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1. Future Career Pathway Perceptions of Lower-Income Computing Students Through the Lens of Capital Exchange

   Bond-Trittipo, B.; Kumar, N.; Secules, S.; Solis, T (July 2022, The 2022 Annual Conference and Exposition)

   Prior scholarship on broadening participation in undergraduate computing education has made important contributions to supporting underrepresented students’ identity development and persistence. However, the specific experiences of low-income students are underexplored, and the critical juncture between undergraduate education and career or graduate school pathways are as well. For scholarship support programs to make a further impact on broadening participation in computing, it is critical to know low-income students’ viewpoints on the barriers, risks, and opportunities associated with different career pathways that influence their post-graduation plans. Our research seeks to better understand the future career pathway perceptions of low-income undergraduate computing students. We explore students’ perceptions of three specific pathways: pursuing a graduate degree, working for a large company, and becoming an entrepreneur. This study utilizes Bourdieu’s conception of economic capital, cultural capital, and social capital to understand low-income students’ perceptions of their future career pathways. This study is a part of a National Science Foundation-funded program that provides need-based scholarships, internship connections, research opportunities, and entrepreneurial education to low-income students pursuing a bachelor’s degree in computer science, information technology, cybersecurity, or computer engineering. The program includes three large, public universities in the Southeast United States and was launched in September 2021. We conducted semi-structured interviews with 16 participants from one of the participating universities to gather information about their perceptions of professional, graduate school, and entrepreneurial career pathways. The interviews were transcribed verbatim and analyzed using thematic coding. We found that the majority of our low-income participants plan to work for a large technology-focused company immediately after graduation. However, some participants indicated that the program’s scholarship, which covers up to two years of graduate education in a computing field, gives them the ability to consider pursuing a master’s degree between completing their bachelor’s degree and entering the workforce. Additionally, though many participants expressed that the idea of becoming an entrepreneur is appealing, the financial risks associated with entrepreneurship deter them from considering this career pathway themselves. Ultimately, our findings suggest that financial stability is a crucial consideration for low-income computing students as they contemplate their future goals. The participants’ responses demonstrate the importance of need-based financial aid and internship connections for low-income computing students. Furthermore, our findings indicate that intervention programs that aim to support low-income students’ career development should be more sensitive to the unique perspectives and financial concerns of low-income students when they promote graduate school and entrepreneurial pathways. 

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2. Future Career Pathway Perceptions of Lower-Income Computing Students Through the Lens of Capital Exchange

   Bond, B.; Kumar, N.; Secules, S.; Solis, T. (April 2022, American Society for Engineering Education Annual Meeting, Computing Education Division)

   Prior scholarship on broadening participation in undergraduate computing education has made important contributions to supporting underrepresented students’ identity development and persistence. However, the specific experiences of low-income students are underexplored, and the critical juncture between undergraduate education and career or graduate school pathways are as well. For scholarship support programs to make a further impact on broadening participation in computing, it is critical to know low-income students’ viewpoints on the barriers, risks, and opportunities associated with different career pathways that influence their post-graduation plans. Our research seeks to better understand the future career pathway perceptions of low-income undergraduate computing students. We explore students’ perceptions of three specific pathways: pursuing a graduate degree, working for a large company, and becoming an entrepreneur. This study utilizes Bourdieu’s conception of economic capital, cultural capital, and social capital to understand low-income students’ perceptions of their future career pathways. This study is a part of a National Science Foundation-funded program that provides need-based scholarships, internship connections, research opportunities, and entrepreneurial education to low-income students pursuing a bachelor’s degree in computer science, information technology, cybersecurity, or computer engineering. The program includes three large, public universities in the Southeast United States and was launched in September 2021. We conducted semi-structured interviews with 16 participants from one of the participating universities to gather information about their perceptions of professional, graduate school, and entrepreneurial career pathways. The interviews were transcribed verbatim and analyzed using thematic coding. We found that the majority of our low-income participants plan to work for a large technology-focused company immediately after graduation. However, some participants indicated that the program’s scholarship, which covers up to two years of graduate education in a computing field, gives them the ability to consider pursuing a master’s degree between completing their bachelor’s degree and entering the workforce. Additionally, though many participants expressed that the idea of becoming an entrepreneur is appealing, the financial risks associated with entrepreneurship deter them from considering this career pathway themselves. Ultimately, our findings suggest that financial stability is a crucial consideration for low-income computing students as they contemplate their future goals. The participants’ responses demonstrate the importance of need-based financial aid and internship connections for low-income computing students. Furthermore, our findings indicate that intervention programs that aim to support low-income students’ career development should be more sensitive to the unique perspectives and financial concerns of low-income students when they promote graduate school and entrepreneurial pathways. 

