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1. 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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2. Identifying Systemic Barriers: Computer Science District and School Policies for African American and Hispanic Students with Disabilities

   Singh, Shailen M; Ashford-Hanserd, Shetay; Harvey, Christopher; Mouton, April; Torre, Christina; Muoneke, Ada; and Eaglin, Phillip (October 2023, Journal of the Alliance of Black School Educators)

   Numerous African American and Hispanic Students with disabilities are confronted with systemic and policy-based challenges preventing access to K-12 STEM-related and computer science education. In addition, the African American and Hispanic Students with Disabilities in the Computer Science Research Alliance conducted an NSF-funded study to understand teachers’ perceptions of district and school policies and practices that hinder the participation of African American and Hispanic students with disabilities in computer science education in Central Texas. The project’s research study fills a critical gap in the literature concerning the systemic barriers affecting African American and Hispanic students with disabilities in K12 computer science education. 

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3. Challenges in STEM PhD program: Biased mentoring.

   Howell, C; Merriweather, L; Sanczyk, A; Douglas, N. (October 2020, Proceedings Frontiers in Education Conference)

   null (Ed.)

   The purpose of this work in progress paper is to understand the influence of mentoring on the science, technology, engineering, and math (STEM doctoral student experience. This qualitative case study sought to determine the impact of how mentoring relationships between faculty doctoral mentors and STEM doctoral students. This research emphasizes the role of mentoring as part of an intervening strategy for doctoral retention and suggest culturally responsive mentoring as a means to improve the experiences of PhD underrepresented minority (URM) students. This study addresses a gap in the literature related to culturally responsive mentoring and the STEM disciplines. The findings were developed from four focus group interviews were audio recorded, transcribed and coded by the research team. Data were analyzed using constant comparative methods as an iterative process to extrapolate key words and identify significant patters [1]. This study uses critical inquiry as a theoretical framework. Our findings revealed that mentoring takes place within a complex environment framed by systems of inequity grounded in race and gender. Three themes were constructed from the data: mentoring as a biased environment, lack of responsiveness to student needs, and relational tensions. This briefly examines one themes: mentoring as a biased environment. The data highlight how the past experiences of faculty contribute to their bias standpoints. Bias may be based on race, gender, or age, and may be implicit or explicit. Within this environment doctoral students are challenged to navigate the spaces such as the classroom and laboratory that can be wrought with the difficulties springing from gender and race. This paper is relevant to mentoring and STEM as it acknowledges that mentoring is a heavily nuanced practice with important cultural implications relative to PhD STEM students and faculty. 

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4. Challenges in STEM PhD Programs: Biased Mentoring

   https://doi.org/10.1109/FIE44824.2020.9274209  

   Howell, Cathy D.; Merriweather, Lisa R.; Sanczyk, Anna; Douglas, Niesha (October 2020, 2020 IEEE Frontiers in Education Conference (FIE))

   null (Ed.)

   Work in Progress - Research Category The purpose of this work in progress paper is to understand the influence of mentoring on the science, technology, engineering, and math (STEM) doctoral student experience. This qualitative case study sought to better understand mentoring relationships between faculty doctoral mentors and STEM doctoral students. This research emphasizes the role of mentoring as part of an intervening strategy for doctoral retention and suggests culturally responsive mentoring as a means to improve the experiences of PhD under-represented minority (URM) students. This study addresses a gap in the literature related to culturally responsive mentoring and the STEM disciplines. The findings were developed from four qualitative research focus group interviews. Focus group interviews were audio recorded, transcribed, and coded by the research team. Data were analyzed using the constant comparative method, an iterative process to extrapolate key words and identify significant patterns [1]. This study uses critical inquiry as a theoretical framework. Our findings revealed that mentoring takes place within a complex environment framed by systems of inequity grounded in race and gender. Three themes were constructed from the data: mentoring as a biased environment, lack of responsiveness to student needs, and relational tensions. This paper briefly examines one theme: mentoring as a biased environment. The data highlight how biased standpoints result in a shift in the learning experience. Bias may be based on race, gender, or age, and may be implicit or explicit. Within this environment doctoral students are challenged to navigate spaces such as classrooms and laboratories that can be wrought with difficulties springing from gender and race.This paper is relevant to mentoring and STEM as it acknowledges that mentoring is a heavily nuanced practice with important cultural implications relative to PhD STEM students and faculty. 

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5. Persistence Priorities and Financial Servingness in an Emerging HSI

   https://doi.org/10.1109/FIE58773.2023.10343220  

   Hug, Sarah (October 2023, IEEE Frontiers in Education Conference (FIE))

   As the demographics in the United States college-going population continue to shift, the number of HSIs grows annually, yet research in higher education indicates a difference between enrolling Hispanic students in great numbers and serving the Hispanic/LatinX population [1,2] Servingness is embodied in structures and practices that constitute HSIs and is manifested in the acts of institutional agents who interpret policy, advocate for students, and access resources on behalf of students. This paper describes the findings from an initial case study of a public US East Coast Emerging Hispanic Serving Institution recently funded by the National Science Foundation to provide scholarships for high-achieving students with great financial need. To understand the financial barriers students face in attending college in a post-pandemic context, the first author interviewed key stakeholders at EAST STEM University. The research question driving the study was: How is EAST STEM changing its infrastructure to develop diverse support structures that serve students? Data for this pilot case study were collected from unstructured interviews with the lead faculty member of the grant in the computer science department, document analysis of institutional data (e.g., contextual data from the US Department of Education, publicly available information from Excellencia in Education, institutional profile data from the Institute of Educational Statistics), and from formal interviews with key stakeholders across the university. Interviews were transcribed and coded using emerging themes with Dedoose software. The staff interviewed in this study span five administrative offices and academic departments. Findings from this case suggest the institutional goals of promoting diversity and increasing persistence were values aligned with the acts of servingness utilized at East STEM University to advocate holistically for student needs [3]. Interviews with institutional agents indicate two ways the institution supported student progression through the major-through human resource allocation and through financial prioritization for equity. Within this institutional context, institutional agents enacted servingness through their emphasis on equity and persistence priorities, with, in some cases, a critical lens supportive of student success[4]. Key to their efforts in promoting persistence for students were three actions-creating space for one-on-one engagement with students, advocating on students' behalf across multiple administrative offices, and adapting and reinterpreting policies to support continued student enrollment. This study illustrates how institutional agents aligned serving with a key institutional initiative and how that alignment created space for innovation in meeting undergraduate students' financial needs. 

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