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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. Developing and Sustaining Elementary STEM Teacher Leadership Identities

   Napolitano, K V; Gunning, A M; Marrero, M E; Nitecki, E (December 2023, Global education review)

   Growing emphasis on elementary STEM education has pushed elementary teachers to face curriculum changes that focus on standards with which they are largely unfamiliar (Smith, 2020; Trygstad et al., 2013). As a result, elementary students are not always exposed to STEM subjects or integration and miss out on opportunities to access and enjoy the hands-on, inquiry-driven activities that accompany them. This deficit disproportionally impacts high-need, urban districts that serve Black and Brown children and families, thus perpetuating inequities in STEM education and careers (Tate et al., 2012). To address these issues, we designed a Fellowship program that strengthened K-12 STEM teacher leadership in local, high-need, schools. In this paper, we take a closer look at how five elementary teachers took on STEM teacher leader identities and then sustained and strengthened those even as program supports reduced. We asked: How do elementary teachers develop and sustain STEM and leadership identities through participation in a Master Teacher Fellowship? Using positional identity and selfefficacy lenses, we interpreted focus group interviews, coursework, reflections, and Fellowship meeting notes. Findings suggest that elementary teachers developed their identities gradually—first, as they recognized themselves as STEM teachers; next, as they recognized themselves as STEM leaders; and then, as others recognized them as STEM teacher leaders and positioned them to enact change in their schools and to support their colleagues. Implications for teacher educators shed light on how elementary teachers can be best supported in increasing STEM learning for their students across grade levels to effect school change. 

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3. Engineering Design in Scientific Inquiry

   Atkins Elliott, Leslie (January 2019, American Society of Engineering Education)

   The Engineering Design in Scientific Inquiry (EDISIn) Project addresses the engineering preparation of secondary science teachers by embedding engineering design into a science course for single-subject STEM education majors (future secondary teachers), and developing a sequence of lesson plans and annotated video for faculty who seek to embed engineering design in their science courses. While undergraduate laboratories are rich with designed experimental apparatus, it is rare that students themselves play a role in designing and producing artifacts in the service of scientific inquiry. Our expectation is that (1) existing science courses offer opportunities for students to engage meaningfully with engineering practices, by solving design challenges that emerge in the construction of scientific ideas; and (2) doing so can capitalize on existing curricula that science education has developed, facilitating the adoption of engineering design into preservice teacher education. As part of NSF’s Improving Undergraduate STEM Education (IUSE) funding program, this proposal is part of a broader effort to transform undergraduate science education, preparing students to be innovators and leaders in STEM. 

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4. Finding their voice: Support mechanisms to engage and empower future mathematics teachers.

   Gomez Johnson, K. (July 2019, Proceedings of the Eighth Annual Mathematics Teacher Education Partnership Conference)

   Smith, W. M. (Ed.)

   The NebraskaMATH Omaha Noyce Partnership Scholarship awards scholarships funded by the National Science Foundation (NSF) to undergraduate students interested in mathematics education at the University of Nebraska at Omaha (UNO). Scholars, who are dual mathematics and secondary education majors, are engaged and supported by Noyce faculty to not only excel in their college coursework and career preparation, but also to serve the university and community through teaching assistantships and STEM community outreach. The main goal of this program is to strengthen and expand the pipeline for preparing high-quality teachers of mathematics to better meet the responsibilities and demands of local school districts, particularly those serving students with high-need. Cross-campus collaborations between the departments of teacher education and mathematics co-constructed the Noyce infrastructure to emphasize and share the development of future, high-quality secondary mathematics teachers (Mathematics Teacher Education Partnership, 2014). This paper describes our program’s unique design and implementation features aimed to empower, engage, and extend the talents of our undergraduate students. We share lessons learned and recommendations from faculty and participants regarding decisions and facets of the program considered to be most influential in STEM teacher and leadership development. 

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5. Undergraduate STEM Majors on and off the Pre-Med/Health Track: A STEM Identity Perspective

   https://doi.org/10.1187/cbe.20-12-0281  

   Dou, Remy; Cian, Heidi; Espinosa-Suarez, Valentina (June 2021, CBE—Life Sciences Education)

   Offerdahl, Erika (Ed.)

   Despite the wealth of research exploring science, technology, engineering, and mathematics (STEM) identity and career goals in both formal and informal settings, existing literature does not consider STEM identity for undergraduate students pursuing health and medical careers through STEM pathways. We address this gap by examining the STEM identity of undergraduate STEM majors on pre-med/health tracks as it compares with that of other STEM majors, thus focusing on a population that is chronically understudied in STEM education research. We surveyed 440 undergraduate STEM students enrolled in entry-level STEM courses to assess their STEM identities and three identity precursors: interest, performance–competence, and recognition. Through regression analyses accounting for gender, major, and perceived home support around STEM, we found that pre-med/health students were more likely to have higher STEM identity and recognition scores than their peers; we did not detect a significant difference for performance–competence or interest in STEM. Although there is little tracking of pre-med/health students’ ultimate career attainment, the implications of our findings support a potential for sustaining pre-med/health students while simultaneously creating pathways to other STEM pursuits for the nearly 60% of those who do not enter medical school by offering participation in experiences that affirm their STEM identities. 

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