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1. Analysis of Physics Students' Subfield Career Decision-Making Using Social Cognitive Career Theory

   https://doi.org/10.1119/perc.2022.pr.Bennett  

   Bennett, Ridge ; Zohrabi Alaee, Dina ; Zwickl, Benjamin M. ( July 2022 , Physics Education Research Conference 2022)

   Frank, Brian W. ; Jones, Dyan L. ; Ryan, Qing X. (Ed.)

   The ways in which physics majors make career decisions is a critical, yet understudied, aspect of the undergraduate experience. Such decisions are important to students, physics departments, and administrators. In this project, we specifically examine how students develop interests and intent to pursue specific subfields of physics by interviewing 13 physics majors from all years of study. The interviews examined factors that led students to choose their most preferred and least preferred subfields. Interviews leveraged the framework of Social Cognitive Career Theory, a model that describes how several constructs such as self-efficacy, learning experiences, and outcome expectations relate to decision-making. Findings highlight the differences in decision-making between upper-division students and beginning students. For instance, we see how popular culture and popular science provide an initial learning experience about certain subfields, such as astronomy and astrophysics, which strongly affect beginning students' perceptions of that subfield. Initial exposure to biology and chemistry in high school or early undergraduate classes often negatively affected students' interests in fields like biophysics or chemical physics. Data also suggests a splitting between students with respect to their outcome expectations of a desirable career in science. While some students prioritize using science to help people, others prioritize discovery of new knowledge though science, and some are in between. Students in both groups form perceptions about subfields that do not align with their identities and hence make decisions based on these perceptions. For instance, a student who prioritizes helping others through science may be quick to reject astrophysics as a subfield choice as they do not think that astrophysics can help people enough. 

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2. Parents’ Beliefs about High School Students’ Spatial Abilities: Gender Differences and Associations with Parent Encouragement to Pursue a STEM Career and Students’ STEM Career Intentions

   https://doi.org/10.1007/s11199-019-01072-6  

   Muenks, Katherine ; Peterson, Emily Grossnickle ; Green, Adam E ; Kolvoord, Robert A ; Uttal, David H ( May 2020 , Sex Roles)

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3. How Do Student Perceptions of Engineers and Engineering as a Career Relate to Their Self-Efficacy, Career Expectations, and Grittiness?

   Morris, Melissa Lynn ; Dygert, Joseph ; Hensel, Robin A. ( June 2020 , 2020 ASEE Virtual Annual Conference Content Access)

   This complete research paper examines the connection between student beliefs about engineering as a profession, as well as the perceptions of their family and friends, to their reported self-efficacy, career expectations, and grittiness. The student responses examined were obtained from non-calculus ready engineering students at a large land grant institution in the Mid-Atlantic region. The students participated in a well-established program focused on cohort formation, mentorship, professional skill development, and fostering a sense of inclusion and belonging in engineering. The program, consisting of a one-week pre-fall bridge experience and two common courses, was founded in 2012 and has been operating with National Science Foundation (NSF) S-STEM funding since 2016. Students who received S-STEM funded scholarships are required to participate in focus groups, one-on-one interviews, and complete LAESE, MSLQ, and GRIT questionnaires each semester. The researchers applied qualitative coding methods to evaluate student responses from focus groups and one-one-one interviews which were conducted from 2017 to 2019. Questions examined in this paper include: 1) How would you describe an engineer? 2) Please describe what you think an engineer does on a daily basis. 3) What do you think your friends/family think of engineering? 4) What skills or characteristics do you think good engineers have? 5) What types of careers do you believe are filled by degree holding engineers? Student responses on the aforementioned questions were related to the self-efficacy, career expectation, and grit values obtained from the LAESE, MSLQ, and GRIT instruments. The nature of this longitudinal study allows the evolution of student responses to also be examined as they matriculate through their education. Additional analysis was performed to identify themes and numerical trends associated with student populations such as, underrepresented minorities, females, and first-generation college students. Results of this research are presented in an effort to further highlight the importance of exposure to STEM fields during an individual’s K-12 education, and express how student perceptions, self-efficacy, GRIT, and career expectations evolve over their undergraduate education. 

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4. Career Certainty: Differences Between Career Certain and Uncertain Engineering Students.

   Schadl, B. ; Sheppard, S. ; Chen, H. ( January 2017 , Proceedings of the American Society for Engineering Education Annual Conference, June 25-28. Columbus, OH.)

