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1. Urban STEM Collaboratory After Two Years: A Multi-institutional Approach to the Success of Financially Disadvantaged Students

   Ivey, S; Campbell, J; Robinson, A; Stewart, CO; Russomanno, D J; Alfrey, K; Chase, T; Darbeheshti, M; Howland_Cummings, M; Goodman, K (September 2023, Journal of STEM Education)

   The Urban STEM Collaboratory is a five-year project sponsored by the National Science Foundation (NSF) that addresses challenges to student success in STEM disciplines through a multi-institutional collaboration via the University of Memphis (UofM), University of Colorado Denver (CU Denver), and Indiana University--Purdue University Indianapolis (IUPUI). Study groups, tutoring, peer and faculty mentoring, and career exploration programs are being used across the three campuses to increase the participants’ commitment to a STEM field. Innovative features from Course Networking (CN) software are being deployed to provide scholars with evidence of their learning journey while expanding a meaningful academic cloud-based social network. This paper extends a previous introductory ASEE conference paper titled: “Launching the Urban STEM Collaboratory,” (Goodman et al., 2020), which outlined the initial efforts of the tri-campus collaboration. The purpose of the present paper is to summarize the impact of the project, including data analysis of effectiveness, for Year 1: 2019-2020 and Year 2: 2020-2021. Although still in progress, with the longitudinal efficacy of several of the project’s components undetermined, the project’s organizational structure, activities, and findings to date should be of value to others conducting or proposing projects with similar goals. 

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2. Launching the Urban STEM Collaboratory

   Goodman, K Ivey (July 2020, ASEE annual conference)

   The Urban STEM Collaboratory is a tri-institution collaboration of University of Memphis (UofM), University of Colorado Denver (CU Denver), and Indiana University Purdue University Indianapolis (IUPUI). Each of the three partner universities is embedded in a large city, and serves similar student populations, i.e. students who tend to be first generation, minorities, and/or commuters. These universities encounter similar challenges in first-year retention and graduation rates, especially in the STEM disciplines. As they strive to improve the first year engineering and/or mathematics student experience at their campuses, they have engaged in different approaches; including Peer Led Team Learning (PLTL), formation of an Engineering Learning Community (ELC), and engaging students in outreach as STEM Ambassadors. Incorporating these individual strengths with new activities that will be shared across institutions, the team is currently embarking on a multi-year research project to uncover how students develop STEM identity in an urban context, identify interventions that support this development, and determine the impact that STEM identity has on student success. Through the support of an NSF S-STEM grant, the three universities are also providing scholarships to students engaged in the project. Here, we share the initial efforts of our tri-campus interaction and collaboration, our overarching goals, our systems of recruiting students, and our initial collection of preliminary data and findings for Year 1. 

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3. Launching the Urban STEM Collaboratory

   https://doi.org/10.18260/1-2--34894  

   Goodman, Katherine; Ivey, Stephanie; Stewart, Craig; O'Brien, Shani; Darbeheshti, Maryam; Schupbach, William; Alfrey, Karen (June 2020, 2020 ASEE Annual Conference & Exposition)

   The Urban STEM Collaboratory is a tri-institution collaboration of (school 1), (school 2), and (school 3). Each of the three partner universities is embedded in a large city, and serve similar student populations, i.e. students who tend to be first generation, minorities, older, and/or commuting to campus. These universities encounter similar challenges in first-year retention and graduation rates, especially in the STEM disciplines. As they strive to improve the first year engineering and/or mathematics student experience at their campuses, they have engaged in different approaches; including Peer Led Team Learning (PLTL), formation of an Engineering Learning Community (ELC), and engaging students in outreach as STEM Ambassadors. Incorporating these individual strengths with new activities that will be shared across institutions, the team is currently embarking on a multi-year research project to uncover how students develop STEM identity in an urban context, identify interventions that support this development, and determine the impact that STEM identity has on student success. Through the support of an NSF S-STEM grant, the three universities are also providing scholarships to students engaged in the project. Here, we share the initial efforts of our tri-campus interaction and collaboration, our overarching goals, our systems of recruiting students, and our initial collection of preliminary data and findings for Year 1. 

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4. Board 192: A Support System for Low-Income Students to Catalyze Diversity and Success

   https://doi.org/10.18260/1-2--46757  

   Mallouk, Kaitlin; Cruz, Juan; Farrell, Stephanie; Riley, Abagael (June 2024, ASEE Conferences)

   There is substantial opportunity for engineering graduates to enter the workforce to engage in a fulfilling career and achieve social mobility, but there is a lack of adequate support for low income, academically talented students. The purpose of this poster is to describe the interventions designed to support S-STEM scholarship students at [blinded for review] University in the first year of our S-STEM project. Our S-STEM project objectives are threefold: 1) Provide scholarships to encourage talented students with low incomes and demonstrated financial need to initiate and graduate from engineering majors in the College of Engineering at [blinded] University and subsequently enter the engineering workforce or a graduate program; 2) Develop a support system that integrates multiple elements and services to foster a learning environment that motivates scholarship students to persist in their engineering studies; and 3) Foster an inclusive learning environment by engaging all engineering students in diversity, equity, and inclusion experiences and nurturing an equity mindset in student leaders through participation in training programs. To accomplish these goals, we identified 10 low-income, academically talented students to receive scholarships. We also identified 80 additional engineering students who wished to participate in the Engineering Living/Learning Community (ELC). The scholarships students and other interested students were placed in the ELC starting in Fall 2023, where they are experiencing first year engineering as a cohort. This cohort experience includes required seminars, required attendance of Engineering I and Calculus I in a designated section, and the option of living in a shared dorm to facilitate further collaboration. Seminars that are part of the ELC are focused on adjusting to college life (e.g., time management, course registration, resume design) and diversity, equity, and inclusion subjects, including upstander training and coping with imposter syndrome. Scholarship students are also being encouraged to engage in leadership training offered through the University. This leadership training also focuses on DEI topics, and encourages students to be informed advocates. Finally, this project is assessed by an external evaluator to determine the project’s impact on students’ motivation, sense of belonging, and their equity mindset. Evaluation data involve pre- and post-surveys of all first-year engineering students, and focus groups of project leaders, ELC mentors, scholarship students, and other engineering students. 

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5. Advanced Manufacturing Curriculum Development in Ohio High Schools and Community Colleges

   Sarder, MD (May 2024, IISE Annual Conference 2024)

   There is a huge lack of qualified personnel in advanced manufacturing in the U.S. Midwest stemming from a lack of student interest compounded with a lack of experienced teachers who usually motivate students. This paper describes the findings of an NSF RET project at Bowling Green State University that successfully addresses the common need to produce STEM graduates in the advanced manufacturing area. The NSF-RET project’s unique hands-on research experience combined with local industry collaboration prepare future STEM teachers, who can interject research experience in a classroom learning and tie that with the real-world implementations. The project cements the partnership among BGSU, local high schools, and community colleges in Ohio to address the common need of producing STEM graduates in advanced manufacturing area. This project addresses the workforce needs by producing competent high schools and community college educators, who are capable to blend research with educational activities at their institutions, motivate students for STEM degrees, and build long-term collaborative partnerships in the region. This project focused on two goals: (1) explore a sustainable educational model that connects high schools, community colleges, university, and industry; and (2) play a transformational role in preparing future leaders in advanced manufacturing. This paper explains the need, scope, and nature of the curriculum development process through engaging K-14 educators. This paper will share some of their successful research projects, how they translated their research into actionable curriculum modules, and some lessons learned from implementations. 

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