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1. Facilitating a year-long research course sequence for undergraduate transfer students within a NSF S-STEM scholarship program

   Shen, J. ; McDonald, L. ; Kennedy, M. ( August 2022 , ASEE Annual Conference proceedings)

   The Student Pathways in Engineering and Computing for Transfers (SPECTRA) program is a newly funded S-STEM program in South Carolina, expected to run through 2026. The program is envisioned to provide a streamlined academic pathway for transfer students from 2-year programs within South Carolina into Clemson University, and provide programming to aid their academic success and social integration. To achieve this, SPECTRA will create cohorts of students at two community/technical colleges (Spartanburg Community College and Trident Technical College) and then support that cohort as they transitioned together into Clemson University. This cohort would then be mentored in how to navigate Clemson University’s academic environment, utilizing available programming such as academic tutoring, field trips to see local engineering companies, etc. A unique component of the SPECTRA program is the requirement that scholarship recipients at Clemson University enroll in two semesters of research, in addition to their participation in social and academic programing. Through this Work in Progress paper, the experience in designing and facilitating these research courses while matriculating through their graduate programs is documented by the authors. Specifically, the design constraints of the research courses, the topics developed for the 2021-2022 cohorts and the envisioned assessment are discussed. 

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2. Initiating a graduate teaching fellow program to support undergraduates transferring into engineering and computing programs

   Kennedy, M. ; Kitchens, C. ; Santaniello, J. ; Davenport, S. ; Conway, K. ; Ferriell, W. ( August 2022 , ASEE Annual Conference proceedings)

   The Student Pathways in Engineering and Computing for Transfers (SPECTRA) program is anticipated to provide a streamlined academic pathway for transfer students from 2-year programs within South Carolina into Clemson University, and deliver programming to aid their academic success and social integration. To achieve this, the faculty intended to solidify cohorts of students at two community/technical colleges (Spartanburg Community College and Trident Technical College) and then support that cohort as they transitioned together into Clemson University. This paper provides an overview of the larger SPECTRA program and a deeper dive into the role of the graduate teaching assistants (‘fellows’). Specifically, we will provide an overview of: (1) changes between initial program vision and adjustments from this vision during initial implementation, (2) recruitment processes and application requirements for the graduate teaching fellowship, (3) the framework for development of undergraduate research courses taught by fellows, (4) mentorship web for fellows on the research university campus and technical/community college locations, (5) the lessons learned from semi structured programmatic exit interviews of matriculated fellows, and (6) design for additional professional programming for scholars at the community/technical college locations by the fellows. 

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3. 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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4. Enhancing the Transfer Experience through a Collaborative Cohort Program for Engineering Scholars, Years 3 and 4 of an NSF S-STEM

   Dancz, C. L. ; Adams, E. A. ; Orfi, N. ; Haden, C ; Ahn, Yushin ( June 2023 , American Society for Engineering Education)

