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.

Validation of the Equity and Access Rubrics for Mathematics Instruction (VEAR-MI)

Principal Investigator: 

This poster describes the work of the Validation of the Equity and Access Rubrics for Mathematics Instruction (VEAR-MI) project, which aims to address the growing need to develop empirically grounded ways of assessing the extent to which the practices that are being outlined in research literature actually serve to support students who are currently underserved and underrepresented in mathematics.

Co-PI(s): Annie Garrison Wilhelm, Southern Methodist University; Temple Walkowiak, North Carolina State University

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The Developmental Emergence and Consequences of Spatial and Math Gender Stereotypes

Principal Investigator: 

Attitudes and beliefs about math and space have been found to be predictive of STEM participation and achievement, with females generally reporting lower math and spatial self-concept and higher anxieties related to these domains (e.g., Sokolowski et al., 2019). However, little work to date has explored the acquisition of these attitudes and beliefs, particularly related to the domain of space. This is important, because comparing the acquisition of math and spatial attitudes and beliefs may shed light on potential interventions for improving STEM outcomes.

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Target Audience: 

Teacher Professional Learning to Support Student Motivational Competencies During Science Instruction (Collaborative Research: Harris, Linnenbrink-Garcia, and Marchand)

Principal Investigator: 

This collaborative project uses co-design as a strategy to develop a professional learning approach to help middle school teachers support students' motivation and engagement in the context of NGSS instruction. The project brings together motivation experts, science education researchers, and middle school science teachers. The poster outlines the project goals, introduces five motivation design principles, and describes four tools that were co-developed to support teachers' professional learning and practice for supporting student motivation.

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Target Audience: 

Strengthening STEM Teaching in Native American Serving Schools through Long-Term, Culturally Responsive Professional Development

Principal Investigator: 

This is a 4-year, level II Exploratory study within the teaching strand of DRK12. The research explores the functioning and impact of a nationally-developed STEM professional development model within the Navajo Nation. Teacher participants represent the entire K-12 grade range and multiple content areas, and they all participate in an innovative STEM-content, culturally responsive, 8-month professional development fellowship. We explore the extent to which culturally responsive principles are evident in their self-authored curriculum units.

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Target Audience: 

Measuring Early Mathematical Reasoning Skills: Developing Tests of Numeric Relational Reasoning and Spatial Reasoning

Principal Investigator: 

The MMaRS project is designing classroom assessment resources of numeric relational reasoning and spatial reasoning for students in grades K-2. During the pandemic, SMU researchers worked virtually with teachers and K-2 students to develop resources that are responsive to their needs and accurately elicit their reasoning. This poster will highlight the virtual data collection methods and techniques, including think aloud video interviews with students and prototype co-design work sessions with teachers.

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Target Audience: 

Exploratory Evidence on the Factors that Relate to Elementary School Science Learning Gains Among English Language Learners

Principal Investigator: 

This study provides evidence on the confluence of school, classroom, teacher, and student inputs that shape elementary school science learning for English learners. The study explores the relationship between (1) science inputs (time on science, content covered, availability of lab resources, teacher training in science instruction, etc.), and (2) EL-specific inputs (classroom language use, EL instructional models, teacher certification/training, availability of EL support staff, etc.) for a nationally representative set of kindergarten through fifth graders.

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CAREER: Promoting Equitable and Inclusive STEM Contexts in High School

Principal Investigator: 
In this study, high school students (N = 242) completed measures of classroom inclusivity, perceived teacher discrimination, belonging, STEM classroom engagement and STEM activism orientation. Path analyses revealed direct effects of inclusion and perceived discrimination on STEM activism orientation. Further, findings demonstrated direct effects of inclusion on belonging and on belonging and both STEM classroom engagement and STEM Activism Orientation.
Target Audience: 

Supporting Teachers in Responsive Instruction for Developing Expertise in Science (Collaborative Research: Linn)

Principal Investigator: 

STRIDES supports teachers to customize the curriculum to address diverse students' evolving ideas and achieve the multi-dimensional proficiency called for by the Next Generation Science Standards (NGSS). STRIDES catalyzes a new approach to teachers' curriculum customization. STRIDES will improve the evidence teachers have to make customization decisions by collaborating with the Educational Testing Service (ETS) to advance natural language processing (NLP) methods.

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Target Audience: 

InquirySpace 2: Broadening Access to Integrated Science Practices

Principal Investigator: 

Every student should have the chance to experience the exciting practice of science. But far too often, students encounter only highly structured “cookbook” labs in their science classrooms. InquirySpace combines a software environment that integrates sensors, simulations, and data exploration capabilities with instructional guidance, and helps students move from fundamental data analysis and scaffolded experiments to open experiments of their own design.

Co-PI(s): Daniel Damelin and Hee-Sun Lee, Concord Consortium; Sam Gweon, Physics Front

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Target Audience: 

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