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1. The Importance of Belonging and Self-Efficacy in Engineering Identity

   Zabriskie, C.; Henderson, R.; Stewart, J. (January 2018, AERA open)

   Retention of students in Science, Technology, Engineering, and Mathematics (STEM) disciplines is a significant concern in higher education. Identity has been identified as an important correlate of academic success that may be important in a robust model of STEM retention. The engineering identity of “early career” university engineering students and its relation to GPA, self-efficacy, and a sense of belonging was examined. Self-efficacy and belonging were demonstrated to be domain dependent. A sense of belonging was much more strongly related to identity than either GPA or self-efficacy. A strong sense of belonging, specifically in the domain of the department of their major, was critical to a strong engineering identity. 

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2. Evaluation of STEM Engagement Activities on the Attitudes and Perceptions of Mechanical Engineering S-STEM Scholars

   https://doi.org/10.1115/1.4051715  

   Zhu, Liang; Sun, Shuyan; Timmie Topoleski, L. D.; Eggleton, Charles; Ma, Ronghui; Madan, Deepa (December 2021, Journal of Biomechanical Engineering)

   null (Ed.)

   Abstract Since 2009, the mechanical engineering (ME) scholarship-science technology engineering and mathematics (S-STEM) Program at the University of Maryland Baltimore County (UMBC) has provided financial support and program activities to ME undergraduate students aiming at improving their retention and graduation rates. The objective of this study is to identify program activities that were most effective to help students for improvements. Current ME S-STEM scholars were asked to complete a survey that measures their scientific efficacy, engineering identity, expectations, integration, and sense of belonging, as well as how program activities impact their attitudes and perceptions. Analyses of 36 collected surveys showed that scholars reported high levels of engineering identity, expectations, and sense of belonging. However, further improvements were needed to help students in achieving scientific efficacy and academic integration into the program. Results demonstrated that pro-active mentoring was the most effective method contributing to positive attitudes and perceptions. The implemented S-STEM research-related activities and internship were viewed favorably by the scholars in helping them establish their scientific efficacy and engineering identity, and understand their expectations and goals. Community building activities were considered helpful for them to integrate into campus life and improve their sense of belonging to the campus and program. Scholars identified mentoring, research related activities, internships, and social interaction with faculty and their peers as important factors for their retention and graduation. Although the sample size was small in the study, we believe that the cost-effective activities identified could be adopted by other institutions to further improve students' retention and graduation rates in engineering programs. 

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3. A Community-Based, Culturally Engaging STEM Learning Environment and Its Impact on Students’ Psychosocial Attributes at a Rural Hispanic Serving Institution (HSI)

   https://doi.org/10.1187/cbe.23-12-0238  

   Abrica, Elvira J; Hatch-Tocaimaza, Deryl; Corey-Rivas, Sarah; Garcia, Justine; Dixit, Aalap (December 2024, CBE—Life Sciences Education)

   Alvares, Stacy (Ed.)

   Qualitative study examined development of psychosocial attributes- sense of belonging, science identity, and self-efficacy- among first-year life science undergraduate students who participated in integrated and culturally engaging research activities at a rural Hispanic Serving Institution (HSI). 

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4. BOARD # 287: NSF S-STEM: Advancing STEM Undergraduate Success and Persistence through Scholarship, Mentorship, and Increased Sense of Belonging

   https://doi.org/10.18260/1-2--55651  

   Chang, Jen-Mei; Trajkovic, Jelena; Galvez, Gino (June 2025, ASEE Conferences)

   This paper examines the impact of a National Science Foundation Scholarships in Science, Technology, Engineering, and Mathematics (NSF S-STEM) Program at a large, Minority-Serving institution in the western U.S. Despite growing efforts to diversify STEM fields, underrepresented minority (URM) students continue to face significant challenges in persistence and success. This scholarship program addresses these challenges by providing financial support, faculty and peer mentorship, and skills development opportunities to academically talented and low-income URM STEM students. This study evaluates how participation in the program enhances key noncognitive skills, such as students' sense of belonging, leadership and collaboration skills, and science identity, which are critical to STEM persistence. Using both survey and university-based data among the 47 participating scholars, results reveal that program participants report strong levels of sense of belonging, high efficacy in leadership and collaboration skills, and strong science/math identities. Additionally, compared to university rates, scholarship students showed above-average retention and graduation rates, with the majority pursuing graduate studies or careers in STEM. These findings highlight the importance of comprehensive support programs that integrate financial aid, mentorship, and professional development to promote persistence and success among URM students in STEM fields. 

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5. BOARD # 447: Sowing the SEEDs (Scholars of Excellence in Engineering Design): Starting the SEED NSF S-STEM Program at Texas State University

   https://doi.org/10.18260/1-2--55827  

   Talley, Kimberly; Muci-Kuchler, Karim; Valles, Damian; Gutierrez, Felipe; Tate, Jitendra (June 2025, ASEE Conferences)

   Texas State University received an NSF S-STEM award to support two cohorts of talented, low-income engineering majors, with the first cohort starting their freshman year in Fall 2024. In addition to the scholarships awarded, this program aims to increase students’ engineering design self-efficacy, engineering identity, and improve persistence to graduation. The program includes unique strategies for achieving these goals, emphasizing mentoring and building a sense of community among participants. The SEED scholars were paired with a faculty mentor in their engineering major prior to their arrival on campus for their freshman year. This early contact was intended to open lines of communication with a faculty member, so the students felt they had a trustworthy source of information from someone who cared about them. As Texas State University has a high number of first-generation college students, there was an expectation that this program would likely attract a fair number of first-generation students. Without another family member’s experience about how to be a college student, having this faculty mentor gave these students a person who could help them answer questions and navigate the process leading to their first semester on campus. For instance, mentors were able to talk with students about dorm selection, mathematics course placement (including strategies for placing into a higher-level mathematics course), and what to expect in their engineering coursework. Student participation in an Engineering Living Learning Community (LLC) is another unique program feature to enhance community among the SEED scholars. A general description of the program and preliminary results from the students’ self-reported sense of belonging in engineering, engineering design self-efficacy, and engineering identity are presented in this paper. 

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