Skill Development of Engineering and Physical Science Doctoral Students: Understanding the Role of Advisor, Faculty, and Peer Interactions

Abdulrahman Alsharif; Maya Denton; David B. Knight; Maura Borrego; Andrew Katz

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Conference: 2024 ASEE Annual Conference & Exposition
Location: Portland, Oregon
Publication Date: June 23, 2024
Start Date: June 23, 2024
End Date: July 12, 2024
Conference Session: Graduate Studies Division (GSD) Technical Session 5: Skill Development in Graduate Education
Tagged Division: Graduate Studies Division (GSD)
Tagged Topic: Diversity
Permanent URL: https://strategy.asee.org/47972

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Paper Authors

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Abdulrahman Alsharif Virginia Polytechnic Institute and State University

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Abdulrahman Alsharif is a research assistant for the Engineering Education Department and a PhD candidate at Virginia Tech.

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Maya Denton University of Oklahoma

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Maya Denton is an Assistant Professor of Engineering Pathways in the Gallogly College of Engineering at the University of Oklahoma. She received her B.S. in Chemical Engineering from Purdue University, and her M.S. in Environmental Engineering and PhD in STEM Education from the University of Texas at Austin.

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David B. Knight Virginia Polytechnic Institute and State University orcid.org/0000-0003-4576-2490

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David Knight is a Professor in the Department of Engineering Education at Virginia Tech and also serves as Special Assistant to the Dean for Strategic Plan Implementation in the College of Engineering. His research tends to be at the macro-scale, focused on a systems-level perspective of how engineering education can become more effective, efficient, and inclusive, and considers the intersection between policy and organizational contexts. Knight currently serves as the co-Editor-in-Chief of the Journal of Engineering Education.

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Maura Borrego University of Texas at Austin orcid.org/0000-0001-7131-4611

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Maura Borrego is Director of the Center for Engineering Education and Professor of Mechanical Engineering and STEM Education at the University of Texas at Austin. Dr. Borrego is Senior Associaate Editor for Journal of Women and Minorities in Science and E

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Andrew Katz Virginia Polytechnic Institute and State University

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Andrew Katz is an assistant professor in the Department of Engineering Education at Virginia Tech. He leads the Improving Decisions in Engineering Education Agents and Systems (IDEEAS) Lab.

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Abstract

Our research paper examines the role of climate (e.g., interactions with others) in the skill development of engineering and physical science doctoral students. Skill development in graduate school occurs related to students' primary funding mechanism, in which they might interact with a research group or teaching team. Advisors also play a pivotal role in the engineering doctoral student experience; however, less is known about how positive mentoring influences skill development for engineering doctoral students. We investigated the following research questions: 1) How, if at all, do interactions with advisor(s), faculty, and peers predict skill development (associated with primary funding mechanism) for engineering and physical science doctoral students? 2) Specifically, how do such interactions predict skill development (associated with primary funding mechanism) for the following career-related skills: a) research, b) teamwork and project management, c) peer training and mentoring, and d) communication? We administered the Graduate Student Funding Survey to engineering and physical science doctoral programs in the United States, with focused sampling of institutions that produce a high number of doctorates and that have highly ranked programs. We developed the survey, including survey items on demographics, funding mechanism, skill development, and climate (i.e., interactions with others). Data collection occurred in Fall 2019 (n = 615). We did not restrict respondents based on year of study or citizenship status. Following data collection, we conducted an exploratory factor analysis (EFA) on the interaction survey items, resulting in three climate factors: 1) Advising climate (9 items), 2) Faculty and staff climate (4 items), and 3) Peer climate (4 items). In our findings, we report descriptive statistics for field of study, gender, race/ethnicity, and citizenship status. We ran stepwise logistic regression models for each skill development variable (research, teamwork and project management, peer training and mentoring, and communication), for four regression models in total. Independent variables for the models included demographics, funding mechanism, and the climate factors. We found that advising climate was statistically significant for all four career-related skills, faculty and staff climate for peer training and mentoring skills only, and peer climate for both peer training and mentoring and communication skills. All statistically significant climate variables positively predicted skill development. Our findings highlight the importance of climate within engineering doctoral programs, quantifying how a positive climate promotes development of career-related skills. Future work should examine the specific actions that contribute to a positive climate and provide further guidance on how graduate programs can adopt such practices at their institutions.

Citation
Format

Alsharif, A., & Denton, M., & Knight, D. B., & Borrego, M., & Katz, A. (2024, June), Skill Development of Engineering and Physical Science Doctoral Students: Understanding the Role of Advisor, Faculty, and Peer Interactions Paper presented at 2024 ASEE Annual Conference & Exposition, Portland, Oregon. https://strategy.asee.org/47972

TY  - CPAPER
AB  - Our research paper examines the role of climate (e.g., interactions with others) in the skill development of engineering and physical science doctoral students. Skill development in graduate school occurs related to students&#39; primary funding mechanism, in which they might interact with a research group or teaching team. Advisors also play a pivotal role in the engineering doctoral student experience; however, less is known about how positive mentoring influences skill development for engineering doctoral students. We investigated the following research questions:
1)	How, if at all, do interactions with advisor(s), faculty, and peers predict skill development (associated with primary funding mechanism) for engineering and physical science doctoral students?
2)	Specifically, how do such interactions predict skill development (associated with primary funding mechanism) for the following career-related skills: a) research, b) teamwork and project management, c) peer training and mentoring, and d) communication?
We administered the Graduate Student Funding Survey to engineering and physical science doctoral programs in the United States, with focused sampling of institutions that produce a high number of doctorates and that have highly ranked programs. We developed the survey, including survey items on demographics, funding mechanism, skill development, and climate (i.e., interactions with others). Data collection occurred in Fall 2019 (n = 615). We did not restrict respondents based on year of study or citizenship status. Following data collection, we conducted an exploratory factor analysis (EFA) on the interaction survey items, resulting in three climate factors: 1) Advising climate (9 items), 2) Faculty and staff climate (4 items), and 3) Peer climate (4 items). In our findings, we report descriptive statistics for field of study, gender, race/ethnicity, and citizenship status. We ran stepwise logistic regression models for each skill development variable (research, teamwork and project management, peer training and mentoring, and communication), for four regression models in total. Independent variables for the models included demographics, funding mechanism, and the climate factors. We found that advising climate was statistically significant for all four career-related skills, faculty and staff climate for peer training and mentoring skills only, and peer climate for both peer training and mentoring and communication skills. All statistically significant climate variables positively predicted skill development. Our findings highlight the importance of climate within engineering doctoral programs, quantifying how a positive climate promotes development of career-related skills. Future work should examine the specific actions that contribute to a positive climate and provide further guidance on how graduate programs can adopt such practices at their institutions.
AU  - Abdulrahman Alsharif
AU  - Maya Denton
AU  - David B. Knight
AU  - Maura Borrego
AU  - Andrew Katz
CY  - Portland, Oregon
DA  - 2024/06/23
PB  - ASEE Conferences
TI  - Skill Development of Engineering and Physical Science Doctoral Students: Understanding the Role of Advisor, Faculty, and Peer Interactions
UR  - https://strategy.asee.org/47972
ER  -