principals and district leaders, as well as parents and guardians at home.

Detailed assessment data

mCLASS Lectura provides transcripts of every assessment and identifies error patterns to help educators make instructional decisions for students on the skills they need to work on the most. The program also includes letters with student assessment results and analysis to send home or to use as a basis for discussion at conferences.

Read about the research and validation behind mCLASS Lectura.

Download our white paper

Explore more programs based in the Science of Reading.

We’re using critical components of biliteracy learning to support the literacy development of all students.

Amplify Caminos

Amplify Caminos is a K–5 Spanish language arts program and curriculum designed t…

Boost Lectura

Boost Lectura is a spanish literacy instruction program based on the Science of…

Boost Reading

Boost Reading is a Science of Reading K–5 personalized reading program that’s he…

See all programs

1. Service Overview

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

Company profile

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

Service hosting

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

2. Policies & standards

Information security program

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

Governance

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

Policy execution

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

3. Data access controls

Access control

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

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

Encryption

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

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

4. Application security by design

Building the right roles into applications

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

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

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

Building security controls into applications

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

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

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

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

5. Proactive security

Risk assessments

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

Penetration testing

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

Vulnerability management

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

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

Endpoint security

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

Infrastructure security

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

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

Security training

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

6. Reactive security

Monitoring

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

Incident response

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

Business Continuity Planning and Disaster Recovery

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

7. Compliance

Audits

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

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

Certifications

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

Privacy

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

8. Supporting documentation

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

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

9. Report a vulnerability

To report a security vulnerability, click here.

Website Privacy Policy

Last Modified:  February 2026

Update: February 2, 2026: This Privacy Policy has been updated to address additional rights for individuals in the European Union/UK.

Below is the Website Privacy Policy for the amplify.com site (“Privacy Policy”). For purposes of clarity and as further outlined below, this Privacy Policy does not apply to student data. You can visit this page to read about the principles and policy governing student data collected and maintained on behalf of our school customers.

We advise you to read this Privacy Policy in its entirety, including the jurisdiction-specific provisions in the appendix. Our Notice at Collection for California Residents is available in the Notice for our California Customers.

Who We Are / What This Privacy Policy Covers

Amplify Education, Inc. (“Amplify”) recognizes the importance of protecting the privacy and security of your personal information. This Privacy Policy describes our practices in connection with information that we may collect through your use of this website (the “Site”).

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

  • student data or other information collected from users of Amplify’s products that support classroom instruction and learning, which are governed by our Customer Privacy Policy.
  • staff or applicant data that we process in accordance with our staff or applicant privacy notice, respectively.

If you have any question as to what legal agreement or privacy policy controls the collection and use of your information, please contact us using information below in the Contact Us section.

This Privacy Policy is incorporated into and is subject to our Website Terms of Use, which governs your use of the Site.

Our Role: We are the controller of all personal information (as defined below) that we receive through our Site and can be reached by email at privacy@amplify.com or by mail at Amplify Education, Inc., 55 Washington St.#800, Brooklyn, NY, 11201.

1. What personal information do we collect?

When you visit and / or interact with our Site, we may collect the following information about you that, alone or in combination, could be used to identify you or your device (“personal information”):

  • Contact Information, such as name, district / school name, professional affiliation, title / role, email address, shipping address, address and phone number.
  • Account Information, such as customer user login and password. 
  • Demographic Information, such as age and gender.
  • Information You Submit, such as information voluntarily provided on message boards, feedback sections, and other public areas of the Site.
  • Site Activity Information, which is collected when you access and interact with the Site, we and our Service Providers (as defined below) may collect certain information about those visits. For example, we or our Service Providers may receive and record information about your computer and browser, including your IP address, browser type, and other software or hardware information. If you access the Site from a mobile or other device, we may collect a unique device identifier assigned to that device, or other characteristics of the device hardware, operating system and configurations for that device. On certain pages of the Site, we may use third party tools to help us look at mouse movements, clicks, keystrokes, data or text entered, and the pages you visit.
  • Location Information, such as state, country and / or zip code, which we use to help us customize your experience, as well as to help us facilitate your privacy rights.
  • Audio, electronic, visual, or similar information: such as customer service interactions, call recordings, chat transcripts, files you attach, and email, text, or other correspondence.

If you make a purchase through our online store, you may provide payment and other information directly to our third party e-commerce platform to complete your purchase.

We ask that you not send us, and you not disclose, any government identifiers (such as social security numbers) or information related to racial or ethnic origin, health, or criminal background on or through the Site or otherwise.

2. Where/How do we collect personal information?

Amplify may collect personal information directly from you at various points, including the following:

  • Product Information and Newsletters. When you submit a request to obtain information about our products, services or other informational material or subscribe to one of our newsletters, you may be asked to submit information such as name, professional affiliation, email address, company name, address and phone and details on your query or interests in our products and services. This information is collected to help us process your request.
  • Customer Support. When you submit a form to contact our customer service, you may be asked to submit information such as name, e-mail, district, customer user login and password and details on your query. In addition, some features of our Site, such as our customer live chat functionality or other customer service systems may allow you to voluntarily provide personal information to us. This information is collected to help us process your request. Please only provide what is needed to facilitate the support request.
  • Product Orders. If you use e-commerce areas of our Site to order our products, we request information from you on our order form. To purchase products through the Site, you must provide contact information (such as name and shipping address) and financial information (such as credit card number). This information is used for billing purposes and to fill your orders. We will also use this information to contact you to confirm your order or to inform you of any issues or delays.
  • Registration. You may be asked to submit information to use certain parts of the Site (such as posting comments on certain areas of the Site), register for an event or webinar, or view restricted content that may be available on the Site. For instance, you may be asked to provide your name, email address and event or webinar-related preferences to help us process your registration or content request.
  • Public Areas and Discussion Forums. Any information you share in public areas, such as message boards or feedback sections, becomes public. Please be careful about what you disclose and do not post any personal information that you expect to keep private.
  • Contests and Sweepstakes. When we run a contest or sweepstakes relating to the Site or Amplify, it will be accompanied by a set of rules. The rules for each contest/sweepstakes will specify how the information gathered from you for your entry will be used and disclosed.

As you visit or use our Site, we may collect Site activity information through cookies and similar technologies.

  • Cookies, Pixels, and Other Tracking Technologies. Cookies and other tracking technologies (such as pixels, beacons, and Adobe Flash technology) are small data files that are placed on your computer or mobile device when you visit a website. They allow the website or mobile app to remember your actions and preferences over a period of time. We use the following types of cookies:
    • Strictly necessary cookies – These are cookies that are required for the operation of our Site. They include, for example, cookies that enable you to log into secure areas of our Site. 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 our Site 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 our Site to “recognize” you when you use our Site, 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.
    • Analytics Cookies – These cookies help us and our Service Providers compile statistics and analytics about users of the Site, including Site Activity Information. For example, we use Google Analytics to help us understand how users interact with the Platform. Google Analytics uses cookies to track your interactions with the Site, then collects that information and reports it to us. This information helps us improve the Site so that we can better serve you. To learn more about Google Analytics, visit https://support.google.com/analytics/answer/6004245?hl=en. If you wish, you can opt-out of Google Analytics by installing the Google Analytics Opt-out Browser Add-on, available on https://tools.google.com/dlpage/gaoptout.
    • Advertising Cookies – We use these cookies to collect information about your visit to our Site, the content you viewed, the links you followed and information about your browser, device, and your IP address. We sometimes share some limited aspects of this data with third parties for advertising purposes. We may also share Site Activity Information collected through cookies with our advertising partners. This means that when you visit another website, you may be shown advertising based on your browsing patterns on our Site.

