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1. Student Interest in STEM Careers: An NSF ITEST Project for High Schoolers’ Renewable Energy Technology Engagement

   Antink-Meyer, A; Aldeman, M; Williams, J; Jo, JH (June 2025, American Society for Engineering Education (ASEE))

   This NSF ITEST project (Award # 2148429) at Illinois State University focuses on engaging students in four Chicago Public High Schools in an afterschool STEM program, SUPERCHARGE, where they experience hands on activities with renewable energy technologies and related sustainability-tied experiences. Between 10 and 20 students met weekly afterschool during the first year of implementation which was preceded by a planning year in which teachers provided feedback on activities and connections to the communities of the schools were developed. Four faculty were involved in the design of the project and activities and an additional group of undergraduate STEM majors were also involved in the design and pilot of all activities. Four goals frame this project and research. These are to learn how (1) high school students’ knowledge of STEM careers and STEM domains change across their participation; (2) the high school students improve their interest in STEM career attainment and their self-efficacy for career relevant skills; (3) the undergraduate STEM majors’ views about Communities of Learners of Underrepresented Discoverers develop across their participation; and (4) teachers’ knowledge of current STEM domains, skills, and careers change. To examine the impact of the programming on each stakeholder group, PEAR’s CIS-S and CIS-E surveys, interviews, activity surveys, and workshop surveys were used. Currently, the data from the first year of programming includes 21 pre-post student surveys and 10 surveys from the undergraduate designers and 9 surveys from the teachers in the program. At this time, statistical tests were not appropriate due to these small numbers, but future years will bolster these numbers, and we anticipate the ability to perform statistical tests as the data set grows. Therefore, we focus on a qualitative analysis of the surveys and interviews at this stage. 

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2. The Making of an Innovative Engineer: Academic and Life Experiences that Shape Engineering Task and Innovation Self-Efficacy.

   Schar, M.; Gilmartin, S.; Rieken, B.; Brunhaver, S.; Chen, H.; Sheppard, S. (January 2017, Proceedings of the American Society for Engineering Education Annual Conference, June 25-28. Columbus, OH.)

   This research paper presents the results of a study that uses multivariate models to explore the relationships between participation in learning experiences, innovation self-efficacy, and engineering task self-efficacy. Findings show that many engineering students participated in learning experiences that are typically associated with engineering education, such as taking a shop class or engineering class in high school (47%), taking a computer science (81%) or design/prototyping (72%) class as an undergraduate, working in an engineering environment as an intern (56%), or attending a career related event during college (75%). Somewhat surprisingly, given the rigors of an engineering curriculum, a significant number of students participated in an art, dance, music, theater, or creative writing class (55%), taken a class on leadership topics (47%), and/or participated in student clubs outside of engineering (44%) during college. There also were important differences in rates of participation by gender, underrepresented racial/ethnic minority status, and first generation college student status. Overall prediction of engineering task self-efficacy and innovation self-efficacy was relatively low, with a model fit of these learning experiences predicting engineering task self-efficacy at (adjusted r2 of) .200 and .163 for innovation self-efficacy. Certain patterns emerged when the learning experiences were sorted by Bandura’s Sources of Self-Efficacy. For engineering task self-efficacy, higher participation in engineering mastery and vicarious engineering experiences was associated with higher engineering task self-efficacy ratings. For the development of innovation self-efficacy, a broader range of experiences beyond engineering experiences was important. There was a strong foundation of engineering mastery experiences in the innovation self-efficacy model; however, broadening experiences beyond engineering, particularly in the area of leadership experiences, may be a factor in innovation selfefficacy. These results provide a foundation for future longitudinal work probing specific types of learning experiences that shape engineering students’ innovation goals. They also set the stage for comparative models of students’ goals around highly technical engineering work, which allows us to understand more deeply how “innovation” and “engineering” come together in the engineering student experience. 