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3. Future Career Pathway Perceptions of Lower-Income Computing Students Through the Lens of Capital Exchange

   Bond, B.; Kumar, N.; Secules, S.; Solis, T. (June 2022, American Society for Engineering Education Annual Meeting, Computing Education Division)

   Prior scholarship on broadening participation in undergraduate computing education has made important contributions to supporting underrepresented students’ identity development and persistence. However, the specific experiences of low-income students are underexplored, and the critical juncture between undergraduate education and career or graduate school pathways are as well. For scholarship support programs to make a further impact on broadening participation in computing, it is critical to know low-income students’ viewpoints on the barriers, risks, and opportunities associated with different career pathways that influence their post-graduation plans. Our research seeks to better understand the future career pathway perceptions of low-income undergraduate computing students. We explore students’ perceptions of three specific pathways: pursuing a graduate degree, working for a large company, and becoming an entrepreneur. This study utilizes Bourdieu’s conception of economic capital, cultural capital, and social capital to understand low-income students’ perceptions of their future career pathways. This study is a part of a National Science Foundation-funded program that provides need-based scholarships, internship connections, research opportunities, and entrepreneurial education to low-income students pursuing a bachelor’s degree in computer science, information technology, cybersecurity, or computer engineering. The program includes three large, public universities in the Southeast United States and was launched in September 2021. We conducted semi-structured interviews with 16 participants from one of the participating universities to gather information about their perceptions of professional, graduate school, and entrepreneurial career pathways. The interviews were transcribed verbatim and analyzed using thematic coding. We found that the majority of our low-income participants plan to work for a large technology-focused company immediately after graduation. However, some participants indicated that the program’s scholarship, which covers up to two years of graduate education in a computing field, gives them the ability to consider pursuing a master’s degree between completing their bachelor’s degree and entering the workforce. Additionally, though many participants expressed that the idea of becoming an entrepreneur is appealing, the financial risks associated with entrepreneurship deter them from considering this career pathway themselves. Ultimately, our findings suggest that financial stability is a crucial consideration for low-income computing students as they contemplate their future goals. The participants’ responses demonstrate the importance of need-based financial aid and internship connections for low-income computing students. Furthermore, our findings indicate that intervention programs that aim to support low-income students’ career development should be more sensitive to the unique perspectives and financial concerns of low-income students when they promote graduate school and entrepreneurial pathways. 

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4. Work in Progress: H-AGEP - A Model to Improve the Preparation and Transition for Hispanic STEM Doctoral Students into Community College Faculty Positions

   https://doi.org/10.18260/1-2--35641  

   Velez-Reyes, Miguel; Aklog, Fenot; Horton, Dawn; Mejia, Yajaira; Santiago, Ivonne; González, Jorge; Sivils, Jeff; Meeuwsen, Harry; Moshary, Fred; Barba, Joseph (June 2020, 2020 ASEE Virtual Annual Conference Content Access)

   This work in progress paper presents an overview of the Hispanic Alliance for the Graduate Education and the Professoriate (H-AGEP) program. H-AGEP is working on developing and implementing a new model to improve the preparation and transition of Hispanic STEM doctoral students into community college faculty positions. The partnership is a collaborative effort between the City College of New York (CCNY) (lead institution) and The University of Texas at El Paso (UTEP) along with a group of partner community colleges: LaGuardia Community College, Queensborough Community College, and El Paso Community College. The H-AGEP model consists of three main elements: (1) a training and mentoring program for effective STEM teaching at community colleges; (2) a training program for effective mentoring of community college students in STEM research; and (3) a professional development program to address career preparation, transitioning, and advancement at academic careers in community colleges. H-AGEP research goals are: (1) to consider the collected evaluation and research data to determine what intervention activities are most impactful, and (2) to better understand the career-decision making process of Hispanic STEM doctoral students regarding whether they will seek employment at community colleges and other two-year institutions. An interesting aspect of the partnership is that the institutions in El Paso, Texas, serve primarily a Mexican-American student population while the New York institutions serve primarily a Hispanic population of Caribbean origin. This provides the unique opportunity to compare Hispanic students from both groups. The program evaluation: (1) documents and provides feedback on H-AGEP activities and model implementation; and (2) assesses the extent to which H-AGEP is achieving its intended outcomes. Assessment results on the first cohort of students in the program show the value of including community college faculty as career and teaching mentors in the program. Furthermore, the effect of model interventions in students from the first cohort show positive advances in improving teaching skills, increasing student professional networks, and increasing interest and awareness in careers at community college. 

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5. Enhancing the Success of Minority STEM Students by Providing Financial, Academic, Social, and Cultural Capital

   Enriquez, A. G.; Lipe, C. B.; Price, B. (June 2017, ASEE annual conference & exposition)

   Research has shown that student achievement is influenced by their access to, or possession of, various forms of capital. These forms of capital include financial capital, academic capital (prior academic preparation and access to academic support services), cultural capital (the attitudes, knowledge, and behaviors related to education which students are exposed to by members of their family or community), and social capital (the resources students have access to as a result of being members of groups or networks). For community college students, many with high financial need and the first in their families to go to college (especially those from underrepresented minority groups), developing programs to increase access to these various forms of capital is critical to their success. This paper describes how a small federally designated Hispanic-serving community college has developed 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. Developed through a National Science Foundation Scholarships in Science, Technology, Engineering, and Mathematics (S-STEM) grant, the program involves a collaboration among STEM faculty, college staff, administrators, student organizations, and partners in industry, four-year institutions, local high schools, and professional organizations. In addition to providing financial support through the scholarships, student access to academic capital is increased through an intensive math review program, tutoring, study groups, supplemental instruction, and research internship opportunities. Access to cultural and social capital is increased by providing scholars with faculty mentors; engaging students with STEM faculty, university researchers, and industry professionals through field trips, summer internships, professional organizations, and student clubs; supporting student and faculty participation at professional conferences, and providing opportunities for students and their families to interact with faculty and staff. The paper details the development of the program, and its impact over the last five years on enhancing the success of STEM students as determined from data on student participation in various program activities, student attitudinal and self-efficacy surveys, and academic performance including persistence, retention, transfer and graduation. 

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