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1. Transcending disciplines: Engaging college students in interdisciplinary research, integrated STEM, and partnerships

   https://doi.org/10.3926/jotse.1139  

   Kilty, Trina; Burrows, Andrea; Welsh, Kate; Kilty, Kevin; McBride, Shawna; Bergmaier, Philip (February 2021, Journal of Technology and Science Education)

   An authentic, interdisciplinary, research and problem-based integrated science, technology, engineering, and mathematics (STEM) project may be ideal for encouraging scientific inquiry and developing teamwork among undergraduate students, but it also presents challenges. The authors describe how two interdisciplinary teams (n=6) of undergraduate college students built integrated STEM projects in a research based internship setting, and then collaboratively brought the project to fruition to include designing lessons and activities shared with K-12 students in a classroom setting. Each three person undergraduate team consisted of two STEM majors and one Education major. The Education majors are a special focus for this study. Interviews, field observations, and lesson plan artifacts collected from the undergraduate college students were analyzed according to authenticity factors, the authentic scientific inquiry instrument, and an integrated STEM instrument. The authors highlight areas of strength and weakness for both teams and explore how preservice teachers contributed to integrated STEM products and lessons. Teacher educators might apply recommendations for teacher preparation and professional development when facilitating authentic scientific inquiry and integrated STEM topics with both STEM and non-STEM educators. Undergraduate college students were challenged to fully integrate the STEM disciplines, transitions between them, and the spaces between them where multiple disciplines existed. By describing the challenges of integrating the spaces between STEM, the authors offer a description of the undergraduate college students’ experiences in an effort to expand the common message beyond a flat approach of try this activity because it works, to a more robust message of try this type of engagement and purposefully organize for maximum results. 

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2. Just keep swimming: Increasing resilience of STEM preservice teachers during COVID-19

   Catherine M. Lussier University of California, Riverside Ashley M. (March 2023, Journal of instructional pedagogies)

   A substantial achievement gap between K-12 English learners (ELs) and non-ELs in science, technology, engineering, and mathematics (STEM) content areas exists, as indicated by national assessments of student outcomes. Considering the expected steady increase in students who are ELs in the U.S., determining methods for addressing this achievement gap is of immediate concern. Research has indicated this gap may be exacerbated by lack of adequate teacher preparation, specifically in STEM fields, to effectively teach students who are culturally and linguistically diverse (CLD). Founded in previous research about effective teacher preparation, the current case study pilots and reports on a model of early STEM preservice teacher training that integrates: knowledge of language development for ELs, early experiences with CLD learners, and professional development activities that guide the implementation of STEM pedagogical methods. Five STEM preservice teachers participated in a year-long supplemental training program focused on adapting STEM instruction for ELs. Components of the supplemental program included: (a) coursework extending teacher knowledge of EL language development, (b) fieldwork providing early exposure to research-based teaching experiences with EL students, and (c) professional development guiding the creation of hands-on STEM curriculum for diverse learners. Five secondary preservice teachers experienced increases in self-efficacy, growth in STEM instructional practices, and greater motivation for teaching in high-need schools. Results will inform educational models for improving STEM-EL teaching, thereby addressing a crucial need to serve the growing national population of underserved students. 

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3. A Course-Based Teaching Experience for STEM Undergraduates Improves Student Perceptions of Teaching Self-Efficacy and Attitudes Toward Teaching Careers

   https://doi.org/10.1187/cbe.21-04-0105  

   Bush, Seth; Calloway, Ashley; Bush, Emily; Himelblau, Ed (March 2022, CBE—Life Sciences Education)

   Couch, Brian (Ed.)

   There is a national need to recruit more science teachers. Enhancing pathways to teaching for science, technology, engineering, and mathematics (STEM) majors could help to address this need. The Learn By Doing Lab is a course in which STEM undergraduates teach hands-on life science and physical science to local third- through eighth-grade schoolchildren visiting the campus. To measure the impacts of this teaching experience on the undergraduate participants, we administered a version of the Science Teaching Efficacy Belief Instrument-Preservice survey at the start and end of the course. Significant gains were observed in the students’ belief in their personal ability to effectively teach science (self-efficacy). Furthermore, qualitative and quantitative analysis of student reflections revealed that they perceived the Learn By Doing Lab experience to have helped them develop 21st-century competencies, particularly in the areas of collaboration, communication, and adaptability. Finally, the students’ overall awareness and positive perception of science teaching careers increased. This indicates that providing a low-barrier course-based teaching experience for STEM undergraduates is a promising strategy to help recruit pre-service teachers, and a step toward alleviating the national STEM teacher shortage. 

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4. Essential Elements: Facilitating Inquiry in Online Environments

   White, K.; Kretchmar, K.; Hofkamp, K.; Donovan, R. (March 2023, Proceedings of Society for Information Technology & Teacher Education International Conference)

   Langran, E.; Christensen, P.; Sanson, J. (Ed.)

   Prior to COVID-19 and the shift to fully online instruction, teacher preparation programs were teaching candidates to use technology in the classroom, but they were not focusing on how to teach in exclusively online or hybrid models. In the future, all preservice teachers will need to know how to teach online, whether due to necessity or by choice. Therefore, the purpose of our research is to first identify essential elements of critical digital pedagogy for facilitating online inquiry, and then to integrate these methods into our teacher preparation program to prepare preservice teachers to facilitate inquiry-based science, technology, and mathematics (STEM) effectively in online learning environments that are equitable and inclusive of all learners. We utilize a mixed-methods approach with quantitative and qualitative measures including literature reviews, individual interviews, focus groups, program documents, and efficacy surveys. Drawing on this data, this presentation shares the findings from the first part of this three-year research project by discussing essential elements of critical digital pedagogy for facilitating online STEM inquiry. We identify what tools and instructional approaches can be used to support STEM learning in online environments in ways that will support all students, including those who are traditionally marginalized in U.S. schools. 

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5. The Facilitator Model: Investigating a Novel Dual Credit Experience for Open-Ended Design Coursework

   https://doi.org/10.1007/s41979-022-00075-5  

   Thorne, Scott; Strimel, Greg J.; Mentzer, Nathan; Sears, David (September 2022, Journal for STEM Education Research)

   This study explored the implementation of a novel approach to dual credit referred to as the facilitator model that can be suited for STEM-focused coursework such as courses focused on engineering, design, technology, and innovation. Unlike other models, high school teachers facilitate the implementation of a college course for both high school and college credit in collaboration with a university instructor who evaluates student learning. This novel approach was specifically implemented for an open-ended undergraduate design course within an engineering technology college, similar to many first-year engineering course experiences that emphasize project based learning, from a large research-intensive public university. For this study, the facilitator model was piloted with five high school teachers as facilitators of an undergraduate design course for dual credit at two innovative, STEM-focused public charter schools. The qualitative research design focused on examining (1) teacher needs while implementing, and perceptions of, the dual credit facilitator model for an undergraduate design course in urban public charter schools and (2) the impact of this model on student learning. This study included the collection and analysis of over 90 h of interviews, focus groups, surveys, and observations. Results provide a promising outlook for the use of the facilitator model when delivering dual credit content that is open ended and within the context of design, technology, and engineering by (1) navigating multiple institutional policies and processes related to dual-credit implementation, (2) providing ongoing support and fostering collaboration between high schools and university, (3) enabling students to earn directly transcripted college credits that count as a required course toward degree completion, and (4) increasing affordability and access to dual credit coursework. These potential advantages over other dual credit models can help address barriers that may limit access to dual credit coursework, specifically for underserved high schools. 

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