Teaching for Robust Understanding (TRU)

Part of the Math Assessment Project has involved research into how the materials are used in classrooms, their effect on teaching practices, and how Professional Development can be used to support the goals of the Mathematics Assessment Project materials.


Preparing Responsive Educators using Place-based Authentic Research in Earth Systems (PREPARES)

Preparing Responsive Educators using Place-based Authentic Research in Earth Systems (PREPARES) seeks to expand, implement, and conduct research on a framework for providing indigenous students with the skills and knowledge needed for science, technology, engineering, and math (STEM) careers.


Massachusetts K–12 Computer Science Curriculum Guide

This guide helps school districts choose the computer science (CS) curricula that best suit their communities’ needs. The guide was developed as part of an initiative for school districts to accelerate the creation of classroom opportunities for learning CS that are standards based, high quality, career relevant, and accessible to all students at all grade levels.


Gender Equitable Teaching Strategies

National Science Foundation - Instructional Materials Development Program

This document presents the final report on the evaluation of the Instructional Materials Development (IMD) program of the National Science Foundation (NSF) and focuses on issues related to the development, dissemination, adoption, implementation, and impact of new instructional materials. The IMD program evaluates products at each step, from product development to classroom use. Instruments are included for evaluating elementary and secondary school science and mathematics materials for classroom use.


Preservice Teachers’ Culturally Responsive Teaching Self-efficacy and Outcome Expectancy Beliefs

Guided by the theoretical and empirical research on self-efficacy and outcome expectancy beliefs, and the Culturally Responsive Teaching Competencies [Siwatu, K.O.


Teaching Confidence Scale

This paper reports the results of an ongoing study of changes in teacher efficacy from entry into a preparation program through the first year of actual teaching. Multiple quantitative assessments of efficacy were used including items developed for the RAND studies, Gibson and Dembo’s Teacher Efficacy Scale, Bandura’s Teacher Self-Efficacy Scale, and an instrument designed to reflect the specific context and goals of the preparation program studied.



Validation of the Teaching Engineering Self-Efficacy Scale for K-12 Teachers: A Structural Equation Modeling Approach

Background: Teacher self-efficacy has received attention because of its direct relationship with teachers’ classroom behaviors. Since engineering has been increasingly introduced in K-12 (precollege) education, development of an instrument to measure teachers’ self-efficacy in the context of teaching engineering has been needed.

Purpose (Hypothesis): This study reports the development and validation of the Teaching Engineering Self-Efficacy Scale (TESS) for K-12 teachers.


Teacher Efficacy and Attitudes toward STEM (T-STEM) Survey

Each of the five Science, Technology, Engineering, Mathematics, and Elementary Teacher Efficacy and Attitudes toward STEM Surveys (T-STEM) contains six scales (sets of surveys items that most confidently describe a single characteristic of the survey-taker when the responses to these items are calculated as a single result). The first scale is called the Personal STEM Teaching Efficacy Belief Scale (PSTEBS) and consists of Likert-scale questions which ask the respondent about their confidence in their teaching skills.


The Wilder Collaboration Factors Inventory

The inventory is a free tool to assess how your collaboration is doing on 20 research-tested success factors. It takes about fifteen minutes to complete. It can be distributed to a small group of leaders in the collaborative, during a general meeting, or via mail to all members for the most complete picture. You can tally your score manually or online.