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1. Board 330: Iron Range Engineering Academic Scholarships for Co-Op Based Engineering Education

   Spence, Catherine M. Siverling (June 2023, Review directory American Society for Engineering Education)

   This project will contribute to the national need for well-educated scientists, mathematicians, engineers, and technicians by supporting the retention and graduation of high-achieving, low-income students with demonstrated financial need at Minnesota State University, Mankato. Over its six year duration, this project will fund scholarships to 120 unique full-time students who are pursuing Bachelor of Science degrees in engineering. First semester junior, primarily transfer, students at Iron Range Engineering will receive scholarships for one semester. The Iron Range Engineering (IRE) STEM Scholars Program provides a financially sustainable pathway for students across the nation to graduate with an engineering degree and up to two years of industry experience. Students typically complete their first two years of engineering coursework at community colleges across the country. Students then join IRE and spend one transitional semester gaining training and experience to equip them with the technical, design, and professional skills needed to succeed in the engineering workforce. During the last two years of their education, IRE students work in industry, earning an engineering intern salary, while being supported in their technical and professional development by professors, learning facilitators, and their own peers. The IRE STEM Scholars project will provide access to a financially responsible engineering degree for low-income students by financially supporting them during the transitional semester, which has two financial challenges: university tuition costs are higher than their previous community college costs, and the semester occurs before they are able to earn an engineering co-op income. In addition, the project will provide personalized mentorship throughout students’ pathway to graduation, such as weekly conversations with a mentor. By providing these supports, the IRE STEM Scholars project aims to prepare students to be competitive applicants for the engineering workforce with career development and engineering co-op experience. Because community colleges draw relatively representative proportions of students from a variety of backgrounds, this project has the potential to learn how transfer pathways and co-op education can support financially sustainable pathways to engineering degrees for a more diverse group of students and contribute to the development of a diverse, competitive engineering workforce. The overall goal of this project is to increase STEM degree completion of low-income, high-achieving undergraduates with demonstrated financial need. As part of the scope of this project, a concurrent mixed-methods research study will be done on engineering students’ thriving, specifically their identity, belonging, motivation, and overall wellbeing (or mental and physical health). Student outcomes have previously been measured primarily through academic markers such as graduation rates and GPA. In addition to these outcomes, this project explores ways to better support overall student thriving. This study will address the following research questions: How do undergraduate students’ engineering identity and belongingness develop over time in a co-op-based engineering program? How do undergraduate students’ motivation and identity connect to overall wellbeing in a co-op-based engineering program? In the first year of the IRE STEM Scholars Project, initial interview data describe scholars’ sense of belonging in engineering, prior to their first co-op experiences and survey data describe IRE students’ experiences in co-op and overall sense of belonging. Future work will utilize these values to identify ways to better support the IRE STEM scholars’ identity development as they move into their first co-op experiences. This project is funded by NSF’s Scholarships in Science, Technology, Engineering, and Mathematics program, which seeks to increase the number of low-income academically talented students with demonstrated financial need who earn degrees in STEM fields. It also aims to improve the education of future STEM workers, and to generate knowledge about academic success, retention, transfer, graduation, and academic/career pathways of low-income students. 

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2. Co-Op Based Engineering Education Model Supporting Students in Engineering Education Deserts

   Spence, Catherine M; Siverling, Emilie; Karlin, Jennifer; James, Eric (October 2023, 2023 IEEE Frontiers in Education (FIE) Conferene)

   Previous work has identified that one third of Americans live in an engineering education desert, or a county without a face-to-face 4-year accredited engineering degree or a two-year face-to-face pre-engineering program, regardless of whether it results in a credential. Iron Range Engineering (IRE) is an upper division engineering program designed to help provide access to individuals who due to financial and/or geographic location would be otherwise unable to participate in engineering. In this paper we present data demonstrating how this model of engineering education supports students from a range of geographical areas by addressing the research questions: Is IRE supporting students from engineering education deserts, are those students returning to their home region with a paid engineering position, and if so, with what income? In 2022, students at IRE were surveyed about their co-op experiences, feelings of belonging, and demographic information. This data was analyzed using descriptive statistics of location, salary, and demographic data. Our data supports the idea of this model of education attracting participation of students who otherwise may not have access to an engineering degree. Of the students in IRE, 67% come from engineering education deserts. Of those, 17 returned to their home state with a co-op and 8 returned to their home county with a paid co-op, at an average salary of $22/hour. Our results contribute to our understanding of engineering education deserts in the United States, and the IRE Bell co-op model as a curricular model to provide access to an affordable engineering degree for students in a wide range of locations. 

