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1. What’s Your STEMspiration?: Adaptation and Validation of A Survey Instrument

   https://doi.org/10.3389/feduc.2021.667616  

   Hargraves, Rosalyn Hobson; Morgan, Kristin L.; Jackson, Holly; Feltault, Kelly; Crenshaw, Jasmine; McDonald, Kevin G.; Martin, Marcus L. (May 2021, Frontiers in Education)

   Millions of dollars each year are invested in intervention programs to broaden participation and improve bachelor degree graduation rates of students enrolled in science, technology, engineering, and mathematics (STEM) disciplines. The Virginia–North Carolina Louis Stokes Alliance for Minority Participation (VA-NC Alliance), a consortium of 11 higher education institutions and one federal laboratory funded by the National Science Foundation (NSF), is one such investment., The VA-NC Alliance partners implement evidence-based STEM intervention programs (SIPs) informed by research and specifically designed to increase student retention and graduation rates in STEM majors. The VA-NC Alliance is conducting an Alliance-wide longitudinal research project based in Social Cognitive Career Theory (SCCT) titled “What’s Your STEMspiration?” The goal of the research project is to assess the differentiated impacts and effectiveness of the Alliance’s broadening participation efforts and identify emergent patterns, adding to the field of knowledge about culturally responsive SIPs. In other words, “What’s Your STEMspiration?” explores what influences and inspires undergraduates to pursue a STEM degree and career; and how does the development of a STEM identity support students in achieving their goals. In order to complete this research, the research team developed a survey instrument to conduct the quantitative portion of the study. Two preliminary studies, statistical analysis, and cognitive interviews were used to develop and validate the survey instrument. This paper discusses the theoretical and conceptual frameworks and preliminary studies upon which the survey is built, the methodology used to validate the instrument, and the resulting final survey tool. 

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2. Full Paper:Student Perceptions of Involvement, Identity, and Success in an NSF-funded STEM Access Program at Baylor University

   Jessica Martin; Jana Roste; Austin T. Smith; Shane Michael Meyer; Emma G Cartisano; Emily Sandvall; Andrea Pouso Morales (July 2022, 2022 First-Year Engineering Experience,)

   Full Paper: Involvement, Identity, and Success in an NSF-funded STEM Access Program In the United States, attrition in STEM fields has been a point of growing concern. The National Science Foundation (NSF) funded a variety of programs aimed at bolstering access and success for STEM students (National Academy of Sciences, 2011; Olson & Riordan, 2012). Though few access programs evaluate involvement, student success literature evidences a clear relationship between involvement and success (Astin, 1999; Mayhew et al., 2016). Accordingly, our phenomenological study explored how high-achieving, low-income STEM students in an NSF funded STEM Access Program at Baylor University perceive and experience involvement and success in light of their multiple identities. Baylor University’s ECS Scholars Program currently supports two cohorts of 11 students pursuing degrees in the School of Engineering and Computer Science. As a part of the program, Scholars are engaged in student and faculty mentoring which allows them to meaningfully connect with a support network. In addition, students attend monthly seminars designed to help support their success in and outside of the classroom. These students’ experiences were explored via 60 to 90-minute in-depth, semi-structured interviews. Interviews were transcribed, coded, and themed by the research team. Alternate data collection methods—including campus mapping, photo elicitation, and identity wheel construction exercises—complemented interview data and added additional depth and insight to student statements. Our collective analysis revealed that, in essence, involvement is an arena in which high-achieving, low-income STEM students prioritize and live out salient identities in alignment with their understandings of success. Such findings inform recommendations concerning how faculty and staff may broaden and reframe understandings of involvement to more effectively support the success of STEM students in similar access programs. 

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3. The Endeavour S-STEM Program: A Multi-College Collaboration to Increase Engagement and Retention in STEM

   de la Rosa-Pohl, Diana; Horn, Catherine (July 2021, 2021 ASEE Virtual Annual Conference)

   Background & Program Description: The link between student engagement and retention is well-established in the education literature. As a result, many colleges have developed first-year experience programs to engage students in early technical work and to promote community-building. However, many of these student success programs require participation in extracurricular activities, which require time outside of class. Yet time for extracurricular activities is a luxury that many students of low socioeconomic status (SES) cannot afford due to family or work obligations. The Scholarships in STEM (S-STEM) program, funded by the National Science Foundation, provides crucial financial support to high-achieving low-SES STEM students. The S-STEM scholarships give students the option to work less or not at all. The intended result is that students regain the time afforded to their more privileged peers, thereby also giving them the opportunity to more effectively engage with their institution, studies, and peers. The Endeavour Program is a two-year program that incorporates the S-STEM financial support into a multi-faceted and multi-college program in STEM designed to increase the level of student engagement in school. The scholars, who are recruited from three colleges, take classes together, work on hands-on team projects, attend professional and personal development events, participate in outreach events, and conduct research with faculty mentors. Over the course of the two-year program, four dimensions of student engagement (academic, behavioral, cognitive, and affective) are tracked to determine the appropriateness of using these engagement levels as predictors of success. Results: Two cohorts of 20 students were recruited in the fall of 2017 and in the fall of 2018. The first cohort completed the two-year program in the spring of 2020, and the second cohort began the second year of the program in the fall of 2020. No third cohort was recruited in 2020 due the Covid19 pandemic. The third and fourth cohorts will now enter the program in the fall of 2021 and the fall of 2022 respectively. Overall, the results of the Endeavour Program have been positive. The final retention outcome for the first cohort (the only cohort to complete the program thus far) was 85% (17/20). Retention for the second cohort is currently at 100% (20/20). Initial results show that the S-STEM scholars are performing academically as well as their peers who do not share the same risk factors. In addition, the number of completed hours is also on par with their peers. However, the most significant gains were observed in the qualitative data. Students expressed fears and anxieties about the high school to college transition and reported that the guidance provided and the community formed through the Endeavour Program alleviated many of those negative emotions. The full paper shows student engagement data obtained over time for the first and second cohorts as well as lessons learned and directions for future work. Also, examples of advising charts created in an engagement data dashboard show how the quantitative engagement data has been compiled and organized to show early warning signs for current and future cohorts. 

