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1. A Successful 2-week Innovation- and Student Success-Focused Bridge Program for First-Year Students

   Schubert, K.; Delgado Solorzano, X.; Massey, L.; Gattis, C.; Popp, J.; Cao, C.; Carter, T.; Muralidhara, D. (July 2022, ASEE Annual Conference proceedings)

   Despite the vital role innovation plays in scientific advancement, opportunities to develop innovation skills remain limited, especially for low-income students. Training in innovation principles and processes are frequently extra-curricular pursuits, such as unpaid internships with start-up organizations, shadowing innovation professionals, or obtaining an additional business degree that covers innovation principles. These pursuits often require financial means or connections in the field – both of which are often unavailable to low-income students. Without an academic route in which STEM degree programs are embedded with innovation instruction and exercises, innovation training will remain out of reach for most low-income students. The bridge program engages students in a specially designed 3-credit hour course where 2-credit hours are dedicated to teaching students about innovation and developing their innovative thinking and behaviors. One-credit hour is devoted to student success strategies and developing feelings of being welcome at the university through guest speakers. Outside of class, bridge students participate in cohort building and mentoring activities. The bridge program included 12 NSF S-STEM students as well as 12 non-STEM students, all of which are participating in the Honors College Path Program which is designed to increase retention of underrepresented students. This allowed multidisciplinary collaboration for diversity of thought. 

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2. Impact of an intensive multi-disciplinary STEM enrichment program on underrepresented minority student success

   https://doi.org/10.1108/JARHE-12-2020-0452  

   Ghazzawi, Dina; Pattison, Donna Lynn; Horn, Catherine; Hardy, John; Brown, Beverly (April 2021, Journal of Applied Research in Higher Education)

   Blessinger, Patrick (Ed.)

   PurposeThis study examines the impact of participation in a STEM Enrichment Summer Bridge Program, funded by the NSF Houston-Louis Stokes Alliance for Minority Participation, on undergraduate student success outcomes, particularly for under-represented students. Design/methodology/approachThe study uses propensity score matching and logistic regression analysis to examine the effects of participation in the STEM enrichment program on graduation and retention in STEM after matching on baseline socio-demographic and pre-college characteristics. FindingsThe analysis found that program participation had a significant effect on increasing both the graduation rates and retention of under-represented minority students in STEM fields. In addition, results indicated that program participation had a particularly strong impact for Pell-eligible students in terms of course grades. Research limitations/implicationsData obtained for this study were limited to a single Hispanic-serving/Asian-serving institution, and therefore are not necessarily representative of the graduation and retention trends of the larger population of underrepresented minority (URM) students across the nation. Originality/valueThis study uniquely adds to the existing body of literature surrounding the retention of URM students in STEM fields by accounting for baseline variables, such as pre-college academic achievement and socio-demographic characteristics, that could lead to bias in estimating results. Specifically, this study addresses limitations of previous studies by comparing participants and non-participants of the STEM enrichment program who are matched on a selection of baseline characteristics. 

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3. Strategies for Developing, Expanding, and Strengthening Community College Engineering Transfer Programs

   Enriquez, A.; Langhoff, N.; Dunmire, E.; Rebold, T; Pong, W. (June 2018, American Society for Engineering Education)

