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1. Transforming Science Teaching for Equity and Justice by Teachers and Researchers Working Together

   Kang, H.; Orduna Picón, R. (April 2021, 2021 AERA conference)

   With the urgent call for supporting science teachers to promote equity and justice through their daily work of teaching, there is a growing need for better understanding how science teachers come to engage in transformative teaching and learning that is equitably consequential. In this participatory design research project (Bang & Vossoughi, 2016), we created a professional learning context in which high school chemistry teachers engaged in a pedagogical imagining (Gutiérrez & Calabese Barton, 2015) by leveraging their teaching experiences, knowledge about students and communities, values, and concerns to create powerful learning contexts for Latinx and multilingual students from immigrant, low-income families. Drawing upon the perspective of learning as making and sharing of the world interwoven with making and sharing of selves (Warren et al, 2020), we analyzed teachers’ participations and discourses to examine teachers’ making and sharing that were equitably consequential. The findings illustrated three critical moments of teachers’ making and sharing where: (a) the teachers collectively developed shared pedagogical goals toward transformative learning while formulating agency, (b) the teachers and the researchers came to design a creative stoichiometry unit where students use chemistry to make their community better, and (c) the teachers came to be committed to being ‘intentional’ in their relational work to create a welcoming and safe learning environment using concrete pedagogical strategies. The analyses point out three design features of the professional learning context that were associated with the teachers’ consequential makings: (a) the use of a conceptual tool (i.e., ‘design principles’), (b) the power of “what if” discourses, and (c) creating a space for collective learning. Recommendations for designing professional learning context toward transformative teaching and learning are discussed. 

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2. Incorporating investigations of environmental racism into middle school science

   https://doi.org/10.1002/sce.21824  

   Bradford, Allison; Gerard, Libby; Tate, Erika; Li, Rui; Linn, Marcia C. (November 2023, Science Education)

   Abstract To promote a justice‐oriented approach to science education, we formed a research‐practice partnership between middle school science teachers, their students, curriculum designers, learning scientists, and experts in social justice to co‐design and test an environmental justice unit for middle school instruction. We examine teacher perspectives on the challenges and possibilities of integrating social justice into their standards‐aligned science teaching as they participate in co‐design and teach the unit. The unit supports students to investigate racially disparate rates of asthma in their community by examining pollution maps and historical redlining maps. We analyze interviews and co‐design artifacts from two teachers who participated in the co‐design and taught the unit in their classrooms. Our findings point to the benefits of a shared pedagogical framework and an initial unit featuring local historical content to structure co‐design. Findings also reveal that teachers can share similar goals for empowering students to use science knowledge for civic action while framing the local socio‐political factors contributing to the injustice differently, due in part to different institutional supports and constraints. Student interviews and a pre/postassessment illustrate how the unit facilitated students' progress in connecting socio‐political and science ideas to explain the impacts of particulate matter pollution and who is impacted most. Analyses illuminate how teachers' pedagogical choices may influence whether and how students discuss the impact of systemic racism in their explanations. The findings inform refinement of the unit and suggest supports needed for co‐design partnerships focused on integrating social justice and science. 

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3. Secondary science teachers' conceptualizations and modifications to support equitable participation in a co‐designed computational thinking lesson

   https://doi.org/10.1002/tea.21998  

   Levy, Marissa; Peel, Amanda; Zhao, Lexie; LaGrassa, Nicholas; Horn, Michael_S; Wilensky, Uri (November 2024, Journal of Research in Science Teaching)

   Abstract Increasing access to computational ideas and practices is one important reason to integrate computational thinking (CT) in science classrooms. While integrating CT into science classrooms broadens exposure to computing, it may not be enough to ensure equitable participation in the science classroom. Equitable participation is crucial because providing students with an environment in which they are able to fully engage and participate in science and computing practices empowers students to learn and continue pursuing CT and science. To foreground equitable participation in CT‐integrated curricula, we undertook a research project in which researchers and teachers examined teacher conceptualizations of equitable participation and how teachers design for equitable participation by modifying a lesson that introduces computational modeling in science. The following research questions guided the study: (1) What are teachers' conceptualizations of equitable participation? (2) How do teachers design for equitable participation through co‐design of a CT‐integrated unit? Our findings suggest that teachers conceptualized and designed for equitable participation in the context of a CT‐integrated curriculum across three primary dimensions: accessibility, inclusion, and relevancy. Our contributions to the field of science teaching and learning are twofold: (1) obtaining an initial understanding of how teachers think about and design for equitable participation is crucial in order to support teachers in their pursuit of creating equitable learning experiences for CT and science learners, and (2) our findings show that we can study teacher conceptualizations and their design choices by examining specific modifications to a CT‐integrated science curriculum. Implications are discussed. 

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4. Designing for future action: How STEAM programming can support youth engagement in community changemaking projects

   Hurley, M.; Rhinehart, A.; Bell, P.; Brown, A.; Price, N.; Roche, J. (January 2022, Connected science learning)

   Murphy, B. (Ed.)

   A key form of scientific literacy is being able to leverage the knowledge, practices, and commitments of ethical science to everyday civic matters of social consequence. Learning how to engage in civic life in equity-focused ways needs to be intertwined with learning disciplinary—or transdisciplinary—knowledge and practices. In this article we discuss how an art-science learning program at Science Gallery Dublin in Ireland supported subsequent civic participation by adolescent youth. Using longitudinal case studies of young people, we document how they became agents of change in their homes, schools, and wider communities over several years after participating in the program. This work provides insight into how specific design features of informal learning environments help launch or expand the science-linked identities of youth interested in participation in civic life and social action. These cases also illustrate how to develop educational models that support young people to take informed action toward matters of community and environmental consequence, a key aspect of building a more sustainable and thriving future. 

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5. Teachers’ Fostering of Real Work with Real Consequences through School-based Citizen Science

   Jongewaard, Rebecca; Jordan, Michelle; Zuiker, Steve; Meza-Torres, Carlos (June 2024, Proceedings of the 18th International Conference of the Learning Sciences - ICLS 2024)

   Lindgren, Robb; Asino, Tutaleni; Kyza, Eleni; Looi, CheeKit; Keifert, Teo; Suárez, Enrique (Ed.)

   Students need learning experiences that build capacities to agentively engage with issues challenging our world today. Teachers are often under-supported in endeavors to facilitate such learning experiences. Grounded in principles of consequential learning and expansive framing, this design-based research study sought to better understand the ways in which STEM teachers support students’ real work in the world as members of a school-based citizen science lab. Qualitative analysis of transcripts from teachers’ post-professional development and post-enactment interviews was used to characterize the ways teachers frame roles, goals, and community relationships intended to support students’ real work with real consequences. Findings illuminate ways teachers foster consequential STEM learning and suggest design principles for supporting teachers’ ongoing learning for and facilitation of real work with real consequences. 

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