More Like this

1. Board 317: Institutional Practices to Close the Equity Gap

   https://doi.org/10.18260/1-2--46896  

   Cline, EC; Dillon, Heather; Sesko, Amanda; Nahmani, Marc; Kmail, Zaher; Dinglasan-Panlilio, Joyce; Lee, Seung-Jin; Cilli-Turner, Emily; Björling, Elin (June 2024, ASEE Conferences)

   The S-STEM supported program “Achieving Change in our Communities for Equity and Student Success” (ACCESS) in STEM started at the University of Washington Tacoma in 2018 and has supported 108 students over 6 cohorts. University of Washington Tacoma has been designated an Asian American and Native American Pacific Islander-serving institution (AANAPISI) due to our high proportion of racial minority and first generation college students. The program is multidisciplinary across STEM majors including Mathematics, Environmental Science, Biomedical Sciences, Information Technology, Computer Science and Systems, Computer Engineering and Systems, Electrical Engineering, Mechanical Engineering, and Civil Engineering, with Computer Science, IT and Engineering representing 65% of ACCESS scholars to date. Program scholars receive full scholarships for their first two years, and partial scholarships for their third and fourth years. We provide a summer bridge precalculus or research experience course, and project-based Introduction to Engineering or Introduction to Research courses in students’ first year. Individual faculty mentoring, an on-campus STEM living learning community,and quarterly Success in STEM seminar courses help scholars form a cohesive community through group mentoring, to promote a sense of belonging, identity, and empowerment in the STEM community. Our S-STEM program is distinctive in focusing on pre-STEM majors in their first and second years on campus to facilitate the entry into STEM majors, and we provide mentor training for ~30-40 faculty in teaching and mentoring diverse student populations, thus impacting all students in our majors. Our goal was to evaluate how retention and academic success of our program scholars was impacted by the program, and whether this program helps to close equity gaps for students who identify as low socioeconomic status, underrepresented minorities, women or non-binary, or first generation in college . We also evaluated the impact of the program for students before, during, and after the Covid-19 pandemic. We compared our program scholars to a comparison group of students who met eligibility requirements but did not participate in the program. Overall, program scholars had higher first and second year retention, and significantly higher GPAs, particularly for individuals belonging to groups that are historically underrepresented in STEM. Retention was markedly higher for program scholars during the pandemic, suggesting that the program may have been particularly impactful for students as they endured the emotional and financial stresses of the pandemic. 

   more » « less
2. Promoting Academic Success of Economically Disadvantaged, STEM-Interested, First- and Second-Year Undergraduate Students via the ACCESS in STEM Program at University of Washington Tacoma

   Cline, E.T. (July 2021, Understanding Interventions Journal)

   We are facing a national challenge of low retention rates for STEM-interested students. At the University of Washington Tacoma (UWT), a public, predominantly undergraduate, minority-serving institution (Asian-American, Native American, Pacific Islander, AANAPISI), only 28% of high achieving (high school GPA>3.0), STEM-interested at entry, Pell-eligible, first-time-in-college (FTIC) students undergraduates have entered a STEM major by the beginning of their 2nd yr, and the proportion is significantly lower for PEERs (persons excluded from STEM due to ethnicity or race [Asai, 2020]) at only 16%, representing a substantial equity gap. To address this problem, we developed the Achieving Change in our Communities for Equity and Student Success (ACCESS) in STEM Program. Supported by an NSF S-STEM grant since 2018, the program supports low-income, STEM-interested students by providing focused mentoring, a living learning community, a course-based research experience in their first year, and scholarships in their first two years of college. Based on the Student Persistence model of Graham et al. (2013), we hypothesized that these interventions would increase retention, academic performance, and progress into and through STEM majors. Our approach builds upon existing research demonstrating the importance of early research experiences (Thiry et al., 2012) and intensive mentoring and community building, particularly in the context of AANAPISI institutions (Nguyen et al., 2018). 

   more » « less
3. BOARD # 380: Innovative and Meaningful Mentoring to Enhance Retention, Success, and Engagement in STEM, an NSF S-STEM project

   https://doi.org/10.18260/1-2--55753  

   Hein, Emilie; Hough, Rick (June 2025, ASEE Conferences)

   Innovative and Meaningful Mentoring to Enhance Retention, Success, and Engagement (IMMERSE) in STEM supports the retention and graduation of high-achieving, low- income students with demonstrated financial need at Skyline College, a two-year Hispanic Serving Institution situated in Silicon Valley, a hub of STEM innovation with many high-demand jobs. Over its 5-year duration, this project will fund 90 scholarships to at least 30 students who are advancing toward an associate degree or transfer to a four-year university to earn a degree in Biology, Biotechnology, Chemistry, Computer Science, Engineering, Mathematics, or Physics. IMMERSE in STEM is now in its second year and has supported 25 scholars, including 4 who have transferred to a 4-year university. All students receive up to three years of support. In addition to scholarships, the project incorporates a transformative approach to mentoring, and innovative supports intended to address financial and academic barriers. All participating students engage in a comprehensive set of evidence-based co-curricular services designed to support their persistence, completion, and transfer. Faculty mentors are trained on innovative and effective approaches to student retention and success, such as the implementation of ePortfolios. The overall goal of this project is to increase the STEM degree completion of low-income, high- achieving undergraduates with demonstrated financial need. There are three specific aims: 1) leverage existing high-impact, evidence-based processes already implemented on campus (such as ePortfolios and undergraduate research opportunities); 2) implement a cohesive multi-layer mentorship program to increase retention, student success, and graduation of scholars; 3) expand industry partnerships in association with workforce development programs to support the scholars’ academic and career opportunities with mentoring and internships. The high cost of attendance in the San Francisco Bay Area leads to high unmet financial needs, and leads students to seek part-time or full-time employment while they are in college. By combining financial assistance with specific practices, such as multi-tiered mentoring, ePortfolio adoption or participation in co-curricular activities, we have observed the impact on the retention and success rates of underrepresented minorities in STEM. This work is supported by the NSF S-STEM program under award number 2221696. 

   more » « less
4. 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. 

   more » « less
5. Using Financial Support to Create a Learning Community Among Diverse Community College STEM Students

   Enriquez, A. G.; Lipe, C. B. (June 2012, ASEE annual conference & exposition)

   Although many California Community College students from underrepresented groups enter college with high levels of interest in science, technology, engineering, and mathematics (STEM), the majority of them drop out or change majors even before taking transfer-level courses due to a variety of reasons including financial difficulties, inadequate academic preparation, lack of family support, poor study skills, and inadequate or ineffective academic advising and mentoring. In 2009, Cañada College, a federally designated Hispanic-serving institution in the San Francisco Bay Area, received a National Science Foundation Scholarships in Science, Technology, Engineering, and Mathematics (S-STEM) grant to develop a scholarship program for financially needy community college students intending to transfer to a four-year institution to pursue a bachelor’s degree in a STEM field. In collaboration with the College’s Mathematics, Engineering, and Science Achievement (MESA) program – an academic, personal, and professional support structure has been designed and implemented to maximize the likelihood of success of these students. This support structure aims to create a learning community among the scholars through a combination of academic counseling and mentoring, personal enrichment and professional development opportunities, and strong academic support services. This paper describes how faculty, staff, administrators, alumni, student organizations, and partners in industry, four-year institutions, and professional organizations can be involved in creating an academic infrastructure that promotes academic excellence, leadership skills, and personal and professional growth among the diversity of financially needy STEM students in a community college. 

   more » « less