Middle

Creating Inclusive PreK–12 STEM Learning Environments

Brief CoverBroadening participation in PreK–12 STEM provides ALL students with STEM learning experiences that can prepare them for civic life and the workforce.

Author/Presenter

Malcom Butler

Cory Buxton

Odis Johnson Jr.

Leanne Ketterlin-Geller

Catherine McCulloch

Natalie Nielsen

Arthur Powell

Year
2018
Short Description

This brief offers insights from National Science Foundation-supported research for education leaders and policymakers who are broadening participation in science, technology, engineering, and/or mathematics (STEM). Many of these insights confirm knowledge that has been reported in research literature; however, some offer a different perspective on familiar challenges.

A Usability Analysis and Consequences of Testing Exploration of the Problem-Solving Measures–Computer-Adaptive Test

Testing is a part of education around the world; however, there are concerns that consequences of testing is underexplored within current educational scholarship. Moreover, usability studies are rare within education. One aim of the present study was to explore the usability of a mathematics problem-solving test called the Problem Solving Measures–Computer-Adaptive Test (PSM-CAT) designed for grades six to eight students (ages 11–14).

Author/Presenter

Sophie Grace King

Jonathan David Bostic

Toni A. May

Gregory E. Stone

Year
2025
Short Description

Testing is a part of education around the world; however, there are concerns that consequences of testing is underexplored within current educational scholarship. Moreover, usability studies are rare within education. One aim of the present study was to explore the usability of a mathematics problem-solving test called the Problem Solving Measures–Computer-Adaptive Test (PSM-CAT) designed for grades six to eight students (ages 11–14). The second aim of this mixed-methods research was to unpack consequences of testing validity evidence related to the results and test interpretations, leveraging the voices of participants.

A Usability Analysis and Consequences of Testing Exploration of the Problem-Solving Measures–Computer-Adaptive Test

Testing is a part of education around the world; however, there are concerns that consequences of testing is underexplored within current educational scholarship. Moreover, usability studies are rare within education. One aim of the present study was to explore the usability of a mathematics problem-solving test called the Problem Solving Measures–Computer-Adaptive Test (PSM-CAT) designed for grades six to eight students (ages 11–14).

Author/Presenter

Sophie Grace King

Jonathan David Bostic

Toni A. May

Gregory E. Stone

Year
2025
Short Description

Testing is a part of education around the world; however, there are concerns that consequences of testing is underexplored within current educational scholarship. Moreover, usability studies are rare within education. One aim of the present study was to explore the usability of a mathematics problem-solving test called the Problem Solving Measures–Computer-Adaptive Test (PSM-CAT) designed for grades six to eight students (ages 11–14). The second aim of this mixed-methods research was to unpack consequences of testing validity evidence related to the results and test interpretations, leveraging the voices of participants.

A Usability Analysis and Consequences of Testing Exploration of the Problem-Solving Measures–Computer-Adaptive Test

Testing is a part of education around the world; however, there are concerns that consequences of testing is underexplored within current educational scholarship. Moreover, usability studies are rare within education. One aim of the present study was to explore the usability of a mathematics problem-solving test called the Problem Solving Measures–Computer-Adaptive Test (PSM-CAT) designed for grades six to eight students (ages 11–14).

Author/Presenter

Sophie Grace King

Jonathan David Bostic

Toni A. May

Gregory E. Stone

Year
2025
Short Description

Testing is a part of education around the world; however, there are concerns that consequences of testing is underexplored within current educational scholarship. Moreover, usability studies are rare within education. One aim of the present study was to explore the usability of a mathematics problem-solving test called the Problem Solving Measures–Computer-Adaptive Test (PSM-CAT) designed for grades six to eight students (ages 11–14). The second aim of this mixed-methods research was to unpack consequences of testing validity evidence related to the results and test interpretations, leveraging the voices of participants.

A Usability Analysis and Consequences of Testing Exploration of the Problem-Solving Measures–Computer-Adaptive Test

Testing is a part of education around the world; however, there are concerns that consequences of testing is underexplored within current educational scholarship. Moreover, usability studies are rare within education. One aim of the present study was to explore the usability of a mathematics problem-solving test called the Problem Solving Measures–Computer-Adaptive Test (PSM-CAT) designed for grades six to eight students (ages 11–14).

Author/Presenter

Sophie Grace King

Jonathan David Bostic

Toni A. May

Gregory E. Stone

Year
2025
Short Description

Testing is a part of education around the world; however, there are concerns that consequences of testing is underexplored within current educational scholarship. Moreover, usability studies are rare within education. One aim of the present study was to explore the usability of a mathematics problem-solving test called the Problem Solving Measures–Computer-Adaptive Test (PSM-CAT) designed for grades six to eight students (ages 11–14). The second aim of this mixed-methods research was to unpack consequences of testing validity evidence related to the results and test interpretations, leveraging the voices of participants.

