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1. Kindling the fire: Fueling preservice science teachers' interest to teach in high‐needs schools

   https://doi.org/10.1002/sce.21520  

   Kier, Meredith W.; Chen, Jason A. (April 2019, Science Education)

   Abstract This study applies psychological models of interest and motivation (i.e., a model of interest‐development and self‐determination theory) to the experiences of six preservice science Noyce scholars who participated in a teacher preparation program. The National Science Foundation's Noyce grant aims to incentivize mathematics and science majors to teach in high‐needs school districts. Through this interview study, we sought to understand how Noyce scholars' pre‐existing interests and their experiences in the Noyce program interact to develop individual commitments to teach in high‐needs school settings. Case studies reveal that scholars had no prior experiences in high‐needs schools, abstract ideas about teachers, students, and resources in these contexts, and varying degrees of initial connectedness to teaching in high‐needs school settings. Scholars found that site visits to diverse high‐needs schools (i.e., rural and urban) triggered their interest to teach in similar contexts. Preservice science teachers' emerging interest and level of commitment to teaching in high‐needs schools following the teacher preparation program was dependent upon context‐specific mastery experiences and autonomy within their long‐term clinical field experience. This study offers implications for teacher educators who are recruiting and preparing students to teach in high‐needs school contexts. 

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2. The Impact of an Undergraduate Led Mathematics Summer Camp on High School Students’ Interest in Mathematics and Mathematics Teaching

   https://doi.org/10.1080/19477503.2023.2291944  

   de la Cruz, Jessica; Goldman, Samantha (January 2024, Investigations in Mathematics Learning)

   Considering the prevalence of mathematics teacher shortages in the United States, together with declining enrollments in teacher preparation programs, it is crucial for districts and teacher preparation programs alike to investigate new recruitment initiatives. In this pilot study, a university aimed to increase high school students’ interest in mathematics and mathematics teaching through a 1-week summer mathematics camp led by university undergraduates who were participating in an experiential learning program in mathematics teaching. The undergraduates engaged the high school students in activities chosen to allow exploration and discovery related to advanced mathematics topics. High school students expressed highly positive perceptions of the mathematics camp outcomes. Furthermore, participants experienced increased interest in mathematics at the end of the week and approximately one-third of participants attributed the camp to improving their likelihood of entering a teacher preparation program. Participants highlighted the positive classroom environment and focus on social emotional learning as strong contributors to the success of the camp. Implications for future research and practice are discussed. 

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3. Community Cultural Wealth and Science, Technology, Engineering, and Mathematics (STEM) Identities as Motivators for Black Boys to Participate in a High School Academy of Engineering

   https://doi.org/10.3390/educsci14080873  

   Fletcher_Jr, Edward C; Carroll, Turhan K (August 2024, Education Sciences)

   Researchers have emphasized how the high school STEM-themed career academy model benefits ethnically and racially diverse learners by promoting positive STEM identities and raising the interest of students to pursue STEM college and career pathways. The purpose of this study was to examine the reasons why Black boys participated in a high school academy of engineering. We were also interested in identifying academy features that helped promote (or inhibit) positive STEM identities among Black male students. In this qualitative study, we used data from 17 Black male high school academy of engineering students. We analyzed the interview transcripts using a constant comparative method. Using an embedded case study approach, we compared our findings to the community cultural wealth (CCW) factors and the factors that researchers have found to influence students’ STEM identities. We found that the participants brought six forms of capital with them that served as sources of motivation to participate in the program. The forms of capital that were related to the CCW framework included aspirational, familial, navigational, resistance, and social. While we did not uncover linguistic capital in our data analysis, we did find an additional source of capital that was not reflected in the CCW framework. We found that the Black boys had natural STEM talent based on the formation of STEM identities. The students had high aptitudes in STEM-related subjects, and they were engaged by participating in hands-on activities. We recommend that schools integrate STEM curricula for Black boys and provide Black men to serve as STEM role models through guest speaking opportunities, job shadowing, mentoring, internships, and other work-based learning experiences. 

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4. Exploring the Impact of High School Engineering Exposure on Science Interests (Work in Progress)

   Bond-Trittipo, B.; Berhane, B. T.; Lee, E. (July 2021, 2021 ASEE Annual Conference and Exposition)

   null (Ed.)

   Research on K-12 integrated STEM settings suggests that engineering design activities play an important role in supporting students’ science learning. Moreover, the National Academies of Sciences, Engineering, and Medicine named improvement in science achievement as an objective of K-12 engineering education. Despite promising findings and the theorized importance of engineering education on science learning, there is little literature that investigates the impact of independent engineering design courses on students’ science learning at the high school level. This sparse exploration motivates our work-in-progress study, which explores the impact of high school students’ exposure to engineering design curriculum on their interest in science through a semi-structured student focus group method. This study is a part of a National Science Foundation-funded project that investigates the implementation of [de-identified program], a yearlong high school course that introduces students across the United States to engineering design principles. The Fall 2020 student focus group protocol built on the [de-identified program] 2019-2020 protocol with the addition of a science interest item to the existing engineering self-efficacy and interest items. Approximately thirty-minute semi-structured student focus groups were conducted and recorded via Zoom, then the transcripts and notes were analyzed using an in-vivo coding method. Our preliminary findings suggest that future studies should aim to gain a deeper understanding of the influence standalone engineering design courses have on students’ science interests and explore the role engineering design teachers play in increasing students’ interest in science. 

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5. Building a Partnership Between a University and Local High School to Foster and Grow Interest in Biomedical Sciences and Engineering

   https://doi.org/10.1115/1.4064664  

   Castile, Ryan M; Jobe, Jamie; Iannucci, Leanne E; Reals, Rebecca F; Pavey, Shawn N; Fitzgerald, Jon; Lake, Spencer P (May 2024, Journal of Biomechanical Engineering)

   Abstract To help foster interest in science, technology, engineering, and math (STEM), it is important to develop opportunities that excite and teach young minds about STEM-related fields. Over the past several years, our university-based research group has sought to help grow excitement around the biomechanics and biomedical engineering fields. The purposes of this technical brief are to (1) discuss the development of a partnership built between a St. Louis area high school and biomechanics research lab and (2) provide practical guidance for other researchers looking to implement a long-term outreach program. The partnership uses three different outreach opportunities. The first opportunity consisted of 12th-grade students visiting university research labs for an up-close perspective of ongoing biomedical research. The second opportunity was a biomedical research showcase where research-active graduate students traveled to the high school to perform demonstrations. The third opportunity consisted of a collaborative capstone project where a high school student was able to carry out research directly in a university lab. To date, we have expanded our reach from 19 students to interacting with over 100 students, which has yielded increased interest in STEM related research. Our postprogram survey showed that outreach programs such as the one described herein can increase interest in STEM within all ages of high school students. Building partnerships between high schools and university researchers increases the interest in STEM amongst high school students, and gives graduate students an outlet to present work to an eager-to-learn audience. 

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