For information on how to opt-out of these technologies, please see What Choices Do You Have? below.

  • Social Plugins. Certain areas of our Site permit you to utilize social media functionality, such as the Facebook “Like” or Google “+1” buttons (“Social Plugins”). To use a Social Plugin, you must authorize the third-party provider of that Social Plugin, e.g. Facebook or Google, to access, collect, and/or disclose your information related to your use of that Social Plugin, subject to that company’s privacy policies, which may differ from this Privacy Policy. In addition, such providers may be able to collect information about you, including your activity on the Site, and they may notify your connections on their social networking platform about your use of the Site. Such services may also employ unique identifiers that allow your activity to be monitored across multiple websites for purposes of delivering more targeted advertising to you.

Amplify also receives information from other sources.

  • Information from Other Sources. We may supplement any information we collect via this Site with information from publicly or commercially available sources.

3. How do we use personal information?

We may use any personal information and other information we collect from and about you for the following purposes and as described elsewhere in this Privacy Policy:

  • To provide and manage the Site. We use the personal information we collect from and about you to provide the Site and features to you, including to measure and improve its services and features, to personalize your experience by delivering relevant content, to deliver marketing messages, to allow you to comment on content, to provide you with customer support, and to respond to inquiries. We may also use and disclose aggregate or anonymous data about your use of and activity on the Site to assist us in this regard and for any other purpose.
  • To contact you. Amplify may periodically send promotional materials (e.g., newsletters) or notifications related to the Site and to Amplify’s business to the contact information you provided to us at registration.
  • To improve our products and services. We may use your personal information for our business purposes, such as data analysis, audits, developing new products and services, enhancing the Site, improving our services, identifying usage trends, and determining the effectiveness of our promotional campaigns.
  • For marketing and advertising. We may use your personal information to help us market our products to you or your school district.

4. To whom do we disclose personal information?

We may disclose any personal information and other information we collect from and about you for the following purposes and as described elsewhere in this Privacy Policy:

  • To share with our affiliated education companies. Amplify may share your personal information with Amplify’s affiliated education companies for the purposes described in this Privacy Policy.
  • To allow service providers to assist us. We may engage third party service providers, agents and partners (“Service Providers”) to perform functions on our behalf, such as analytics, credit card processing, shipping or stocking orders and providing customer service. We may disclose your personal information to such Service Providers to enable them to assist us in these efforts.
  • To allow our marketing and advertising partners to assist us. We may engage marketing and advertising partners to help us market and advertise our products and services, including via digital ads sent in connection with your visit to the Site. We may disclose Site Activity information, as well as contact information and other aggregate insights to such partners to enable them to assist us in these efforts.
  • To protect the rights of Amplify and our users. There may be instances when Amplify may disclose your personal information, in situations where Amplify has a good faith belief that such disclosure is necessary or appropriate in order to: (i) protect, enforce, or defend the legal rights, privacy, safety, operations, or property of Amplify, our parents, subsidiaries or affiliates or our or their employees, agents and contractors (including enforcement of our agreements, including our terms of use); (ii) protect the rights, safety, privacy, security or property of users of the Site or others; (iii) protect against fraud or for risk management purposes; (iv) comply with the law or legal process, including laws outside your country of residence; (v) respond to requests from public and government authorities, including those outside your country of residence; or (vi) allow us to pursue available remedies or limit the damages that we may sustain.
  • To complete a merger or sale of assets. If Amplify sells all or part of its business or makes a sale or transfer of its assets or is otherwise involved in a merger, transfer or other disposition of all or part of its business, assets or stock (including in connection with any bankruptcy or similar proceedings), Amplify may transfer your personal information to the party or parties involved in the transaction.

5. What rights and choices do you have?

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. There are certain service notification emails that you may not opt-out of, such as notifications of changes to the Site or policies. If you have additional questions, please contact us using information below in the Contact Us section.

Opt-of Cookies and Similar Tracking Technologies. There are a few ways to opt out or delete cookies.

  • On Your Browser. Most browsers are initially set to accept cookies, but your browser may permit you to change your settings to notify you of a cookie being set or updated, or to block cookies altogether. Please consult the “Help” section of your browser for more information. Please note that by blocking any or all cookies you may not have access to certain features, content or personalization that may be available through the Site. Please also note that you must opt out separately on each device (including each web browser on each device) that you use to access our Site if you wish to opt out, and if you clear your cookies or if you use a different browser or device, you will need to renew your opt-out preferences.
  • Interest-Based Advertising. Some advertisers and marketing companies participate in the self-regulatory programs of the Digital Advertising Alliance (“DAA”) and European Interactive Digital Advertising Alliance (“eDAA”) in connection with online interest-based advertising. DAA and eDAA provide consumers with the ability to opt out of receiving interest-based advertising from their program participants at the following links:

What Rights Do You Have?

6. Security

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.

7. Data retention / Deletion

We will retain your personal information for the period necessary to fulfill the purposes outlined in this Privacy Policy unless a longer retention period is required or allowed by law. Even after we have deleted your personal information from our systems, copies of some information from your account may remain viewable in some circumstances – where, for example, you have shared information with social media platforms and other unaffiliated services. We may also retain backup information related to your account on our servers for some time after cancellation for fraud detection or to comply with applicable law or our internal security policies. Because of the nature of caching technology, your account may not be instantly inaccessible to others, and there may be a delay in the removal of the content from elsewhere on the Internet and from search engines.

8. 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.

9. External third-party services

The Site may be linked to sites operated by unaffiliated companies, and may carry advertisements or offer content, functionality, games, newsletters, contests or sweepstakes, or applications developed and maintained by unaffiliated companies. Amplify is not responsible for the privacy practices of unaffiliated companies, and once you leave the Site via a link or enable an unaffiliated service, you are subject to the applicable privacy policy of the unaffiliated service.

10. Updates to this policy

Amplify may modify this Privacy Policy. Please look at the Last Revised Date at the top of this Privacy Policy to see when this Privacy Policy was last revised. Any changes to this Privacy Policy will become effective when we post the revised Privacy Policy on the Site. If you do not wish to be bound by the terms of the revised Privacy Policy, you must discontinue your use of the Site.

11. 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

Appendix – Supplemental Disclosures

1. Notice for our California Customers

We retain your personal information for as long as you are an active user of our Site or continue to have an account with us, and in accordance with our legal obligations (which may require us to hold information to provide financial and other reporting and to defend against potential claims). If you are a California resident, please see below for information about your rights pursuant to California law.