Textbooks as a Resource for Teaching Mathematics Through Problem Posing: Catalyzing Instructional Change

Research has shown that teaching mathematics through problem posing, or problem-posing based learning (P-PBL), is a student-centered instructional approach that can improve students’ cognitive and affective aspects of learning. However, since textbooks continue to include very few opportunities for problem posing, researchers have been working to support teachers to integrate problem posing into classroom instruction, drawing on textbooks as a resource.

Author/Presenter

Stephen Hwang

Jaepil Han

Faith Muirhead

Amy Brown

Matthew Melville

Jinfa Cai

Lead Organization(s)
Year
2025
Short Description

Research has shown that teaching mathematics through problem posing, or problem-posing based learning (P-PBL), is a student-centered instructional approach that can improve students’ cognitive and affective aspects of learning. However, since textbooks continue to include very few opportunities for problem posing, researchers have been working to support teachers to integrate problem posing into classroom instruction, drawing on textbooks as a resource. In this paper, we describe how teachers in the P-PBL Project have engaged in instructional change with support from researchers around a high-quality middle school mathematics textbook series.

Restructuring the Science Curriculum Around Grand Challenges

Grand Challenges (GCs) are complex, global, and multifaceted science and societal problems such as climate change, viral pandemics, loss of biodiversity, and quests for new energy sources. In this article, we advance a position, based on current research and theory, that GCs should be a prominent feature of the science curriculum. This move towards a GC-based curriculum challenges the positioning of canonical scientific concepts as the central organising feature of the curriculum, which is typically the default position of most science education programmes.

Author/Presenter

Troy D. Sadler

Zhen Xu

David Fortus

Year
2025
Short Description

Grand Challenges (GCs) are complex, global, and multifaceted science and societal problems such as climate change, viral pandemics, loss of biodiversity, and quests for new energy sources. In this article, we advance a position, based on current research and theory, that GCs should be a prominent feature of the science curriculum. This move towards a GC-based curriculum challenges the positioning of canonical scientific concepts as the central organising feature of the curriculum, which is typically the default position of most science education programmes.

Learning Science and Engineering by Designing Sustainable Houses

Science and engineering offer ways to maintain the thermal comfort of our homes while minimizing impacts on the environment. This article introduces the Energy-Plus House Design Project, an NGSS-aligned curriculum unit developed to inspire and prepare high school students for tackling this challenge. In this project, students learn and practice science and engineering by designing a house that generates more renewable energy than it consumes over the course of a year (hence known as an energy-plus house).

Author/Presenter

Elena Sereiviene

Xiaotong Ding

Rundong Jiang

Dylan Bulseco

Charles Xie

Year
2025
Short Description

Science and engineering offer ways to maintain the thermal comfort of our homes while minimizing impacts on the environment. This article introduces the Energy-Plus House Design Project, an NGSS-aligned curriculum unit developed to inspire and prepare high school students for tackling this challenge. In this project, students learn and practice science and engineering by designing a house that generates more renewable energy than it consumes over the course of a year (hence known as an energy-plus house).

Learning Science and Engineering by Designing Sustainable Houses

Science and engineering offer ways to maintain the thermal comfort of our homes while minimizing impacts on the environment. This article introduces the Energy-Plus House Design Project, an NGSS-aligned curriculum unit developed to inspire and prepare high school students for tackling this challenge. In this project, students learn and practice science and engineering by designing a house that generates more renewable energy than it consumes over the course of a year (hence known as an energy-plus house).

Author/Presenter

Elena Sereiviene

Xiaotong Ding

Rundong Jiang

Dylan Bulseco

Charles Xie

Year
2025
Short Description

Science and engineering offer ways to maintain the thermal comfort of our homes while minimizing impacts on the environment. This article introduces the Energy-Plus House Design Project, an NGSS-aligned curriculum unit developed to inspire and prepare high school students for tackling this challenge. In this project, students learn and practice science and engineering by designing a house that generates more renewable energy than it consumes over the course of a year (hence known as an energy-plus house).

Fostering Critical Consciousness: A Systematic Review of K-12 Teachers’ Integrations of Sociopolitical Issues in Science and Mathematics Classrooms

Efforts towards providing inclusive science and mathematics education for marginalized students are increasingly found in literature advocating for equity-oriented instruction through supporting students’ critical consciousness. Despite a growing body of research centering on teachers’ development of culturally relevant pedagogies, studies examining how teachers support students’ critical consciousness development are scarce in the context of science and mathematics education.

Author/Presenter

Sheila K. Castro

Julie C. Brown

Kent J. Crippen

Lead Organization(s)
Year
2025
Short Description

Efforts towards providing inclusive science and mathematics education for marginalized students are increasingly found in literature advocating for equity-oriented instruction through supporting students’ critical consciousness. Despite a growing body of research centering on teachers’ development of culturally relevant pedagogies, studies examining how teachers support students’ critical consciousness development are scarce in the context of science and mathematics education. Thus, this systematic review uses empirical literature on critical consciousness to explore teachers’ experiences integrating sociopolitical issues into their science and mathematics classrooms.