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1. Transforming STEM Instruction Through SocioScientific Issues Focused Professional Development

   Johnson, Joseph; Mathers, Becky; Marco-Bujosa, Lisa; Ialacci, Gabrielle (June 2024, International journal on new trends in education and their implications)

   This study reports the findings of a two-year intensive professional development (PD) program situated in the northeastern United States for secondary mathematics and science teachers to support them in transforming their STEM instruction to incorporate SocioScientific Issues (SSI). This PD focused on developing units of study that integrated student-centered, authentic learning experiences grounded in social justice issues. Findings indicate that after participation in the USTRIVE project, teachers displayed growth in their ability to incorporate components of the instructional framework for SSI introduced in the PD into their teaching. This is consistent with previous research that SSI-focused PD can increase teachers’ knowledge of, and teaching practices toward SSI, resulting in more meaningful STEM learning experiences for students. As such, the USTRIVE PD model and framework may provide a useful guide for other SSI and social justice PD programs. Connections of these findings to student engagement, teachers learning, and challenges encountered in SSI implementation are explored. 

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2. Broadening Participation in Computing via Professional Development for Community College CS/IT Faculty

   Quinn, B.A.; DuBow, W.M.; Huber-Ward, J. (October 2018, Proceedings of the Annual SIGCSE Conference on Innovation and Technology in Computer Science Education)

   This paper describes the creation of a virtual, interactive professional development course to build the capacity of community college faculty to recruit and retain women and underrepresented minorities in computing programs. The project was designed in response to community college faculty reporting need for practical methods to broaden participation in their programs and their feelings of isolation from like-minded faculty. The 12-session prototype has been piloted with eight community college faculty. The finalized PD will be available as free, standalone web-based modules. The course includes instruction on research-based practices for recruiting and retaining women and underrepresented minorities in computing. Evaluation mechanisms are developed to assess the impacts of the PD on faculty attitudes and teaching practices, and the effect of changed practices on introductory computing students’ engagement and persistence. Here we report preliminary findings from interviews. The project outputs will include polished online content modules, validated student survey instruments, a classroom observation protocol, and student and faculty interview instruments. 

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3. The role of student characterization in teachers’ approaches to culturally responsive computer science instruction

   Nolte, A; Rolon-Dow, R; Mouza, C; Pollock, L (April 2024, Annual meeting of the American Educational Research Association)

   Despite growth in computer science (CS) education, females and racially minoritized populations remain underrepresented in the field. Integrating culturally responsive pedagogy (CRP) in CS education is critical to reducing these disparities. In this work, we investigate how teachers employ student characterizations to support their approaches to CS and CRP integration following participation in professional development (PD) designed to support the integration of CS and CRP in content area instruction. Qualitative interview data were collected from 15 elementary teachers who attended the PD. Findings indicate that teachers referenced academic and demographic student characteristics to support their stances toward CS and CRP integration. Implications are drawn regarding the design of PD programs that help elementary teachers consider student identities when designing culturally responsive CS instruction. 

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4. Supporting Mathematics Instructors’ Transition to Equity-Minded Active Instruction Using a Community of Practice Framework

   https://doi.org/10.3390/educsci14091001  

   Marzocchi, Alison S; Stone-Johnstone, Amelia; Kurianski, Kristin; Soto, Roberto C (September 2024, Education Sciences)

   With evidence mounting on the benefits of equity-minded and active mathematics instruction, increasing numbers of mathematics faculty members are seeking to transform their instruction. Yet, many lack the skills and/or confidence to make the transition. To support faculty in meaningful instructional improvement, the authors of this paper facilitate frequent and innovative professional development (PD) guided by a community of practice framework. PD is intentionally designed to be incremental and supportive. Using one-on-one interview data from ten faculty participants who participated in PD on equity-minded and active mathematics instruction, we report on three crucial characteristics of a community of practice: the domain, the community, and the practice. Findings have implications for mathematics departments that aspire to support instructors to transform their teaching. Incremental PD guided by a community of practice framework could support faculty through the challenges of instructional transformation. 

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5. "Making" Science Relevant for the 21st Century: Early Lessons from a Research-Practice Partnership

   https://doi.org/10.1145/3311890.3311910  

   Fancsali, Cheri; Mirakhur, Zitsi; Klevan, Sarah; Rivera-Cash, Edgar (March 2019, FabLearn 2019 proceedings)

   The Maker Partnership Program (MPP) is an NSF-supported project that addresses the critical need for models of professional development (PD) and support that help elementary-level science teachers integrate computer science and computational thinking (CS and CT) into their classroom practices. The MPP aims to foster integration of these disciplines through maker pedagogy and curriculum. The MPP was designed as a research-practice partnership that allows researchers and practitioners to collaborate and iteratively design, implement and test the PD and curriculum. This paper describes the key elements of the MPP and early findings from surveys of teachers and students participating in the program. Our research focuses on learning how to develop teachers’ capacity to integrate CS and CT into elementary-level science instruction; understanding whether and how this integrated instruction promotes deeper student learning of science, CS and CT, as well as interest and engagement in these subjects; and exploring how the model may need to be adapted to fit local contexts. Participating teachers reported gaining knowledge and confidence for implementing the maker curriculum through the PDs. They anticipated that the greatest implementation challenges would be lack of preparation time, inaccessible computer hardware, lack of administrative support, and a lack of CS knowledge. Student survey results show that most participants were interested in CS and science at the beginning of the program. Student responses to questions about their disposition toward collaboration and persistence suggest some room for growth. Student responses to questions about who does CS are consistent with prevalent gender stereotypes (e.g., boys are naturally better than girls at computer programming), particularly among boys. 

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