Personal Information We Collect
How We Use Personal Information
Contact Information
  • To provide you with customer support and respond to inquiries.
  • To contact you with promotional emails (e.g. newsletters) or notifications related to the Site
  • To help us verify the identity of our user
  • As otherwise required or permitted by law, or as we may notify you at the time of collection
Account Information
  • To provide and manage the Site
  • To improve our products and services
  • As otherwise required or permitted by law, or as we may notify you at the time of collection
Payment Information
  • To complete your payment of purchases made through the Site
  • For internal operations (e.g. to improve and update our products)
  • For security and fraud prevention
  • As otherwise required or permitted by law, or as we may notify you at the time of collection
Information You Submit
  • To provide the Site and features to you, including to allow you to comment
  • To improve our products and services
  • As otherwise required or permitted by law, or as we may notify you at the time of collection.
Site Activity Information
  • We sell or share information about your Site activity with third parties for targeted advertisements on and off of Amplify. We also use this information to:
    • To provide and manage the Site
    • To improve our products and services
    • For internal operations (e.g. to improve and update our products)
    • For security, safety, and due diligence purposes
    • As otherwise required or permitted by law, or as we may notify you at the time of collection
Location Information
  • We use location information , such as state, country and / or zip code, which we use to help us customize your experience, as well as to help us facilitate your privacy rights.
Inferences
  • We may make inferences about your interests and personal preferences (such as the content you like to consume). We also use this information to:
    • To personalize your experience on the Site
    • For internal operations (e.g. to improve and update our products)
    • As otherwise required or permitted by law, 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 (including payment information and account login credentials (“Sensitive Information”). Whether information is Sensitive Information will depend on the laws of your jurisdiction. We only use Sensitive Information, such as payment information and account credentials for necessary or reasonably expected purposes – specifically, to provide you with our Services (i.e., fulfill purchases and to allow account logins).

Shine the Light

California’s Shine the Light law (Civil Code § 1798.83) permits California residents to request certain information regarding our disclosure of certain categories of personal information to third parties for their own direct marketing purposes in the preceding calendar year. We do not share personal information, as defined by California’s Shine the Light law, with third parties for their own direct marketing purposes.

Notice of Financial Incentive 

 As part of our services, there may be opportunities for you to complete surveys and questionnaires. As an incentive for completing the survey or questionnaire, you can voluntarily provide your personal information, which in turn enters you into a raffle drawing or enables us to provide you with 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 your survey is complete.

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

2. Additional U.S. State Privacy Law Rights

Residents of certain U.S. states have the following rights, regarding your personal information (each of which are 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.
  • Correct. You have the right to request that we correct inaccurate personal information collected from you. 
  • Deletion. You can request that we delete your personal information that we maintain about you.
  • Opt-out (Do Not Sell or Share My Personal Information). Under several U.S. state privacy laws, consumers have the right to opt-out of the “sale” of their personal information (defined very broadly to include situations where we provide personal information to partners who provide advertising services to us) and the “sharing” of personal information in connection with the display of targeted advertising across third party websites. While we do not sell your personal information, we do share it in connection with our advertising efforts. Please also note that we do not knowingly sell or share the Personal Information of minors under 16 years of age.

We also honor the Global Privacy Control, a browser-based opt-out signal. We do not respond to other browser-based signals that do not meet applicable state law requirements, which may include older Do Not Track signals.

  • 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. 
  • Submission of Requests. You may exercise the above rights by emailing us at privacy@amplify.com. Note that we may deny certain requests, or fulfill a request only in part, based on our legal rights and obligations. For example, we may retain personal information as permitted by law, such as for tax or other record keeping purposes, to maintain an active account, and to process transactions and facilitate customer requests.
  • Authorized Agent. You may designate an authorized agent to make a request on your behalf. When submitting the request, please ensure the authorized agent identifies himself/herself/itself as an authorized agent and can show written permission from you to represent you. We may contact you directly to confirm that you have authorized the agent to act on your behalf or confirm your identity.
  • Verification. Whether you submit a request directly on your own behalf, or through an authorized agent, we will take reasonable steps to verify your identity prior to responding to your requests. The verification steps will vary depending on the sensitivity of the personal information and whether you have an account with us.
3. Notice for European Economic Area and United Kingdom Customers

As detailed at the beginning of our Privacy Policy (under the section titled “Our Role”), Amplify acts as a controller with respect to personal information collected as you interact with our Site.

Lawful Basis for Processing

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

  • Consent;
    • We obtain your consent to collect and process device and usage data via cookies on our Site to understand how individuals use our Site and to help us measure the effectiveness of our advertising and marketing campaigns.
  • Pursuant to a contract with the user of our Site;
    • We process all categories of personal information that we collect to provide and manage our Site, including payment processing, where this is required in order for us to perform our obligations under our contract with you.
  • To comply with our legal obligations;
    • We process all categories of personal information that we collect to ensure the safety and security of our Site where we are complying with security requirements under data protection and cyber and information security law.
    • We process all categories of personal information that we collect to comply with our legal obligations which includes, for example, to access, retain or share certain personal information where we receive a valid request from a government body, law enforcement body, judicial body regulator or similar, to deal with legal claims and prospective legal claims, and to ensure we are complying with applicable laws.
  • When we have a legitimate interest in doing so, which is not outweighed by the risks to the individual. We rely on our legitimate interest to process all categories of personal information:
    • to provide, manage, and improve the Site where such activities are not strictly required under our contract, including personalizing your experience on the Site.
    • to ensure the safety and security of our Site where this is important but not required under the data protection law or cyber and information security laws.
    • to respond to queries or otherwise communicate with you in relation to our Site and the operation of our business where this is not strictly required under a contract with you.
    • internal research and certain marketing purposes (e.g. to periodically send newsletters and other promotional materials), which will not be based on Student Data or directed to K–12 students.

Your Data Subject Rights

If you are located in the EEA/UK, you have the following rights, subject to certain exceptions:

  • Right of access: You have the right to ask us for confirmation on whether we are processing your personal information and access to that personal information.
  • Right to correction: You have the right to have your personal information corrected.
  • Right to erasure: You have the right to ask us to delete your personal information.
  • Right to withdraw consent: You have the right to withdraw consent that you have provided.
  • Right to lodge a complaint with a supervisory authority: You have the right to lodge a complaint with a supervisory authority.
  • Right to restriction of processing: You have the right to request the limiting of our processing under limited circumstances.
  • Right to data portability: You have the right to receive the personal information that you have provided to us, in a structured, commonly used, and machine-readable format, and you have the right to transmit that information to another controller, including to have it transmitted directly, where technically feasible.
  • Right to object: You have the right to object to our processing of your personal information

To exercise any of these rights, contact us as set forth in the section entitled “Contact Us” above and specify which European privacy right you intend to exercise. We may require additional information from you to allow us to confirm your identity. Please note that we store information as necessary to fulfill the purposes for which it was collected, and may continue to retain and use the information even after a data subject request for purposes of our legitimate interests, including to comply with our legal obligations, resolve disputes, prevent fraud, and enforce our agreements.

Complaints

If you have any issues with our compliance, you have the right to lodge a complaint with an EEA or UK supervisory authority. We would, however, appreciate the opportunity to address your concerns before you approach a data protection regulator, and would welcome you directing an inquiry first to us. To do so, please contact us by email at privacy@amplify.com or by mail at Amplify Education, Inc., 55 Washington St.#800, Brooklyn, NY, 11201.

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”).

BY ACCESSING OR USING THE SITE, YOU REPRESENT AND WARRANT THAT YOU ARE OF LEGAL AGE TO ENTER INTO THIS TERMS OF USE AGREEMENT (“AGREEMENT”) AND YOU AGREE TO BE BOUND BY THE TERMS AND CONDITIONS OF THIS AGREEMENT. BY PURCHASING GOODS AND SERVICES ON THE SITE, YOU ARE ACCEPTING THE PRACTICES DESCRIBED IN THIS AGREEMENT AS WELL AS ANY ADDITIONAL TERMS OF USE THAT MAY BE ASSOCIATED WITH THE PARTICULAR GOODS AND SERIVICES YOU ARE PURCHASING.