   To gain a deeper understanding of the career decisions of undergraduate engineering students, this research paper explores the differences between students who show a high degree of career certainty and those who are rather uncertain about what their professional future should look like. These analyses were based on a dataset from a nationwide survey of engineering undergraduates (n=5,819) from 27 institutions in the United States. The survey was designed with an interest in understanding engineering students’ career pathways. For the purpose of this study, students were designated as either “career uncertain” or “career certain” according to their survey answers. Those two groups were then compared against a variety of background characteristics, past experiences and personality variables. The results suggest that career uncertain and career certain students do not differ on background variables such as gender, age or family income. However, when it comes to students’ past experiences, the percentage of students who had already gained internship experiences during their time in college was significantly higher among career certain students as compared to career uncertain students. As expected, seniors were more certain about their professional future than juniors. Similarly, a higher percentage of career certain students reported talking about their professional future with other students or faculty members more frequently. Furthermore, career certain students were significantly more likely to show a higher level of innovation self-efficacy and engineering task self-efficacy. In addition, career certain students were more likely to have career goals that involved innovation and they also considered several job characteristics as more important than did uncertain students. On average, career certain engineering students were also more certain about staying in engineering one, five and ten years after graduation. Overall, the results of this research suggest that more hands-on experiences and fostering stronger beliefs in their engineering skills can contribute to undergraduates becoming more certain about their future professional careers. 

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5. Barriers and supports needed to improve ET career development: A two-year view of D.E.E.P. engineering technology career formation progress and impacts

   https://doi.org/10.18260/1-2--36738  

   Frady, K. ; Hughes, C. ; High, K. ( July 2021 , Annual American Society for Engineering Education Conference)

   The purpose of the Research in the Formation of Engineers National Science Foundation funded project, Developing Engineering Experiences and Pathways in Engineering Technology Career Formation (D.E.E.P. Engineering Technology Career Formation), is to develop a greater understanding of the professional identity, institutional culture, and formation of engineer technicians and technologists (ET) who are prepared at two-year colleges. ET professionals are important hands-on members of engineering teams who have specialized knowledge of components and engineering systems. Little research on career development and the role of ET in the workforce has previously been conducted prompting national organizations such as NSF and the National Academy of Sciences to prompt more research in this area [1]. The primary objectives of this project are to: (a) identify dimensions of career orientations and anchors at various stages of professional preparation and map to ET career pathways, (b) develop an empirical framework, incorporating individual career anchors and effect of institutional culture, for understanding ET professional formation, and (c) develop and pilot interventions aimed at transforming engineering formation systems in ET contexts. The three interdisciplinary theoretical frameworks integrated to guide design and analysis of this research study are social cognitive career theory (SCCT) [2], Schein’s career anchors which focuses on individual career orientation [3], and the Hughes value framework focused on the organization [4]. SCCT which links self-efficacy beliefs, outcome expectations, and personal goals to educational and career decisions and outcomes ties the individual career anchors to the institutional context of the Hughes framework [2]. To date, the project has collected and analyzed quantitative data from over 330 participants who are two-year college ET students, two-year college transfer students, and early career ET professionals. Qualitative data from historical institutional documents has also been collected and analyzed. Initial analyses have revealed gaps and needed areas of support for ET students in the area of professional formation. Thus far, the identified gaps are in institutional policy (i.e. lack of articulation agreements), needed faculty professional development (i.e. two-year faculty on specific career development and professional ET formation needs and four-year faculty on unique needs of transfer students), missing curriculum and resources supporting career development and professional formation of ET students, and integration of transfer student services focusing on connecting faculty and advisors across both institutional levels and types of programs. Significant gaps in the research promoting understanding of the role of ET and unique professional formation needs of these students were also confirmed. This project has been successful at helping to broaden participation in ET engineering education through integrating new participants into activities (new four-year institutional stakeholders, new industry partners, new faculty and staff directly and indirectly working with ET students) and through promoting disciplinary (engineering education and ET) and cross disciplinary collaborations (human resource development, higher education leadership, and student affairs). With one year remaining before completion of this project, this project has promoted a better understanding of student and faculty barriers supporting career development for ET students and identified need for career development resources and curriculum in ET. Words: 498 References [1] National Academy of Engineering. (2016). Engineering technology education in the United States. Washington, DC: The National Academies Press. [2] Lent, R.W., & Brown, S.B. (1996). Social cognitive approach to career development: An overivew. Career Development Quarterly, 44, 310-321. [3] Schein, E. (1996). Career anchors revisited: Implications for career development in the 21st century. Academy of Management Executive, 10(4), 80-88. [4] Hughes, C. (2014, