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1. UNPREPARED SPACES: A LONGITUDINAL EXAMINATION OF BLACK AND LATINÉ STUDENTS’ FIRST YEAR IN DOCTORAL ENGINEERING PROGRAMS

   https://doi.org/10.1615/JWomenMinorScienEng.2025051386  

   Artiles, Mayra S; Rivera, Abimelec Mercado; Cruz, Juan M (April 2025, Journal of Women and Minorities in Science and Engineering)

   Increases in the representation of Black and Latiné students in doctoral engineering programs over the past decades have not yet led to long-term success in achieving parity with the population's demographics. Although graduation rates show such students are recruited to such programs, they remain underrepresented due to their early departure due to unreconcilable differences in institutional cultures being exclusive of their identities. Although the socialization experiences of first-year doctoral students can predetermine their success or failure, scant research has looked at Black and Latiné students in engineering programs. This longitudinal qualitative case study explores the first-year program experiences of such students and how their minority identities influenced theirsocialization. We present the experiences of sixteen engineering graduate students from variousinstitutions who met in virtual focus groups throughout their first year. We found that Black and Latiné students' racial-ethnic identities influence how they experience the first year of their doctorate.This influence extends from how they perceive their sense of belonging and qualification to be in such programs to how and where they seek support when facing racialized experiences. Moreover, participants shared how their programs were not equipped to support their identities and potential contributions to their fields. These findings are key to the engineering context, where representation is starkly limited for these students. Our implications for institutions focus on the needed cultural shifts to ultimately diminish the barriers that Black and Latiné students face while pursuing doctoraldegrees. 

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2. Impacts Resulting from a Large-Scale First-Year Engineering and Computer Science Program on Students’ Successful Persistence Toward Degree Completion

   Ragusa, Gisele; Allen, Emily L.; Menezes, Gustavo B. (June 2020, ASEE Annual Conference Proceedings 2020)

   There is a critical need for more students with engineering and computer science majors to enter into, persist in, and graduate from four-year postsecondary institutions. Increasing the diversity of the workforce by inclusive practices in engineering and science is also a profound identified need. According to national statistics, the largest groups of underrepresented minority students in engineering and science attend U.S. public higher education institutions. Most often, a large proportion of these students come to colleges and universities with unique challenges and needs, and are more likely to be first in their family to attend college. In response to these needs, engineering education researchers and practitioners have developed, implemented and assessed interventions to provide support and help students succeed in college, particularly in their first year. These interventions typically target relatively small cohorts of students and can be managed by a small number of faculty and staff. In this paper, we report on “work in progress” research in a large-scale, first-year engineering and computer science intervention program at a public, comprehensive university using multivariate comparative statistical approaches. Large-scale intervention programs are especially relevant to minority serving institutions that prepare growing numbers of students who are first in their family to attend college and who are also under-resourced, financially. These students most often encounter academic difficulties and come to higher education with challenging experiences and backgrounds. Our studied first-year intervention program, first piloted in 2015, is now in its 5th year of implementation. Its intervention components include: (a) first-year block schedules, (b) project-based introductory engineering and computer science courses, (c) an introduction to mechanics course, which provides students with the foundation needed to succeed in a traditional physics sequence, and (d) peer-led supplemental instruction workshops for calculus, physics and chemistry courses. This intervention study responds to three research questions: (1) What role does the first-year intervention’s components play in students’ persistence in engineering and computer science majors across undergraduate program years? (2) What role do particular pedagogical and cocurricular support structures play in students’ successes? And (3) What role do various student socio-demographic and experiential factors play in the effectiveness of first-year interventions? To address these research questions and therefore determine the formative impact of the firstyear engineering and computer science program on which we are conducting research, we have collected diverse student data including grade point averages, concept inventory scores, and data from a multi-dimensional questionnaire that measures students’ use of support practices across their four to five years in their degree program, and diverse background information necessary to determine the impact of such factors on students’ persistence to degree. Background data includes students’ experiences prior to enrolling in college, their socio-demographic characteristics, and their college social capital throughout their higher education experience. For this research, we compared students who were enrolled in the first-year intervention program to those who were not enrolled in the first-year intervention. We have engaged in cross-sectional 2 data collection from students’ freshman through senior years and employed multivariate statistical analytical techniques on the collected student data. Results of these analyses were interesting and diverse. Generally, in terms of backgrounds, our research indicates that students’ parental education is positively related to their success in engineering and computer science across program years. Likewise, longitudinally (across program years), students’ college social capital predicted their academic success and persistence to degree. With regard to the study’s comparative research of the first-year intervention, our results indicate that students who were enrolled in the first-year intervention program as freshmen continued to use more support practices to assist them in academic success across their degree matriculation compared to students who were not in the first-year program. This suggests that the students continued to recognize the value of such supports as a consequence of having supports required as first-year students. In terms of students’ understanding of scientific or engineering-focused concepts, we found significant impact resulting from student support practices that were academically focused. We also found that enrolling in the first-year intervention was a significant predictor of the time that students spent preparing for classes and ultimately their grade point average, especially in STEM subjects across students’ years in college. In summary, we found that the studied first-year intervention program has longitudinal, positive impacts on students’ success as they navigate through their undergraduate experiences toward engineering and computer science degrees. 