Please read this Agreement carefully. If you are an employee or other representative of a school or other organization who is accessing or using the Site on behalf of such organization, then you are agreeing to this Agreement on behalf of yourself and such organization. We may modify this Agreement at any time in our discretion, and we may provide such modifications to you by any reasonable means, including by posting the revised version of this Agreement on the Site. You can determine when this Agreement was last revised by referring to the “LAST UPDATED” legend at the top of this Agreement. Your access to or use of the Site following any changes to this Agreement will constitute your acceptance of those changes. Notwithstanding the foregoing, any changes to this Agreement shall not apply to any dispute between you and us arising prior to the date on which we posted the revised version of this Agreement incorporating such changes or otherwise notified you of such changes. If you do not agree to be bound by this Agreement, you must not access or use the Site. Your access to and use of certain parts of the Site may require you to accept additional terms and conditions, and may require you to download certain Software or Content (each as defined below).

Jurisdictional Issues

The Site is controlled and operated by Company from the United States, and is not intended to subject Company to the laws or jurisdiction of any state, country or territory other than that of the United States. Company does not represent or warrant that the Site is appropriate or available for use in any particular jurisdiction other than the United States. In choosing to access and use the Site, you do so on your own initiative and at your own risk, and you are responsible for complying with all local laws, rules and regulations. You are also subject to United States export controls and are responsible for any violations of such controls, including any United States embargoes and other federal rules and regulations restricting exports. We may limit the Site’s availability to any person, geographic area or jurisdiction we choose, at any time and in our discretion. Not all products or services described on the Site are available in all states or territories.

Company content

The Site contains information, text, files, images, video, sounds, musical works, computer code, works of authorship, applications, and other materials and content (collectively, “Content”) of Company or its licensors (“Company Content”). The Site (including the Company Content) is protected by copyright, trademark, trade secret and other laws, and as between you and Company, Company owns and retains all rights in the Site. Company hereby grants to you a limited, revocable, non-sublicensable license, during the term of the Agreement, to access, display and perform the Company Content (excluding any computer code) solely for your personal, non-commercial use and solely as necessary to access and use the Site. Except as expressly permitted by Company in this Agreement or on the Site, you may not copy, download, stream, capture, reproduce, duplicate, archive, upload, modify, translate, create derivative works based upon, publish, broadcast, transmit, retransmit, distribute, perform, display, sell or otherwise use or transfer any Content. You may not, either directly or through the use of any device, software, online resource or other means, remove, alter, bypass, avoid, interfere with or circumvent any copyright, trademark or other proprietary notice on the Content or any digital rights management mechanism, device, or other content protection or access control measure associated with the Content.

User content

You may not access or use the Site for any commercial purpose. You are responsible for all Content that you post, upload, transmit, e-mail or otherwise make available on, through or in connection with the Site (collectively, “User Content”). Please choose carefully the Content that you make available on, through or in connection with the Site. Company does not control any Content other than Company Content, and as such you may be exposed to offensive, indecent, inaccurate or otherwise objectionable Content by accessing or using the Site. Company is not responsible or liable for any Content or the conduct of any Site user. If you become aware of any misuse of the Site, please report such misuse immediately to Company at general@amplify.com. Company reserves the right (but has no obligation) to monitor the Site, including for inappropriate Content or conduct, and to remove any Content in Company’s discretion and without liability to you or any third party.

Your proprietary rights

You retain any ownership rights that you have in your User Content. You hereby grant to Company and its affiliates, licensees and authorized users, a perpetual, non-exclusive, fully paid-up and 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 Content on, through or in connection with the Site and/or any other commercial or non-commercial endeavor of Company or any of its affiliates, including in connection with any distribution or syndication thereof to Third Party Services (as defined below), on and through all media formats now known or hereafter devised, for any and all purposes including promotional, marketing, trade and commercial purposes. The exercise of such rights shall not require any further permission or notice, payment or attribution to you or any third party. Company reserves the right to limit the storage capacity made available for User Content.

You represent and warrant that: (a) you own the User Content made available by you, or otherwise have the right to grant the license set forth in this Section, and (b) the posting of such User Content through or in connection with the Site does not violate the privacy rights, publicity rights, copyrights, contract rights or any other rights of any person or entity. You agree to pay for all royalties, fees and any other monies owing to any person or entity by reason of the use of such User Content.

Use of the site

You agree not to:

  • 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.
  • Violate the rights of others, including patent, trademark, trade secret, copyright, privacy, publicity, contract or other proprietary rights.
  • Harass or harm another person.
  • Exploit or endanger a minor.
  • Impersonate any person or entity.
  • Introduce or engage in activity that involves the use of viruses, bots, worms, Trojan horses, Easter eggs, 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.
  • Interfere with, damage, disable, disrupt, impair, create an undue burden on, or gain unauthorized access to the Site or any Account, or Company’s servers or networks;
  • 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

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Season 7, Episode 1

Navigating the noise, with Claude Goldenberg

Claude “Skeptic” Goldenberg, professor of education at Stanford, rejoins Susan Lambert to kick off season 7 of the podcast—all centered around tackling the hard stuff. In this week’s episode, Claude and Susan take on the topic of what is actually true when it comes to the Science of Reading and how to navigate the noise to find it! Together they discuss the opportunities and challenges of social media, “the importance of limitations of foundational skills,” and striving to maintain hope even when the journey toward success gets overwhelming.

Join Science of Reading: The Community to connect with fellow educators.

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Transcripts and additional resources:

Tim Shanahan’s blog
The New England Journal of Medicine: “Physicians Spreading Misinformation on Social Media — Do Right and Wrong Answers Still Exist in Medicine?”
Bloom’s Taxonomy
“Reading Wars, Reading Science, and English Learners,” by Claude Goldenberg
Book: “Stages of Reading Development,” by Jeanne S. Chall
Book: “Scientific Basis of the Art of Teaching,” by N.L. Gage
Transcript

Meet Our Guest(s):

Hombre de mediana edad con barba sonriendo en un marco redondo, resaltado por un gráfico de una mano blanca y una flecha naranja apuntándolo para un podcast sobre la ciencia de la lectura.

Claude Goldenberg

Claude Goldenberg is the Nomellini & Olivier Professor of Education, emeritus, Graduate School of Education at Stanford University. He received his A.B. in history from Princeton University and M.A. and Ph.D. from the Graduate School of Education at UCLA. He has taught junior high school in San Antonio, TX, and first grade in a bilingual elementary school in Los Angeles. A native of Argentina, his areas of research centered on promoting academic achievement among language minority students, particularly those from Spanish-speaking backgrounds. He currently works on promoting research, policy, and practices to enhance literacy and academic development among students not yet proficient in English.

Meet our host, Susan Lambert

Susan Lambert is the Chief Academic Officer of Elementary Humanities at Amplify, and the host of Science of Reading: The Podcast. Her career has been focused on creating high-quality learning environments using evidence-based practices. Susan is a mom of four, a grandma of four, a world traveler, and a collector of stories.

