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1. 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). 

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2. NSF S-STEM EPIC Scholarship Program

   Atwood, Sara A; DeGoede, Kurt (January 2020, ASEE Annual Conference proceedings)

   Results will be presented from a 5-year NSF S-STEM scholarship program for academically talented women in engineering with financial need. Elizabethtown College’s Engineering Practices with Impact Cohort (EPIC) Scholarship program was launched with an NSF S-STEM grant awarded in 2013. The program developed a pathway for academically talented and financially needy women interested in engineering to successfully enter the STEM workforce. The program targeted three critical stages: 1) recruiting talented women into the ABET-accredited engineering program and forming a cohort of scholars,  2) leveraging and expanding existing high impact practices (including an established matriculation program, living-learning community, collaborative learning model, focused mentoring, and undergraduate research) to support women scholars during their college experience, and 3) mentoring scholars as they transitioned to the STEM workforce or graduate programs. The goals of the scholarship program were to increase the number and percent of women entering engineering at our institution and to increase the graduation/employment rate of EPIC scholars beyond that of current engineering students and beyond that of national levels for women engineers.   At the end of this grant, we have roughly doubled the number of women (22.7%) and underrepresented minority students (14%) in the engineering program. This is comparable to the 2016 national average of 20.9% women and 20.6% underrepresented minority bachelor's graduates in engineering. We have also remained at a consistently high level of enrollment and retention of low-income (18.6% Pell-eligible) and first-generation college students (61%). 83% of the scholars have been retained in the engineering program or have graduated with an engineering degree, which is above the institutional and national average. The remaining scholars transferred to another major but have been retained at the institution. All of the scholars participated in a living-learning community, tutoring, focused mentoring, and a women engineers club. Almost all participated in a pre-matriculation program. 17% of the scholars additionally had an undergraduate research experience and 28% studied abroad. 100% of the scholars had engineering workforce jobs or graduate school acceptances at the time of graduation. This program successfully increased the population of underrepresented minority, low-income, and first-generation women entering the engineering workforce.  

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3. Relative Impact of Values-Oriented and Mindset-Oriented Interventions on Academic Success of Introductory Biology Students Attending 2-Year or 4-Year Institutions

   https://doi.org/10.1128/jmbe.00102-22  

   Rollwagen-Bollens, Gretchen; Kibota, Travis; Crosby, Catherine (December 2022, Journal of Microbiology & Biology Education)

   Parks, Samantha T. (Ed.)

   ABSTRACT Diversifying the STEM workforce is a national priority, yet white males continue to dominate the ranks of professional scientists and engineers in the United States. This is partly due to disparities in academic success for women and minoritized students in prerequisite introductory STEM courses, leading to higher attrition from B.S. degree programs. Past research has demonstrated that when social-psychological interventions targeting “stereotype threat” or “fixed” mindsets are implemented in STEM courses, equity gaps may be significantly reduced. We incorporated two such interventions into introductory biology courses for life science B.S. majors and Associate’s degree allied health students taught at a regional research university and a community college. We observed no significant effects of the values-affirmation interventions on grade outcomes for students in any of the courses, regardless of students' gender identity, race/ethnicity, or first-generation status, suggesting that students, on average, were not experiencing stereotype threat on either campus. We found a significant positive association between completing more weekly reflective journal entries and higher mean content-based grades for students in the university majors course overall, especially first-generation students, although the association was significantly negative for women. Our results confirm that context matters when implementing interventions aimed at reducing achievement gaps, and we propose that educators assess their students’ social-psychological characteristics and then select interventions accordingly. 

