More Like this

1. An Emerging Theory of School-Based Participatory Science

   https://doi.org/10.5334/cstp.755  

   Smith, P Sean; Goforth, Christine L; Carrier, Sarah J; Hayes, Meredith L; Safley, Sarah E (January 2025, Citizen Science: Theory and Practice)

   Participatory science conducted in formal K–12 settings has many benefits, including the potential to engage teachers and students authentically in the scientific enterprise and to make learning more meaningful. Despite these benefits and others, school-based participatory science (SBPS) is not widespread. In this essay, we put forth a theory of SBPS that is emerging from a four-year study of efforts to integrate participatory science in elementary classrooms. The theory captures the complexity of SBPS and describes factors that shape the experience teachers and students have with participatory science. First, we describe the landscape of SBPS. Second, we describe our study and the data we have collected on teachers’ efforts to implement SBPS. Next, we describe the emerging theory and illustrate it with vignettes constructed from our data. Finally, we discuss recommendations for participatory science projects that wish to gain a foothold in K–12 classrooms and for research that can further test the theory of SBPS. 

   more » « less
2. Examining the Design and Outcomes of an After-School Physical Computing Program in Middle-School

   Veng, S.; Mouza, C.; Pollock, L. (January 2023, Proceedings of Society for Information Technology & Teacher Education International Conference)

   This work examines the application of high-quality pedagogical practices in the design and implementation of an after-school physical computing program aimed at providing middle school students with access to computer science (CS) education. It subsequently examines how the program influenced students’ learning of CS concepts and attitudes towards computing. The program was designed and implemented through a school-university partnership, and 66 middle school students voluntarily participated. There were two cohorts of students in the study. Results indicate that the program had a positive impact on students’ understanding of CS concepts, and a significant impact on attitudes towards computing was seen among those in the second cohort. Implications are drawn for the design of informal after-school programs aimed at broadening participation in computing. 

   more » « less
3. Computing for communities: An Ethnographic examination of an after-school computing program

   Codding, D.; Rolón-Dow, R. (January 2019, 40th Ethnography in Education Research Forum)

   Despite recent efforts to increase diversity, female and racially minoritized youth 1 continue to be underrepresented in science, technology, engineering, and math (STEM). Our pilot study utilizes culturally responsive frameworks to address the underrepresentation of minoritized youth in computer science (CS) by supporting youth at a local Boys & Girls Club as they develop a sense of competence and belonging in the CS field. Culturally responsive frameworks shape our work with students and inform our research process. This paper examines the context of our pilot study and the positionality of our research team, which includes university researchers and community partners. It also provides a reflexive analysis of our community inquiry process and how it has influenced the development and adaptation of our CS programming. 

   more » « less
4. Implementation of an Equitable and Inclusive After-school STEM Program

   Aldeman, Matthew R; Williams, Jeritt; Jo, Jin Ho; Antink-Meyer, Allison (June 2024, Proceedings of the American Society for Engineering Education (ASEE) 2024 Annual Conference)

   The SUPERCHARGE project (STEM-based University Pathway Encouraging Relationships with Chicago-area High schools in Automation, Robotics, and Green Energy) is an after-school STEM program at four high schools in the Chicago Public Schools (CPS) district. The project is aimed at addressing the underrepresentation of Black, Latinx, and low-income students in STEM fields. Through hands-on activities, workshops, teacher professional development, and campus visits, the program aims to foster students' STEM identities and awareness of postsecondary pathways, particularly in the areas of renewable energy, robotics, and technology. The program has recently completed its first year of implementation in the high schools. The purpose of this article is to report on the first year of implementation, including challenges and lessons learned. Initial assessments indicate positive student engagement and satisfaction. Lessons learned from the first year include the importance of early program initiation, community relevance, and immersive hands-on activities. Future iterations will aim to further enhance student engagement and broaden participation in STEM fields, contributing to greater diversity and inclusion in the STEM workforce. 

   more » « less
5. Implementation of an Equitable and Inclusive After-school STEM Program

   Aldeman, Matthew R; Williams, Jeritt; Jo, Jin Ho; Antink-Meyer, Allison (June 2024, Proceedings of the American Society for Engineering Education (ASEE) 2024 Annual Conference)

   The SUPERCHARGE project (STEM-based University Pathway Encouraging Relationships with Chicago-area High schools in Automation, Robotics, and Green Energy) is an after-school STEM program at four high schools in the Chicago Public Schools (CPS) district. The project is aimed at addressing the underrepresentation of Black, Latinx, and low-income students in STEM fields. Through hands-on activities, workshops, teacher professional development, and campus visits, the program aims to foster students' STEM identities and awareness of postsecondary pathways, particularly in the areas of renewable energy, robotics, and technology. The program has recently completed its first year of implementation in the high schools. The purpose of this article is to report on the first year of implementation, including challenges and lessons learned. Initial assessments indicate positive student engagement and satisfaction. Lessons learned from the first year include the importance of early program initiation, community relevance, and immersive hands-on activities. Future iterations will aim to further enhance student engagement and broaden participation in STEM fields, contributing to greater diversity and inclusion in the STEM workforce. 

   more » « less