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4. Work in Progress: NSF S-STEM Program: Recruitment, Engagement, and Retention: Energizing and Supporting Students with Diverse Backgrounds in Mechanical Engineering

   Jamie R. Gurganus, Liang Zhu (June 2019, ASEE annual conference & exposition)

   Recognizing current and future needs for a diverse skilled workforce in mechanical engineering and the rising cost of higher education that acts as a barrier for many talented students with interests in engineering, the NSF funded S-STEM project at a state university focuses resources and research on financial support coupled with curricular and co-curricular activities designed to facilitate student degree attainment, career development, and employability in STEM-related jobs. This program has provided enhanced educational opportunities to more than 90 economically disadvantaged and academically talented undergraduate students in the Mechanical Engineering Department in the past eight years. It is expected that approximately 45 academically talented and financially needy students, including students transferring from community colleges to four-year engineering programs will receive scholarship support in the next 5 years, with an average amount of $6,000 per year for up to four years to earn degrees in mechanical engineering at the University of Maryland Baltimore County (UMBC). Through scholarships and supplemental support services, this program promotes full-time enrollment and will elevate the scholastic achievement of the S-STEM scholars, with a special emphasis on females and/or underrepresented minorities. It will provide a holistic and novel educational experience combining science, engineering, technology and medicine to improve student retention and future career prospects. The project builds on an established partnership between the state university and community colleges to improve and investigate the transfer experience of community college students to four-year programs, student retention at the university, and job placement and pathways to graduate school and employment. A mixed methods quantitative and qualitative research approach will examine the implementation and outcomes of proactive recruitment; selected high impact practices, such as orientation, one-to-one faculty mentoring, peer mentoring, and community building; participation by students in research-focused activities, such as research seminars and undergraduate experiences; and participation by students in career and professional development activities. In this paper, preliminary data will be presented discussing the attitudes and perceptions of the s-stem scholars and comparing students in scholarly programs and non-programmed situations. This research was supported by an NSF S-STEM grant (DUE-1742170). 

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5. NSF S-STEM Program: Recruitment, Engagement, and Retention: Energizing and Supporting Students with Diverse Backgrounds in Mechanical Engineering (Work-in-Progress)

   Jamie R. Gurganus, Liang Zhu (June 2019, ASEE annual conference & exposition)

   Recognizing current and future needs for a diverse skilled workforce in mechanical engineering and the rising cost of higher education that acts as a barrier for many talented students with interests in engineering, the NSF funded S-STEM project at a state university focuses resources and research on financial support coupled with curricular and co-curricular activities designed to facilitate student degree attainment, career development, and employability in STEM-related jobs. This program has provided enhanced educational opportunities to more than 90 economically disadvantaged and academically talented undergraduate students in the Mechanical Engineering Department in the past eight years. It is expected that approximately 45 academically talented and financially needy students, including students transferring from community colleges to four-year engineering programs will receive scholarship support in the next 5 years, with an average amount of $6,000 per year for up to four years to earn degrees in mechanical engineering at the University of Maryland Baltimore County (UMBC). Through scholarships and supplemental support services, this program promotes full-time enrollment and will elevate the scholastic achievement of the S-STEM scholars, with a special emphasis on females and/or underrepresented minorities. It will provide a holistic and novel educational experience combining science, engineering, technology and medicine to improve student retention and future career prospects. The project builds on an established partnership between the state university and community colleges to improve and investigate the transfer experience of community college students to four-year programs, student retention at the university, and job placement and pathways to graduate school and employment. A mixed methods quantitative and qualitative research approach will examine the implementation and outcomes of proactive recruitment; selected high impact practices, such as orientation, one-to-one faculty mentoring, peer mentoring, and community building; participation by students in research-focused activities, such as research seminars and undergraduate experiences; and participation by students in career and professional development activities. In this paper, preliminary data will be presented discussing the attitudes and perceptions of the s-stem scholars and comparing students in scholarly programs and non-programmed situations. This research was supported by an NSF S-STEM grant (DUE-1742170). 

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