Broadening Participation

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.

An Instructional Framework for Teaching STEM to Students with Moderate to Severe Disabilities

Answering questions and solving problems are critical skills that affect the quality of life for all people. The content areas of science and engineering traditionally and most directly address the processes of inquiry and problem-solving. While there is an increasing body of research surrounding teaching academic content (i.e., mathematics and science) as well as skills that are critical to support student success in these areas (i.e., communication and self-determination), the research supporting instruction of math, science, and engineering practices and processes are only emerging.

Author/Presenter

Leah Wood

Bree Jimenez

Ginevra Courtade

Lead Organization(s)
Year
2025
Short Description

Answering questions and solving problems are critical skills that affect the quality of life for all people. The content areas of science and engineering traditionally and most directly address the processes of inquiry and problem-solving. While there is an increasing body of research surrounding teaching academic content (i.e., mathematics and science) as well as skills that are critical to support student success in these areas (i.e., communication and self-determination), the research supporting instruction of math, science, and engineering practices and processes are only emerging. The purpose of this article is to provide a research-based framework for instructional design that provides ideas for cognitive accessibility and supports for students with MSD in STEM.

Project Bees Flyer

Project Bees is a NSF DRK-12 (#2515930) three-year project with the goal of focusing on teachers' development of engineering practices, including how teachers support their students' development of engineering-focused behaviors and mindsets through instruction. Through the use of research-based engineering curriculum, Youth Engineering Solutions (YES.mos.org) and the use of Universal Design and Research Based Practice for Students with extensive support needs our research team is developing equity driven engineering education.

Author/Presenter

The Project Bees Team

Lead Organization(s)
Year
2025
Short Description

Project Bees is a NSF DRK-12 three-year project with the goal of focusing on teachers' development of engineering practices, including how teachers support their students' development of engineering-focused behaviors and mindsets through instruction.

Teacher Feedback Guiding Professional Development Programs: A 2-Year Field Trial Integrating Science and Language with Multilingual Learners

Since the release of A Framework for K-12 Science Education and the Next Generation Science Standards (NGSS), there has been an urgent need for teacher professional development (PD) programs that support the implementation of NGSS-aligned curriculum materials and address the unique strengths and needs of diverse student groups, including multilingual learners (MLs). The purpose of this study is to describe how teacher feedback guided the design and refinement of our curriculum-based PD program integrating science and language with MLs through a 2-year field trial.

Author/Presenter

Okhee Lee

Alison Haas

Abigail Schwenger

Scott Grapin

Lead Organization(s)
Year
2025
Short Description

Since the release of A Framework for K-12 Science Education and the Next Generation Science Standards (NGSS), there has been an urgent need for teacher professional development (PD) programs that support the implementation of NGSS-aligned curriculum materials and address the unique strengths and needs of diverse student groups, including multilingual learners (MLs). The purpose of this study is to describe how teacher feedback guided the design and refinement of our curriculum-based PD program integrating science and language with MLs through a 2-year field trial.

Leveraging Children’s Multicultural Literature to Support Students’ Math Identity and Problem Solving

This article explores how multicultural children’s literature for elementary classrooms can be leveraged to develop students’ mathematical understanding and foster positive math identities, particularly for multilingual learners. By integrating diverse stories into mathematics instruction, teachers can create culturally relevant contexts that invite meaningful problem-solving in tandem with rich mathematical discourse.

Author/Presenter

Suzanne Abdelrahim

Margarita Jiménez-Silva

Rachel Restani

Robin Martin

Tony Albano

Year
2025
Short Description

This article explores how multicultural children’s literature for elementary classrooms can be leveraged to develop students’ mathematical understanding and foster positive math identities, particularly for multilingual learners. By integrating diverse stories into mathematics instruction, teachers can create culturally relevant contexts that invite meaningful problem-solving in tandem with rich mathematical discourse.

Developing Prospective Teachers’ Language-Expansive Noticing

Enacting reform-oriented, phenomenon-based instruction provides us an opportunity to more equitably teach science. Particularly, our teaching can be stronger when we elicit, notice and then use all students’ ideas and questions to inform how students collaborate to figure out phenomena. However, this is only possible if we learn to expansively notice the many language resources multilingual students have available for sharing their thinking, which requires teachers to see and hear beyond what has been traditionally privileged in school spaces.