As the host of Science of Reading: The Podcast, Susan explores the increasing body of scientific research around how reading is best taught. As a former classroom teacher, administrator, and curriculum developer, Susan is dedicated to turning theory into best practices that educators can put right to use in the classroom, and to showcasing national models of reading instruction excellence.

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Quotes

"You can think of literacy as a structure, as something that gets constructed in your mind."

—Claude Goldenberg

Featured Episodes

Season 6, Episode 1

Episode 1: The other side of Scarborough’s Rope, with…

In our kick-off episode for season six, host Susan Lambert is joined by podcast alum Margaret Goldberg, the co-founder of…
Season 6, Episode 7

Episode 7: The how and why behind high-quality instructional…

As the former chief academic officer at the Louisiana Department of Education, Rebecca Kockler made it her mission to empower…
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Season 6, Episode 2

Episode 2: NAEP: What you’ve always wanted to know,…

In this episode, we dive deep into the National Assessment of Educational Progress (NAEP), also known as the national report…

Literacy Essentials, Episode 4

Science of Reading Essentials: The science of learning

On this Science of Reading Essentials episode, we're taking a deeper dive into the science of learning to explore how memory, cognitive load, and knowledge building can transform your literacy instruction. On this synthesis episode, host Susan Lambert, Ed.D., weaves in the insights of our expert guests—Natalie Wexler; Nathaniel Swain, Ph.D.; Hugh Catts, Ph.D.; Daniel Willingham, Ph.D.; Peter C. Brown; Jamey Peavler, Ed.D.; and David Rapp, Ph.D. With their insights, Susan reflects on how memory works and why understanding its processes is foundational to effective teaching; why cognitive load theory and background knowledge are game-changers for literacy instruction; and which evidence-based strategies—like retrieval practice, spaced repetition, and mixed practice—make learning stick.

Join Science of Reading: The Community to connect with fellow educators.

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Transcripts and additional resources:

Our Summer Learning Academy is back! Reserve your spot now to join Susan Lambert for a pair of sessions that will help you dive deeper into the latest reading comprehension research.
The science of learning, the humility of teaching, with Peter C. Brown
Comprehension is not a skill, with Hugh Catts
When not to differentiate: A guide to small-group instruction with Jamey Peavler
The truth behind learning, with Nathaniel Swain
The Knowledge Gap: Natalie Wexler
Cognitive science-informed teaching, with Natalie Wexler
Unlocking reading: Comprehension strategies vs. knowledge building, with Daniel Willingham
The science of memory and misinformation, with David Rapp
Get ready for Season 3 of the Amplify podcast Beyond My Years.
Check out our Science of Reading Essentials episodes.
Join our community Facebook group.
Connect with Susan Lambert.
Read the transcript.

Meet Our Guest(s):

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Natalie Wexler

Natalie Wexler is the author of multiple books, including Beyond the Science of Reading: Connecting Literacy Instruction to the Science of Learning and The Knowledge Gap: The Hidden Cause of America’s Broken Education System—and How to Fix It; and is the co-author, together with Judith C. Hochman, Ed.D., of The Writing Revolution: A Guide to Advancing Thinking Through Writing in All Subjects and Grades. She has a free Substack newsletter called Minding the Gap, and she was the host of the Knowledge Comprehension podcast, Season 1. More information is available on her website, www.nataliewexler.com.

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Nathaniel Swain, Ph.D.

Nathaniel Swain is a teacher, instructional coach, and writer. He produces a blog for teachers called Dr. Swain’s Cognitorium and is cohost of the Chalk Dust podcast with Rebecca Birch. Nathaniel works directly with schools and systems through an online learning platform called Luminary.

He founded a community of educators committed to the science of learning, called Think Forward Educators. He also has a best-selling book, Harnessing the Science of Learning: Success Stories to Help Kickstart Your School Improvement.

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Hugh Catts, Ph.D.

Hugh Catts’ research interests include the early identification and prevention of reading and disabilities. He is a former board member of the International Dyslexia Association and former president of the Society for the Scientific Study of Reading. He has received the Samuel T. Orton Award, the International Dyslexia Association’s highest honor, and the Honors of the Association award from the American Speech-Language-Hearing Association, for his career contributions in these disciplines. His current research concerns the early identification of reading and language difficulties and the nature and assessment of reading comprehension problems.

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Daniel Willingham, Ph.D.

Daniel Willingham is a professor of psychology at the University of Virginia, where he has taught since 1992. Until about 2000, his research focused solely on the brain basis of learning and memory. Today, all of his research concerns the application of cognitive psychology to K–12 education. He is the author of several books, including the best-selling Why Don’t Students Like School? and Outsmart Your Brain. His writing on education has appeared in 23 languages. In 2017, he was appointed by President Barack Obama to the National Board for Education Sciences.

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Peter C. Brown

Peter C. Brown is a bestselling writer and novelist, retired from a career as a management consultant. He is the lead author of Make It Stick: The Science of Successful Learning. Make It Stick has been translated into 17 foreign languages and received international acclaim for changing the way we understand learning.

Jamey Peavler, Ed.D.

Jamey Peavler is a co-director of and full-time instructor in the Graduate Reading Science program at Mount St. Joseph University. Before joining Mount St. Joseph, Jamey served as director of training for the M.A. Rooney Foundation. In addition, she works for the National Council for Teacher Quality (NCTQ) as a higher-education textbook and teacher licensure reviewer. Her research interests include instructional design, the impact of spaced practice and interleaving to support effortful retrieval and retention of information, the role of oral language and syntactic awareness on comprehension and written expression, and foundational skills for supporting literacy in the early childhood setting.

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David Rapp, Ph.D.

David Rapp is the Walter Dill Scott Professor of Education, Social Policy, and Psychology at Northwestern University. His research examines language and memory, focusing on the cognitive mechanisms responsible for successful learning and knowledge failures. This has included investigations into the influence of inaccurate information on comprehension, the evaluation of technologies that support formal and informal learning, and the iterative development of tools and curricula intended to support literacy. Rapps’ projects have been funded by the National Science Foundation, the U.S. Department of Education, the National Institute on Aging, and Meta.

Meet our host, Susan Lambert, Ed.D.

Susan Lambert is chief academic officer of literacy at Amplify and host of Science of Reading: The Podcast. Throughout her career, she has focused on creating high-quality learning environments using evidence-based practices. Lambert is a mom of four, a grandma of four, a world traveler, and a collector of stories.

As the host of Science of Reading: The Podcast, Lambert explores the increasing body of scientific research around how reading is best taught. A former classroom teacher, administrator, and curriculum developer, she’s dedicated to turning theory into best practices that educators can put right to use in the classroom, and to showcasing national models of reading instruction excellence.

Person with short blonde hair, glasses, and earrings, wearing an orange jacket, smiling in front of a plain gray background—committed to literacy education and fostering background knowledge for all learners.

Quotes

“To build a meaningful memory of something that you can hold on to and use, you have to think about it.”

—Hugh Catts

“Memory is a cognitive process. It's the way the brain encodes, stores, and retrieves information.”

—Susan Lambert

“You can't learn something new if it doesn't connect to something you already know.”

—Peter C. Brown

“The catch about writing is it's hugely important. It can help cement knowledge and long-term memory, deep knowledge, et cetera.”

—Natalie Wexler

“When we have knowledge in our long-term memory, all of these limitations suddenly disappear.”