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3. Co-Op Based Engineering Education Model Supporting Students in Engineering Education Deserts

   Spence, Catherine M. Siverling (October 2023, Conference proceedings Frontiers in Education Conference)

   Previous work has identified that one third of Americans live in an engineering education desert, or a county without a face-to-face 4-year accredited engineering degree or a two-year face-to-face pre-engineering program, regardless of whether it results in a credential. Iron Range Engineering (IRE) is an upper division engineering program designed to help provide access to individuals who due to financial and/or geographic location would be otherwise unable to participate in engineering. In this paper we present data demonstrating how this model of engineering education supports students from a range of geographical areas by addressing the research questions: Is IRE supporting students from engineering education deserts, are those students returning to their home region with a paid engineering position, and if so, with what income? In 2022, students at IRE were surveyed about their co-op experiences, feelings of belonging, and demographic information. This data was analyzed using descriptive statistics of location, salary, and demographic data. Our data supports the idea of this model of education attracting participation of students who otherwise may not have access to an engineering degree. Of the students in IRE, 67% come from engineering education deserts. Of those, 17 returned to their home state with a co-op and 8 returned to their home county with a paid co-op, at an average salary of $22/hour. Our results contribute to our understanding of engineering education deserts in the United States, and the IRE Bell co-op model as a curricular model to provide access to an affordable engineering degree for students in a wide range of locations. 

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4. Leveraging Innovation and Optimizing Nurturing in STEM: Engineering identities in low-income students across their first year of college

   Hassler, R; Cohan, C; Reitz, D; Larson, J; Delaquito, S; Nathan, R (June 2024, ASEE Document Repository)

   Leveraging Innovation and Optimizing Nurturing in STEM (NSF S-STEM #2130022, known locally as LION STEM Scholars) is a program developed to serve low-income undergraduate Engineering students at Penn State Berks, a regional campus of the Pennsylvania State University. As part of the program, scholars participate in a four-year comprehensive multi- tiered mentoring program and cohort experience. The LION STEM curricular program includes Engineering Ahead (a 4-week summer residential math-intensive bridge program prior to entering college), a first semester First-Year Seminar, and a second semester STEM-Persistence Seminar. Co-curricular activities focus on professional communication skills, financial literacy, career readiness, undergraduate research, and community engagement. The program seeks to accomplish four goals: (1) adapt, implement, and analyze evidence-based curricular and co- curricular activities to support, retain, and graduate a diverse set of the project's engineering scholars, (2) implement, test, and study through research and project evaluation strategies for systematically supporting student academic and career pathways in STEM, including development of STEM identity, (3) contribute to the knowledge base through investigation of the project's four-year multi-modal program so that other colleges may successfully implement similar programs, and (4) disseminate outcomes and findings related to the supports and interventions that promote student success to other institutions working to support low-income STEM students. The purpose of this paper is to analyze data from a repeated-measures design to provide a holistic narrative about the effects that the academic and support activities offered to LION STEM Scholars have on the development of their future-engineer role identity throughout their first year as an undergraduate engineering student. This paper presents data collected from semi- structured (Smith & Osborn, 2007) audio-recorded interviews from the first cohort of LION STEM Scholars (n=7) at three different time points (pre-summer bridge, post-summer bridge, end of first semester) as well as data collected from a written survey at the end of scholars’ second semester. 

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5. A Mentor’s Reflection on Challenges of Practice in a Scholarship Program for Lower-Income Computing Students

   Solis, T; Secules, S; Kumar, N; Georgiopoulos, M (June 2024, 2024 ASEE Annual Conference)

   This paper describes an NSF (National Science Foundation) S-STEM-funded scholarship program, representing a collaborative five-year grant project among three prominent universities in the Southeast region of the United States. Its primary objective is to support dedicated scholars in graduating and finding a professional pathway. Each institution recruited a cohort of 15-20 scholars annually for three years. The project offers scholarships and provides curricular and co-curricular support to academically talented but financially challenged students in the computing disciplines, including Computer Science, Computer Engineering, Cybersecurity, and Information Technology majors, starting from their junior years. The program aims to impact 150 scholars, most of whom are underrepresented in computing. Scholars receive support throughout their graduation and beyond should they pursue graduate studies in a STEM (Science, Technology, Engineering, and Math) discipline at any of the three participating institutions. 

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