Author/Presenter

María González-Howard

Carla Robinson

Sage Andersen

Mariana Vazquez Esparza

Nireyda Rodriguez

Lead Organization(s)
Year
2025
Short Description

Enacting reform-oriented, phenomenon-based instruction provides us an opportunity to more equitably teach science. Particularly, our teaching can be stronger when we elicit, notice and then use all students’ ideas and questions to inform how students collaborate to figure out phenomena. However, this is only possible if we learn to expansively notice the many language resources multilingual students have available for sharing their thinking, which requires teachers to see and hear beyond what has been traditionally privileged in school spaces. In this piece, we describe how we draw upon translanguaging theory and pedagogy to prepare prospective teachers to teach science with multilingual students.

The Role of Discrimination and Barriers in the Perceptions of Adolescents With and Without Disabilities of STEM Classes and Jobs

In STEM (science, technology, engineering, and math) fields, people with disabilities are underrepresented. This study aimed to determine what barriers might prevent students with and without disabilities from pursuing STEM careers. Differences in students’ interest in enrolling in advanced STEM courses and having a STEM career were evaluated in a sample of 438 students with (24.9%) and without disabilities (Mage = 15.09, SD = .82) recruited from public high schools in Southeastern United States.

Author/Presenter

Kelly Lynn Mulvey

Jacqueline Cerda-Smith

Angelina Joy

Martha Batul

Emine Ozturk

Year
2025
Short Description

In STEM (science, technology, engineering, and math) fields, people with disabilities are underrepresented. This study aimed to determine what barriers might prevent students with and without disabilities from pursuing STEM careers.

Culturally and Linguistically Sustaining Formative Assessment in Science and Engineering: Highlighting Multilingual Girls’ Linguistic, Epistemic, and Spatial Brilliances

Background
This study advances understandings of formative assessment by introducing the Culturally and Linguistically Sustaining Formative Assessment (CLSA) framework, grounded in relational and embodied perspectives and culturally sustaining pedagogy. While formative assessment is widely recognized as a process for supporting learning, less is known about how it can be enacted in culturally and linguistically sustaining ways.

Author/Presenter

Shakhnoza Kayumova

Akira Harper

Tia Madkins

Esma Nur Kahveci

Year
2025
Short Description

This study advances understandings of formative assessment by introducing the Culturally and Linguistically Sustaining Formative Assessment (CLSA) framework, grounded in relational and embodied perspectives and culturally sustaining pedagogy. While formative assessment is widely recognized as a process for supporting learning, less is known about how it can be enacted in culturally and linguistically sustaining ways.

Supporting Multilingual Students’ Mathematical Discourse Through Teacher Professional Development Grounded in Design-based Research: A Conceptual Framework

This conceptual paper presents a framework for supporting multilingual students’ mathematical discourse through teacher professional development grounded in design-based research (DBR). Drawing on sociocultural learning theory, the Integrated Language and Mathematics Project (ILMP) was co-developed with elementary educators to promote integrated instruction that simultaneously advances students’ mathematical understanding, language development, and cultural identity.

Author/Presenter

Margarita Jiménez-Silva

Robin Martin

Rachel Restani

Suzanne Abdelrahim

Tony Albano

Year
2025
Short Description

This conceptual paper presents a framework for supporting multilingual students’ mathematical discourse through teacher professional development grounded in design-based research (DBR). Drawing on sociocultural learning theory, the Integrated Language and Mathematics Project (ILMP) was co-developed with elementary educators to promote integrated instruction that simultaneously advances students’ mathematical understanding, language development, and cultural identity. The ILMP framework centers around three instructional pillars: attention to language, attention to mathematical thinking, and cultural responsiveness. Through collaborative inquiry cycles, educators engaged as learners, contributors, and designers of practice, iteratively enacting and reflecting on instructional strategies rooted in students’ linguistic and cultural assets.

STEM Education with a Focus on Equity and Justice: Traditional Approaches, Contemporary Approaches, and Proposed Future Approach

The disproportionate impacts of societal challenges (e.g., climate change, air and water pollution) on minoritized groups expose systemic injustices and compels STEM educators to reframe the role of STEM education in society. In this article, we describe traditional approaches, contemporary approaches, and our proposed future approach in science and STEM education with a focus on equity and justice. First, we begin with conceptual framing for equity and justice.

Author/Presenter

Okhee Lee

Scott E. Grapin

Year
2025
Short Description

The disproportionate impacts of societal challenges (e.g., climate change, air and water pollution) on minoritized groups expose systemic injustices and compels STEM educators to reframe the role of STEM education in society. In this article, we describe traditional approaches, contemporary approaches, and our proposed future approach in science and STEM education with a focus on equity and justice.