—Nathaniel Swain

“We can only work with a limited set of information and when there's too much happening in our working memory, we experience cognitive overload. Essentially, our system is overloaded and we shut down.”

—Susan Lambert

“Essentially, memory is what enables us to retain knowledge, skills, and experiences, forming the foundation for all learning and cognition.”

—Susan Lambert

“The resonance model of comprehension suggests when someone asks a question, lots of ideas get activated automatically in memory.”

—David Rapp

“Your mind is very good at bringing up from memory the necessary facts, the facts that will help you given the context.”

—Daniel Willingham

“A lot of our students that are having difficulty are experiencing cognitive overload. So the first thing we need to think about is how are we gonna minimize that for them?”

—Jamey Peavler

Season 10, Episode 14

Your comprehension questions answered, with Nathaniel Swain, Ph.D.

In this episode of Science of Reading: The Podcast, returning guest Nathaniel Swain, Ph.D., joins Susan Lambert to close out the season by answering thoughtful and thought-provoking comprehension questions submitted by listeners. Nathaniel and Susan answer questions about comprehension strategies, the relationship between comprehension and memorization, and how to shift the mindset among your teaching colleagues to help them understand comprehension.

Join Science of Reading: The Community to connect with fellow educators.

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Second Mockup Episode 14: Your comprehension questions answered, with Nathaniel Swain, Ph.D.

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Season 10, Episode 14

Your comprehension questions answered, with Nathaniel Swain, Ph.D.

In this episode of Science of Reading: The Podcast, returning guest Nathaniel Swain, Ph.D., joins Susan Lambert to close out the season by answering thoughtful and thought-provoking comprehension questions submitted by listeners. Nathaniel and Susan answer questions about comprehension strategies, the relationship between comprehension and memorization, and how to shift the mindset among your teaching colleagues to help them understand comprehension.

Join Science of Reading: The Community to connect with fellow educators.

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Mockup Episode 14: Your comprehension questions answered, with Nathaniel Swain, Ph.D.

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Season 3, Episode 5

Developing an asset orientation with Lani Horn

In this episode, math education professor Lani Horn shares with us what it means to have an asset orientation towards students, contrasting it with a deficit orientation, and helping Bethany and Dan understand the many ways students experience one or the other. Their conversation hit both high notes and low notes and included a challenge that Bethany and Dan both found extremely valuable for helping a teacher develop an asset orientation towards their students.

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Meet Our Guest(s):

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Lani Horn

Lani Horn centers her research on ways to make authentic mathematics accessible to students, particularly those who have been historically marginalized by our educational system. Professor Horn focuses primarily on mathematics teaching in two ways. First, Professor Horn looks at classroom practices that engage the most students in high-quality mathematics. Second, Professor Horn views teaching as a contextually-embedded practice – how school environments, communities, colleagues, and policies shape what is instructionally possible. All of this is unified through a pursuit to understand teacher learning as a situative phenomenon.

Meet our hosts: Bethany Lockhart Johnson and Dan Meyer

Bethany Lockhart Johnson is an elementary school educator and author. Prior to serving as a multiple-subject teacher, she taught theater and dance, and now loves incorporating movement and creative play into her classroom. Bethany is committed to helping students find joy in discovering their identities as mathematicians. In addition to her role as a full-time classroom teacher, Bethany is a Student Achievement Partners California Core Advocate and is active in national and local mathematics organizations. Bethany is a member of the Illustrative Mathematics Elementary Curriculum Steering Committee and serves as a consultant, creating materials to support families during distance learning.

Dan Meyer taught high school math to students who didn’t like high school math. He has advocated for better math instruction on CNN, Good Morning America, Everyday With Rachel Ray, and TED.com. He earned his doctorate from Stanford University in math education and is currently the Dean of Research at Desmos, where he explores the future of math, technology, and learning. Dan has worked with teachers internationally and in all 50 United States and was named one of Tech & Learning’s 30 Leaders of the Future.

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Transcripts and additional resources:

Create an account with Amplify Classroom, a highly interactive teaching and learning platform with hundreds of free K–12 lessons, virtual manipulatives, and teaching tools.
Transcript

Quotes

“An asset orientation is looking for students' strengths and trying to work from those strengths as a basis for your teaching. ”

—Lani Horn

Stay connected!

Season 3, Episode 6

Identifying and addressing pseudoscience

Join us as we continue our discussion on the importance of integrating critical thinking into the science classroom with former teacher and current director of education at the Center for Inquiry, Bertha Vazquez. Listen as Bertha shares her experience with engaging students through identifying pseudoscience, and how developing these skills creates an identifiable impact on the real world.

And don’t forget to grab your Science Connections study guide to track your learning and find additional resources!

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Meet Our Guest(s):

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Bertha Vazquez

Bertha Vazquez recently retired from teaching middle school science in Miami-Dade County Public Schools after 33 years in the classroom. She is the education director of The Center for Inquiry which currently includes three projects, The Teacher Institute for Evolutionary Science (TIES), ScienceSaves, and Generation Skeptics.

A seasoned traveler who has visited all seven continents, she enjoys introducing the world of nature and science to young, eager minds. An educator with National Board Certification, she is the recipient of several national and local honors, including the 2014 Samsung’s $150,000 Solve For Tomorrow Contest and the $5,000 Charles C. Bartlett National Excellence in Environmental Award in 2009. She was Miami-Dade Science Teacher of the Year in 1997, 2008, and 2017. Thanks to the success of TIES, Bertha was the recipient of the 2017 winner of the National Association of Biology Teachers Evolution Education Award.

 

Meet our host: Eric Cross

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

Transcripts and additional resources:

Check out Generation Skeptics to access some of the resources Bertha shared.
Learn more about combatting pseudoscience at Science Saves.
Find out more about the Teacher Institute for Evolutionary Science.
Transcript

Quotes

"We teach these skills in a science class, but hopefully they use those skills when they encounter pseudoscience. So definitely, what we do on a day-to-day basis is really important for society."

—Bertha Vazquez

Stay connected

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Season 9, Special Episode

Unlocking reading: Comprehension strategies vs. knowledge building, with Daniel Willingham, Ph.D.

In this episode of Science of Reading: The Podcast, Susan Lambert welcomes back researcher and author Daniel Willingham, Ph.D., to discuss reading comprehension. With only so much instruction time in the day and research supporting both comprehension strategies and knowledge building, it can be tough to know what to prioritize in the classroom. Daniel holds nothing back in outlining exactly where educators should focus their time. Together, he and Susan explore the limitations of comprehension strategies, the place for critical thinking skills in relationship to knowledge, and how to recognize when messaging around knowledge has gone too far.

Join Science of Reading: The Community to connect with fellow educators.

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Transcripts and additional resources:

Access free, high-quality resources at our new professional learning page!
Read: Developing Curriculum for Deep Thinking: The Knowledge Revival, multiple authors
Read: Raising Kids Who Read, Daniel Willingham
Read: The Reading Mind, Daniel Willingham
Listen: “The basic science in reading instruction, with Daniel Willingham”
Listen: “Deconstructing the Reading Rope: Background knowledge, with Susan Neuman”
Listen: ​​“Research, comprehension, and content-rich literacy instruction: Sonia Cabell”
Join our community Facebook group
Connect with Susan Lambert
Transcript

Meet Our Guest(s):

A bald man with glasses, wearing a brown jacket and light blue shirt, stands in front of a brick wall. An illustrated light bulb and marks decorate the image border.

