Austin, Janice E.2017-11-132017-11-132017-10-06http://hdl.handle.net/10919/80347There is national attention and concern from industry leaders, educators and politicians that the United States will not be able to maintain its competitive edge due to the lack of students prepared for careers in science, technology, engineering, and math (STEM) (Hurtado et al., 2008; Kuenzi et al., 2006; Kuenzi, 2008; Laursen et al., 2010). Student-faculty research, such as is done during an undergraduate research experience (URE), has been shown to be a high impact activity leading to greater student interest in STEM careers. A closer look is needed to get an idea of what types of experiences during UREs impact a student’s interest in persisting into a STEM field career and to understand what are the key mechanisms of the experience that make it meaningful. The findings in this study add to the literature by exploring participants views of the undergraduate research experience at non-doctoral-granting universities and by supporting the idea that UREs can be effective in these settings as well. Further, this study puts forward a theoretical explanation about how and why UREs promote a student’s interest in persisting to a STEM field career. The purpose of this qualitative study using critical incidents was to identify experiences during a URE that students perceived to encourage or deter their interest in pursuing a STEM field career following graduation and to identify causal mechanisms for why these experiences made a difference in their interest. This study was designed to use a qualitative approach consisting of individual interviews and a focus group with a total of 31 participants from three institutions to identify and come to a more complex, multi-layered understanding of the undergraduate research experience. A card sorting technique where participants assigned each card to the encouraged an interest, deterred an interest, neither encouraged nor deterred an interest, or did not experience category was used initially to generate a conversation about what individual experiences that students perceive encourage or deter them from pursuing a STEM field career following graduation. Follow-up interview questions guided the participant in explaining the incident and how and why it impacted their interest in a STEM field career following graduation. Findings of the study indicate that all participants began their URE with an interest in science. No one set of critical incidents was identified to encourage or deter an interest as the same incident could have positive and negative outcomes. Because of the initial strong interest in science, incidents identified in the literature as deterring an interest in STEM often served to help participants refine the field or topic in STEM they wanted to pursue rather than causing them to leave STEM altogether. The individual critical incidents during the URE in totality, not individually, had an impact on participants’ interest in pursuing a STEM field career. It is a combination of multiple experiences or events that help students gain a greater sense of self and to refine career and research opportunities. The main contribution of this study is a theoretical model of the mechanisms by which a variety of incidents during a URE can impact an interest in STEM. This model identifies underlying causal mechanisms on how UREs can promote an interest in STEM. The model is similar to a grounded theory model in that it highlights student characteristics, contextual factors, mechanisms, and outcomes that help to refine STEM field career interest. The URE incidents in totality provide mechanisms resulting in outcomes that refine a career interest in STEM. As all participants were still involved in their URE, this study is limited in that we do not know with any certainty if the participants will enter a STEM field career. Future research designed with a longitudinal time frame could follow participants throughout the URE then into their career thus allowing greater understanding as to why some students may choose to leave the STEM pipeline. In-depth case studies would allow for testing of the conceptual model to identify turning points in an interest in a STEM field career and how interests in a STEM field career are refined. Further, case studies would allow researchers to compare the conceptual model in different settings. The goals of UREs can be advanced in settings where there is a central organizing office on campus that makes visible that the institution values research and STEM and creates opportunities where students can to connect to a wider community of researchers. Faculty mentors guiding UREs can advance a commitment to pursue science by continually articulating the importance and wider social significance of the research. Further, faculty mentors play an invaluable role by providing information about the range of opportunities to pursue research, connect students with other research, and encourage URE student attendance at professional conferences in order to begin identification with a wider community of like-minded individuals.ETDen-USIn CopyrightSTEMUndergraduate researchQ sortIncidents in the Undergraduate Research Experience that Contribute to an Interest in Science, Technology, Engineering, and Math (STEM)Dissertation