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3. The Effect of Participation in a Place-Based Engineering Learning Experience on Engineering Career Aspiration of Nebraska’s Rural Students - A Mixed Method Study

   Soleimani_Babadi, Samereh (May 2025, University of Nebraska Lincoln)

   This study investigates the influence of a place-based, hands-on engineering learning experience on rural middle school students' engineering career aspirations, using Social Cognitive Career Theory (SCCT) as a framework. Employing a mixed-methods approach, we explored how these localized learning experiences shape students' career goals through socio-cognitive factors such as self-efficacy, outcome expectations, goals, and interest. Quantitative analysis of pre- and post-activity surveys revealed significant increases in career aspiration scores, particularly among students from farming backgrounds and female students with initially lower expectations. Path analyses indicated that self-efficacy and interest were the strongest mediators between Place-based learning and engineering career aspirations. Qualitative data from student reflections corroborated these findings, highlighting key engagement factors such as real-time sensor feedback, hands-on interaction, and connections to lived experiences and familiar applications like farming. This experience broadened students' perceptions of engineering's relevance to their lives and potential careers. This study demonstrates the effectiveness of place-based education in nurturing engineering interest and aspirations, especially among rural and underrepresented students. The findings suggest that sustained, contextualized engineering activities play a crucial role in shaping students' understanding of engineering and fostering long-term career aspirations in the field. 

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4. Problem-Based Learning Increases STEM Interest for High School Students and Instructors

   https://doi.org/10.22492/issn.2189-1036.2021.23  

   Reider, David; Davis, Nanasi; Nariman, Nahid (January 2021, The IAFOR International Conference on Education – Hawaii 2021)

   The goal of Project STEMulate, a National Science Foundation ITEST study (DRL 1657625), was to develop, implement, and evaluate a program that fosters success in STEM for underserved and underrepresented high school students. The project was implemented at three sites of the Department of Education Upward Bound Program in Hawaiˋi. Project STEMulate delivered teacher training on Problem-Based Learning curriculum to ensure students were motivated and empowered, and to support STEM- related postsecondary educational success of Hawaiian and Pacific Islander students. A critical design goal of the program was to introduce teaching and learning strategies and processes that were more relevant to underrepresented youth populations than those offered in typical high schools to provide opportunities and to increase participation in the STEM study and career trajectory, something all too often out of mind and scope of these students. This study reports on three years of mixed methods summer academy data on both student and teacher learning outcomes. Teacher dispositions, evidenced through data from interviews, observations, and multi-point surveys improved in a majority of the dimensions, including teaching inquiry-based approaches, integrating technology, and STEM career knowledge and awareness. Student motivation, Science self-efficacy, and STEM career interest, evidenced from similar data sources, increased as well. Finally, we discuss the larger implications of extending this work to impact similar populations elsewhere of isolated, under- resourced and under-exposed youth with these proven strategies. 

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5. School counseling practices related to postsecondary STEM participation

   https://doi.org/10.1002/cdq.12338  

   Gearns, Richard; Kelly, Angela M.; Bugallo, Mónica F. (December 2023, The Career Development Quarterly)

   Abstract This qualitative exploratory cross‐case analysis analyzed the beliefs and practices of high school counselors related to science, technology, engineering, and mathematics (STEM) academic advisement, postsecondary planning, and career participation. Interviews were conducted with high school counselors (N = 13) who were purposively sampled to represent a diversity of schools in terms of demographic variables. Findings indicated that high school counselors perceived that (a) sociocultural factors influenced student preparation for STEM, career planning, and decision making; (b) students’ STEM‐related career goals and academic behaviors were sometimes misaligned, and academic advisement often mediated this tension; and (c) their professional STEM knowledge, beliefs, and practices were influenced by professional preparation, workplace characteristics, and their academic experiences. Implications include the need for early, sustained high school STEM counseling and academic advisement; accessible professional development in STEM preparation and careers to promote multiple pathways and reduce school counselor bias; and encouraging family involvement in STEM career decision making. 

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