   This paper reports on activities and outcomes from years three and four of a 5-year NSF Scholarships in Science, Technology, Engineering and Mathematics (S-STEM) award at a two-year college. The college is a minority-serving institution located in a metro area with high rates of concentrated poverty and low levels of educational attainment. Through the program scholarships are awarded to cohorts of students majoring in engineering selected each fall semester from applications collected the previous spring. After completing transfer preparation curriculum at the two-year college, select scholars who transfer to the local four-year university may remain in the program for continued support. Students in each cohort, including those who remain in the program after transfer, are supported with annual scholarships of up to $6000, depending on financial need. In addition to scholarship money, students participate in a variety of program activities throughout the school year in the form of academic seminars, extracurricular events, professional development, faculty mentoring, peer mentoring, academic advising, and undergraduate research opportunities. Noteworthy elements of the program in years three and four include 1) the selection and award of the fourth and final cohort entering the program, 2) a transition of leadership to a new principal investigator for the program at the two-college, and 3) the increase in number of students who have continued with the program after transfer to the local four-year university. During year three of this five-year program, the first cohort of students successfully transferred and completed a full year at their new four-year university. Supplemental funding has enabled the program to expand support for additional students at both the two-year college and the four-year university after transfer. This has reduced financial burdens and addressed the unanticipated challenge that some students would need more than two years to transfer due to delays brought on by the COVID-19 pandemic. Program evaluation findings identified requests from students that would enhance the program approach and further prepare for transfer. These included establishing a transferred student panel for students preparing to transfer, seminars on maintaining a positive work/life balance and differences in university systems, further support for peer mentorship for both mentors and mentees, and additional opportunities for collaboration across engineering disciplines. Research findings from interviews conducted with transferred students identified several opportunities to further enhance the transfer preparation approach and support structures needed for success at their new institution. These include intentional preparation for establishing membership in a new community, identification of systems and processes for support at their new institution, including how these may differ from their previous institution, and opportunity to serve as a mentor and engage with students preparing to transfer. In addition, in year 4 program leadership transitioned due to a new role at new university and more students support requests of leadership at both the two-year college and the four-year transfer university than originally anticipated. This has resulted in reflection on the program administration and the people and structures that sustain it. This poster will include summaries of scholar activities, transition in and impact on program leadership, program evaluation results, and research findings from the first cohort of students that have transferred and completed a full year at their new institution. 

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5. Equity, Engineering, and Excellence: Pathways to Student Success

   Espiritu, Doris J ; O'Connell, Bridget E ; Potash, D. ( July 2021 , 2021 ASEE Virtual Annual Conference Content Access, Virtual Conference)

   null (Ed.)

   Wright College, an urban open-access community college, independently accredited within the City Colleges of Chicago (CCC) system, is a federally recognized Hispanic-Serving Institution (HSI) with one of the largest community college enrollments of Hispanic students in Illinois. Wright College’s student success rates measured by completion have been strong and improving relative to other national urban community colleges, but are below state and national averages. In 2015 the college piloted a selective guaranteed admission program, Engineering Pathways (EP), to one of the nation’s top engineering schools (The Grainger College of Engineering at the University of Illinois Urbana Champaign, UIUC). Initial results for the small first-year cohort were very positive: 89% transfer rate and all students who transferred to UIUC graduated. The program’s initial success rested on a) cohort model with a small number of students and strong controls; b) co-branding that attracted local students interested in pursuing engineering at UIUC who might not otherwise have enrolled at Wright; c) academic rigor (small class size with Wright College’s curricula matching UIUC); d) robust student support services and structures; and e) a holistic college commitment to equity and inclusive excellence. Wright College obtained a National Foundation Science (NSF)-HSI research grant in 2018 to support the Engineering Pathways. The grant examines EP students’ self-efficacy and sense of belonging. Wright College foregrounds student “belonging” in its equity efforts. Equity work calls for the systemic analysis and tracking of student performance, engagement and participation throughout the student life-cycle, with data-informed analysis of behavior and outcomes through a lens of race, gender and wealth. EP students shared similar racial and ethnic backgrounds as Wright College’s non-engineering students. They attended the same elementary and public schools, have similar family structures, socioeconomic status (SES) and supports. NSF resources assisted Wright College’s creation of a contextualized engineering summer bridge and a more structured pre-engineering program. As enrollment in the EP program increased, the college dedicated additional resources, including faculty, enhanced student support, and guaranteed junior-level transfer to other nearby baccalaureate engineering schools. Central to the effort was significantly greater structure and monitoring of student performance, including academic and support frameworks for non-EP students. Wright College and baccalaureate transfer institutions reviewed and updated articulation agreements. In the Engineering Summer Bridge Program’s first two years, forty-five (45) students who would otherwise have been denied admission to EP are thriving and are positioned to transfer to four-year engineering programs. In this paper, Wright College will review the college’s equity efforts, the structure and implementation of the Engineering Pathways, and the creation of new engineering transfer programs. It will explore visible and invisible barriers to students’ success, contrasting students in Wright College’s EP program with other Wright College students. The authors argue that the systemic pursuit of equity, particularly with a focus on self-efficacy, belonging, and the creation of an environment committed to inclusive excellence, will result in very strong student outcomes. 

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