Daniel Willingham, Ph.D.

Daniel Willingham, Ph.D., is a Professor of Psychology at the University of Virginia, where he has taught since 1992. Until about 2000, his research focused solely on the brain basis of learning and memory. Today, all of his research concerns the application of cognitive psychology to K–16 education. He is the author of several books, including the best-selling Why Don’t Students Like School? and, most recently, Outsmart Your Brain. His writing on education has appeared in 23 languages.​ In 2017 he was appointed by President Barack Obama to the National Board for Education Sciences.

Meet our host, Susan Lambert

Susan Lambert is Chief Academic Officer of Literacy at Amplify and host of Science of Reading: The Podcast. Throughout her career, she has focused on creating high-quality learning environments using evidence-based practices. Lambert is a mom of four, a grandma of four, a world traveler, and a collector of stories.

As the host of Science of Reading: The Podcast, Lambert explores the increasing body of scientific research around how reading is best taught. A former classroom teacher, administrator, and curriculum developer, she’s dedicated to turning theory into best practices that educators can put right to use in the classroom, and to showcasing national models of reading instruction excellence.

Person with short blonde hair, glasses, and earrings, wearing an orange jacket, smiling in front of a plain gray background—committed to literacy education and fostering background knowledge for all learners.

Quotes

“Your brain is really good at only bringing out the information from long-term memory that is relevant for the context. All of that's happening outside of awareness.”

—Daniel Willingham, Ph.D.

“When reading is really humming, when it's really working well, it's like visual perception. You're just enjoying the view and you're oblivious to all of the cognitive machinery in the background that's letting you see.”

—Daniel Willingham, Ph.D.

“Expecting that knowledge-rich curriculum is going to solve all problems… that's [not] what a reading program is. No, a reading program is multifaceted and needs to have lots of components.”

—Daniel Willingham, Ph.D.

“Knowledge accrues slowly and it's going to take a while. You need to be patient.”

—Daniel Willingham, Ph.D.

Amplify Science releases substantial, free enhancements based on teacher feedback

Brooklyn, NY (September 26, 2019) Amplify, a publisher of next-generation curriculum and assessment programs, announced substantial new enhancements to Amplify Science, its core science program authored by the University of California, Berkeley’s Lawrence Hall of Science. Teachers can now prepare and present lessons with Classroom Slides for grades K–5; review and grade student work with an intuitive Classwork tool in grades 6–8; and use new digital Spanish-language resources, accessibility supports, and additional hands-on activities. In addition, Amplify rolled out Amplify Science Transitional Kindergarten, a new program designed to introduce young students to real-world phenomena and jumpstart a lifelong love of science. 

Based on feedback from teachers, which the Amplify team gathers on a regular basis through a variety of channels, the new elements available as part of Amplify Science this 2019-2020 school year include:

  • Classroom Slides, fully editable time-saving supports for teachers, with lesson visuals, activity instructions, animations, investigation setup videos, technology support and more.
  • Classwork, a feedback and grading tool that gives teachers easy access to unreviewed work, student portfolios and groups based on student performance.
  • New digital Spanish-language supports (available as purchased add-on licenses) that enable educators to toggle between English versions online. Educators can also select which resources students can see. 
  • New accessibility supports, including screen-readable content, keyboard navigation improvements and read-aloud support for assessments.
  • Hands-on Flextensions, new additional investigations that give teachers the flexibility to incorporate more hands-on focused activities into select units, if time permits.

The company also debuted Amplify Science Transitional Kindergarten, a new program from UC Berkeley’s Lawrence Hall of Science that is developmentally and pedagogically appropriate and designed to foster a lifelong love of science in young students.

Looking ahead to Back to School 2020, Amplify is already hard at work on Classroom Slides for grades 6–8 and more enhancements to the digital platform that make planning and delivering instruction even easier.

“One of the best parts about working with K–8 educators is listening to how they actually use our program, taking their feedback seriously, and doing something with it,” said Steven Zavari, senior vice president and general manager of science curriculum at Amplify. “We are already hearing great things about the Classroom Slides and other new features available this school year, and we can’t wait to share more details with educators soon about what’s coming next year.”

Amplify Science is a breakthrough K–8 curriculum designed from the ground up for the Next Generation Science Standards by the curriculum experts at UC Berkeley’s Lawrence Hall of Science. In each Amplify Science unit, students inhabit the role of a scientist or engineer to investigate a real-world problem, using relevant, 21st-century contexts to investigate scientific phenomena. Educators who adopt Amplify Science receive a comprehensive curriculum that includes literacy-rich activities, hands-on investigations, digital simulations, embedded assessments and robust teacher supports. Amplify Science for grades 6–8 was the only program to receive all-green ratings on EdReports.org in 2019. The K-5 program is currently in review by EdReports.

Currently in use by more than two million students, Amplify Science has been adopted by the New York City Department of Education, Chicago Public Schools, Denver Public Schools, San Francisco Unified School District, Seattle Public Schools, the KIPP charter network, and hundreds of other districts across the country.

About Amplify

A pioneer in K–12 education since 2000, Amplify is leading the way in next-generation curriculum and assessment. Our captivating core and supplemental programs in ELA, math, and science engage all students in rigorous learning and inspire them to think deeply, creatively, and for themselves. Our formative assessment products turn data into practical instructional support to help students at every skill level build a strong foundation in early reading and math. Our programs provide teachers with powerful tools that help them understand and respond to the needs of all their students. Today, Amplify serves five million students in all 50 states. 

For more information, visit Amplify.com.

Contact: media@amplify.com

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TEA announces additional innovative learning solutions for K-12 English and Spanish and K-5 science to support schools across Texas

AUSTIN, Texas—October 5, 2020—The Texas Education Agency today announced the next set of instructional materials—covering K-12 English Language Arts and Reading (ELAR), K-5 Spanish Language Arts and Reading (SLAR), and K-5 Science—that will be made available to school systems through the Texas Home Learning 3.0 (THL 3.0) initiative. Like other THL 3.0 offerings, these instructional materials are optional, digitized, customized for Texas, and aligned to Texas Essential Knowledge and Skills (TEKS)—the state standards for what students should know and be able to do.

TEA has partnered with Amplify for K-8 ELAR and K-5 SLAR, Odell Education for 9-12 ELAR, and Great Minds for K-5 Science to develop and deliver this next set of high-quality resources including TEKS-aligned unit and lesson plans. Additional materials will be released on a continuous basis. Before release, all THL 3.0 instructional materials undergo a rigorous review that includes Texas teacher feedback to confirm alignment with TEKS and quality standards. Additional THL 3.0 instructional materials for other subjects and grade levels will be announced over the coming weeks.

“As the pandemic continues to disrupt public education across our state, TEA is committed to supporting schools with effective distance learning resources,” said Texas Education Commissioner Mike Morath.

Amplify’s K-5 Texas Elementary Literacy Program for ELAR and SLAR and 6-8 Amplify ELAR Texas are TEKS-aligned language arts curriculum designed to support Texas learners in the classroom, at home, or wherever learning takes place. Built on the science of teaching reading, the K-5 Amplify Texas Elementary Literacy Program combines foundational skills with content knowledge—so that learning to read and reading to learn develop together. The 6-8 Amplify ELAR Texas program is a TEKS-aligned, blended language arts curriculum that places text at the center of every lesson. Designed specifically for Texas middle schools, this flexible program supports digital, print, and hybrid classrooms.