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4. Online and on-campus transfer students experienced different impacts from the pandemic

   https://doi.org/10.3389/feduc.2023.1067380  

   Ardissone, Alexandria N.; Galindo, Sebastian; Triplett, Eric W.; Drew, Jennifer C. (February 2023, Frontiers in Education)

   The COVID-19 pandemic caused extensive disruption to higher education, highlighting the negative impacts of emergency shift to online instruction. As a result, advantages of intentionally designed, online programs in higher education were overshadowed during the pandemic. Furthermore, socioeconomic disparities were exacerbated during the pandemic which extended to STEM undergraduate transfer students, who are more likely to be low-income, from historically underrepresented groups, older, and first generation in their family to attend college. To better understand the impact of the pandemic on STEM undergraduates, including those in an intentionally designed online program, ordinal regression analysis of 352 student survey respondents enrolled in a life sciences major at a large, R1 institution in the United States spring 2020 through fall 2021 was performed. Three student types are compared: on-campus, first-time in college (FTIC); on-campus transfer (OC-TR); and online transfer (ONL-TR) students. The latter group receives all course delivery online, whereas on-campus student groups received predominately in-person course delivery prior to the pandemic. ONL-TR students were over six times less likely to report negative educational impact compared to on-campus students, FTIC and OC-TR, while controlling for parent education, income, gender, race/ethnicity, and GPA. Additional survey items further explored this result and were validated with academic records and thematic analysis of students’ text responses. A pre−/post-pandemic comparison revealed that students maintained a similar course load and GPA, despite increased perceptions of a lower GPA during the pandemic. OC-TR students were over two times more likely to express increased concern related to delayed graduation and higher frequency of feeling stress compared to FTIC and ONL-TR students. Meanwhile, low-income students were more likely to report stressors due to the pandemic’s impact on daily life, independent of student type. Taken together, students in this intentionally designed online program were more resilient to the educational and emotional impacts of the pandemic compared to on-campus students. The differences between student groups warn against generalization of student impacts and suggest further research into the positive role of online learning, not just for delivery of educational content and expanding access, but for academic and emotional stability for different student populations. 

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5. First-Year Experience (FYrE@ECST): Pre-Physics Course (WIP)

   Li, Ni; Menezes, Gustavo B.; Allen, Emily L; Nerenberg, Paul (April 2018, Proceedings 2018 CONECD Conference)

   The College of Engineering, Computer Science, and Technology (ECST) at California State University, Los Angles, an Hispanic Serving Institution (HSI) with over 60% Hispanic students, is committed to improving graduation rates through the Grad initiative 2025 (the California State University’s initiative to increase graduation rates for all CSU students while eliminating achievement gaps). The majority of our students are under-represented minorities, low-income, Pell-eligible and first generation. Currently, one quarter of the students leaving the major before the second year. Many that “survive” the first two years of math and science do not develop the knowledge and the skills that are needed to succeed in upper division engineering courses, leading to more students unable to finish their engineering majors. Three years ago, we launched a pilot program for the First-Year Experience at ECST (FYrE@ECST) for incoming freshmen. The program focuses on providing academic support for math and physics courses while introducing students to the college community, and comprises a summer bridge program, a hands-on introductory course, cohorted math and science sections, and staff and faculty mentoring. Academic support is provided through peer-led supplemental instruction (SI) workshops. The workshops have led to a significant improvement in student performance in Math, but have had no significant impact in the student performance in physics. Our hypothesis is that students, in addition to having limited understanding of calculus, struggle to understand the fundamental principles of physics and thus cannot apply their knowledge of math to theories in physics to solve problems. This work-in-progress paper describes an inquiry-based hands-on pre-physics course for first-year students as part of the FYrE@ECST program. The course is intended to prepare students for the calculus-based mechanics course in physics and covers about half of the competencies of a classical mechanics course, with focuses on the fundamental concepts of mechanics (i.e. Newton’s Laws, Types of forces, vectors, free-body diagrams, position, velocity and acceleration). Equations are only introduced in the second half of the semester, while the first half is directed to help students develop a deep understanding of these fundamental concepts. During classes, students run simple experiments, watch segments of movies and cartoons and are asked questions (written and orally) which can guide them to think intuitively and critically. A think-pair-share mode of instruction is implemented to promote inquiry and discussion. Students work in groups of five to discuss and solve problems, carry out experiments to better understand processes and systems, and share what they learned with the whole class. The paper presents preliminary results on student achievement. 

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