   Broadening participation in engineering among underrepresented minority students remains a big challenge for institutions of higher education. Since a large majority of underrepresented students attend community colleges, engineering transfer programs at these community colleges can play an important role in addressing this challenge. However, for most community college engineering programs, developing strategies and programs to increase the number and diversity of students successfully pursuing careers in engineering is especially challenging due to limited expertise, shrinking resources, and continuing budget crises. This paper is a description of how a small engineering transfer program at a Hispanic-Serving community college in California developed effective partnerships with high schools, other institutions of higher education, and industry partners in order to create opportunities for underrepresented community college students to excel in engineering. Developed through these partnerships are programs for high school students, current community college students, and community college engineering faculty. Programs for high school students include a) the Summer Engineering Institute – a two-week residential summer camp for sophomore and junior high school students, and b) the STEM Institute – a three-week program for high school freshmen to explore STEM fields. Academic and support programs for college students include: a) Math Jam – a one-week intensive math placement test review and preparation program; b) a scholarship and mentoring program academically talented and financially needy STEM students; c) a two-week introduction to research program held during the winter break to prepare students for research internships; d) a ten-week summer research internship program; e) Physics Jam – an intensive program to prepare students for success in Physics; f) Embedded Peer Instruction Cohort – a modified Supplemental Instruction program for STEM courses; g) STEM Speaker Series – a weekly presentation by professionals talking about their career and educational paths. Programs for community college STEM faculty and transfer programs include: a) Summer Engineering Teaching Institute – a two-day teaching workshop for community college STEM faculty; b) Joint Engineering Program – a consortium of 28 community college engineering programs all over California to align curriculum, improve teaching effectiveness, improve the engineering transfer process, and strengthen community college engineering transfer programs; c) Creating Alternative Learning Strategies for Transfer Engineering Programs – a collaborative program that aims to increase access to engineering courses for community college students through online instruction and alternative classroom models; and d) California Lower-Division Engineering Articulation Workshop – to align the engineering curriculum. In addition to describing the development and implementation of these programs, the paper will also provide details on how they have contributed to increasing the interest, facilitating the entry, improving the retention and enhancing the success of underrepresented minority students in engineering, as well as contributing to the strengthening of the community college engineering education pipeline. 

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4. Board 414: Tracking the Progress Towards an Engineering Degree of Three Cohorts of Low-income Engineering Students Supported by a Track 3 Multi-Institutional S-STEM Grant

   Castles, Ricky; Venters, Christopher (June 2023, American Society for Engineering Education)

   With a project built on the Model of Co-Curricular Support for Undergraduate Engineering Students, in collaboration with three partnering community colleges was awarded a Multi-Institutional Track 3 S-STEM Grant in January 2020. The intention of the project was to recruit 2 cohorts of scholars with 40 students each. One cohort was to start their pursuit of an engineering degree in Fall 2020 and the other in Fall 2021. Each cohort was to be comprised of 20 students who started at as freshmen and 20 students who intended to get an associate’s degree from one of the partnering community colleges and transfer to a university to complete the BS in engineering. Despite some early challenges in recruiting students and implementing planned programs due to the Covid-19 pandemic, three cohorts of low-income students have been recruited and supported by scholarships valued at up to $10,000 per year. In addition to scholarship support, various other support mechanisms have been implemented including a week-long summer bridge program for incoming students, a peer mentoring program, a textbook lending library, faculty mentoring, and various collaborative programs involving career speakers, design challenges, and professional development opportunities. With the first cohort of students now entering their senior year and several community college students having already transferred to the university, this paper discusses the recruitment and retention of scholars, details of program activities, and the progress scholars have made towards an engineering degree. This paper also draws comparisons between the scholar cohorts and all students entering the engineering program in the same semester in order to identify differences in GPA and retention. 

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5. A Meta-analysis of University STEM Summer Bridge Program Effectiveness

   https://doi.org/10.1187/cbe.20-03-0046  

   Bradford, Brittany C.; Beier, Margaret E.; Oswald, Frederick L. (June 2021, CBE—Life Sciences Education)

   McFarland, Jenny (Ed.)

   University science, technology, engineering, and math (STEM) summer bridge programs provide incoming STEM university students additional course work and preparation before they begin their studies. These programs are designed to reduce attrition and increase the diversity of students pursuing STEM majors and STEM career paths. A meta-analysis of 16 STEM summer bridge programs was conducted. Results showed that program participation had a medium-sized effect on first-year overall grade point average ( d = 0.34) and first-year university retention (Odds Ratio [ OR] = 1.747). Although this meta-analytic research reflects a limited amount of available quantitative academic data on summer STEM bridge programs, this study nonetheless provides important quantitative inroads into much-needed research on programs’ objective effectiveness. These results articulate the importance of thoughtful experimental design and how further research might guide STEM bridge program development to increase the success and retention of matriculating STEM students. 

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