“We are thrilled to partner with TEA to provide Texas teachers and students with the highest quality reading and language arts programs that align to TEKS standards,” said Larry Berger, chief executive officer of Amplify. “Amplify’s flexible core and supplemental materials will support Texas educators and students whether learning is happening at home, in school, or some of each.”

Odell Education’s Texas High School Literacy Program, which covers 9-12 ELAR, is an innovative program created specifically for Texas high school students and educators. It is designed to support seamless learning in a variety of contexts. The program empowers teachers and students through dynamic activities centered on rich texts and topics as they develop TEKS-aligned literacy skills, habits, and knowledge.

“We are thrilled to partner with Texas educators to develop an exciting new literacy program for the high school students in Texas,” says Odell Education CEO Judson Odell. “Thanks to the tremendous commitment of the Texas Education Agency, Texas high schoolers will have a flexible program for this year and beyond that fosters the literacy they need to thrive wherever their path may lead them.”

Great Minds’ K-5 PhD Science TEKS Edition is a phenomenon-based program in which teachers facilitate the learning, but students own it. In every module, students explore authentic phenomena to build an enduring understanding of core science concepts through hands-on investigations and evidence-based learning. And now it is being adapted to align with the TEKS and, in partnership with TEA through its Texas Home Learning initiative, will be available as an open education resource for all schools and districts in the state.

“Science education should start early, and it should be comprehensive,” says Pam Goodner, Great Minds Chief Academic Officer for Science. “Texas recognizes that students need coherent instruction that builds knowledge from lesson to lesson to develop deep scientific understanding. PhD Science TEKS Edition will deliver what the state is seeking to help students act as scientists to observe, model, investigate, and understand the world around them.”

THL 3.0 is a comprehensive initiative to support school systems, teachers, parents, and students during the public health crisis and beyond with high-quality instructional materials, technology solutions, and professional development resources. TEA previously announced that it will offer all Texas school systems a world-class Learning Management System (LMS) from PowerSchool’s Schoology for two years at no cost. Nearly 400 Texas school systems have already signed up, with another 200 currently engaging with the Schoology team.

For more information on Texas Home Learning 3.0, please click here.

The Texas Education Agency news release is available here.

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Amplify partners with Core Knowledge; acquires rights to new language arts program

Known for its scientifically based content and approach, Core Knowledge’s influential work anticipated the Common Core State Standards, so its practices and philosophy are true to the rigorous spirit of the standards and exemplify the manner in which they ought to be implemented.

Through this partnership with Core Knowledge, Amplify Learning will develop and market to schools nationwide a unique, effective reading and language arts program for grades K–3 that will expand to include grades 4 and 5. Amplify Learning is one of three divisions within Amplify, a company committed to re-imagining the way teachers teach and students learn.

The Core Knowledge approach teaches students about the world with engaging fiction and nonfiction content from the sciences, history, and the arts. As students acquire skills in reading and writing, they also develop the broad vocabulary and background knowledge that will allow them to read with comprehension and think critically. From Aztecs to fables to the solar system, from basic sound and spelling patterns to essays based on close reading, Core Knowledge Language Arts® has everything students need to get on the path to college and career readiness—and everything teachers need to meet the Common Core standards.

The rigorous and engaging Core Knowledge Language Arts® program will initially be offered as a print product, to be supplemented with digital enhancements as early as by the next school year. Through its ongoing digital strategy to build dynamic, interactive and academically rigorous curriculum, Amplify Learning will evolve the Core Knowledge Language Arts® program to a full digital format over time.

Amplify Learning is building a fully integrated, adaptive, digital curriculum that will enable educators to meet the rigorous goals set by the Common Core standards and strive to narrow the achievement gap. Its products are designed for tomorrow’s promise and today’s realities. The company is creating exciting new approaches to teaching and learning that are: as immersive as the best films; as compelling as the best video games; as social as the best networking applications; as personal as the best tutors; and as analytically sophisticated as the best search engines.

Together, Amplify and the Core Knowledge Foundation are looking forward to ensuring that students across the country meet the Common Core standards and graduate from high school college and career ready.

Using its long-term rights to the Core Knowledge Language Arts® program, Amplify will continue its work as a leading education innovator and bring additional fresh, technologically advanced products to the marketplace that are founded upon this highly regarded and academically robust material.

Said Josh Reibel, Chief Executive of Amplify Learning and Amplify Insight, “With its deep academic experience, Core Knowledge has spent years addressing the same set of educational issues that today drive the Common Core. We’re excited to now have the exclusive opportunity to market these resources more widely and to use them over time to offer even more transformative educational products that are all Common Core aligned.”

Added Reibel, “What’s more, the Core Knowledge Sequence, and its esteemed, knowledge-building language arts program, are an especially good fit with our groundbreaking development of an all new digital curriculum that is academically rigorous and engaging for kids.”

The path to college, or a rewarding career, begins in early childhood. Core Knowledge puts all students on that path. Combining well-established findings from cognitive science with classroom-based feedback from hundreds of teachers, Core Knowledge has created a successful academic model for preschool through eighth grade. Researchers established decades ago that reading comprehension and critical thinking are only possible with relevant prior knowledge. Over the past 25 years, the organization has identified the essential, foundational knowledge, vocabulary and skills children need to learn and organized them for efficient and effective teaching in a grade-by-grade, age-appropriate sequence.

Said Linda Bevilacqua, president of the Core Knowledge Foundation. “As we surveyed the landscape of education innovators to work with us on expanding Core Knowledge and incorporating our philosophy into new digital tools, we determined that Amplify had extraordinary capacity to enhance and deepen the Core Knowledge learning experience. Unlike its competitors, Amplify understands that in order to improve teaching and learning, technology must be a means to an end, not an end in itself—a means to enhancing effective educational practice, as they have demonstrated with their successful assessment and intervention tools for teachers, such as mClass.” Bevilacqua said, “Amplify’s approach will give teachers and students an even more efficient and effective platform for building essential knowledge. Their digital expertise with the Foundation’s expertise in curriculum development will provide the basis for extraordinary collaboration.”

About Amplify
Amplify is working to transform the way teachers teach and students learn. We are changing the realities of today’s classroom experience by leading the way in data-driven instruction, breaking new ground in mobile learning and paving the way for the next generation of digital curriculum and assessment. We’ve helped over 200,000 educators and three million students in all 50 states begin their digital transition through mobile assessment solutions, adaptive curricula, and tools that harness the power of data for classroom teachers. Headquartered in New York City with more than 1,000 employees across the country, Amplify is led by a team of digital education experts and has provided industry-leading instructional tools, data analytics and assessment solutions to the K–12 market for more than a decade as Wireless Generation, now a part of Amplify. Learn more at www.Amplify.com.

About Core Knowledge

Educational excellence and equity demand a strong foundation of knowledge for all children—and a coherent plan for teaching what every child needs to know. The Core Knowledge Foundation publishes and distributes a wide variety of education books and materials for educators and parents. At the heart of all of our products is the Core Knowledge Sequence, a detailed outline of recommended curricular content to be taught in language arts, history and geography, mathematics, science, music, and the visual arts from preschool through grade eight. We also support a nationwide network of Core Knowledge schools with instructional materials and professional development workshops. Learn more at www.coreknowledge.org.

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