Overview
Our primary goal is to increase understanding of how the social and STEM career trajectories of student military service members and veterans connect.
Analysts believe that the U.S. science, technology, engineering, and mathematics (STEM) workforce suffers from a lack of well-trained professionals. Although recent research and reforms have aimed to improve college graduation rates as students move through STEM programs into careers, little work has investigated the STEM career pathways of undergraduate student military service members/veterans, a group of talented students poised to broaden the workforce through advanced technical, collaborative, and leadership skills and diverse experiences. Despite their potential, however, student military service members and veterans face numerous social, financial, and health-related obstacles in college that educators and scholars continue to struggle to understand.
With these issues in mind, the Veteran Education to Workforce Affinity and Success Study (VETWAYS) explores the connections between student military service members and veteran experiences in undergraduate education and these students’ “social support networks,” or relationships that provide help, advice, camaraderie, or guidance.
How will we study this?
Specifically, using surveys and interviews with students and the educators who work with them across ten universities nationwide, we seek to advance knowledge about the social networks of student military service members and veterans and how these networks connect with persistence along STEM academic and workforce pathways.
Results will help us better understand the social factors that support undergraduate military service members and veterans in persisting in college, as well as how administrators, educators, and their institutions can better support these students on their STEM career pathways.
This research is supported by the National Science Foundation’s EHR Core Research (ECR) program, which emphasizes fundamental STEM education research that generates foundational knowledge in the field in critical areas that are essential, broad and enduring. The program supports the accumulation of robust evidence to inform efforts to understand, build theory to explain, and suggest interventions and innovations to address persistent challenges in STEM interest, education, learning and participation.