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3. From Proving to Connecting: The Shifting Nature of Belonging in the First Year of Minoritized US Doctoral Engineering Students

   https://doi.org/10.5281/zenodo.17631851  

   Artiles, M S; Matusovich, H M; Cruz, J M; Adams, S (September 2025, Zenodo)

   The first year of doctoral study is a critical period for students' academic formation and persistence, especially in engineering disciplines where early integration into research and advising relationships is expected. In the US, for Black and Latiné students—groups historically underrepresented in engineering—this period can be critical as they navigate systemic inequities and social isolation. This longitudinal qualitative study explores how a sense of belonging manifests and evolves for minoritized engineering doctoral students during their first year in U.S. programs. Drawing on focus group data collected across eight sessions with sixteen students from a national summer bridge program, we identify two dominant forms of belonging: merit-contingent belonging, characterized by a need to demonstrate competence and legitimacy, and relational belonging, fostered through supportive advisor and peer relationships. Findings show that while merit-contingent belonging dominates early experiences, it gradually gives way to relational forms of connection as students gain confidence and build community. We call for equity-focused interventions that humanize students, clarify merit, and build trust. 

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4. Rocky Mountain Scholars Program: Impact on Female Undergraduate Engineering Students – Social and Academic Support, Retention, and Success

   https://doi.org/10.3991/ijep.v10i4.12139  

   Brown, Mark; Hitt, Matthew P.; Stephens, Alyssa; Dickmann, Ellyn M (July 2020, International Journal of Engineering Pedagogy (iJEP))

   null (Ed.)

   The Rocky Mountain Scholars Program (RMSP) was developed, in part, to improve student success and persistence in Engineering disciplines at Colorado State Universi-ty through a portfolio of engagement activities focused around undergraduate research experiences. Female RMSP participants exhibited substantially higher retention rates and grade point averages relative to other female engineering students at CSU. To better understand the impact of the RMSP, and its effectiveness among female engi-neering students, researchers focused on whether, and how, experiences and percep-tions differ between male and female students in engineering programs. That is, how do male and female students differ, if at all, in their subjective perception of life as an engineering major at CSU? A survey was developed measuring resilience, self-efficacy, motivation, social support, academic support, and perceived sexism. Data was obtained from 144 first-year engineering students at CSU. Results indicated that social support from extracurricular activities is particularly important among female students. This points to an increasing need for programs like the RMSP to create social networks among students and faculty, link students to the broader impacts of their work, and ultimately improve the undergraduate experience of under-represented groups in STEM programs. 

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5. Keeping the 'SPARK' alive - Investigating Effective Practices in the Retention of Female Undergraduates in Engineering and Computer Science

   https://doi.org/10.18260/p.25514  

   Romanella, Susan; Novoa, Clara (June 2017, 2016 Annual Conference & Exposition)

   SPARK is the first project at Texas State University designed to recruit and retain low income, female, first year students who show an early interest in majoring in engineering and computer science (ECS). Female students who show an initial extrinsic interest in these majors can be driven away far too easily by their experiences. SPARK has two primary goals: (1) create an environment where belonging to a like-minded cohort nurtures a strong sense of self, and (2) deliver high quality, high impact practices that engender female students’ success and retention in ECS. Guided by Albert Bandura and Frank Pajares’ research on self-efficacy in theory and practice, the SPARK project sheds light on self-efficacy and confidence as predictive of persistence for female students in ECS. Additionally, the effect of SPARK students’ spatial visualization skills was assessed and tracked throughout the life of the project, utilizing Sheryl Sorby’s research correlating spatial visualization skills to STEM success. Current research-based approaches to student engagement provide good evidence that mattering and sense of belonging are also highly correlative with persistence, particularly for first year students. This is important because the national conversation on what works to mend the gender gap in STEM is currently wedged between Sheryl Sandberg’s “leaning in” and Angela Duckworth’s views on “grit” as an indicator of persistence. In this paper, we will discuss the context and history of the SPARK program, present assessment outcomes about impact to date, share lessons learned, and consider future directions. This work will contribute to the growing body of research on retaining females in ECS by developing and analyzing student motivation; recognizing factors that may contribute to aspirational deficient, attrition, and marginalization; and designing and assessing activities that strengthen self-confidence, self-efficacy, and persistence in retention programs for females in ECS. 

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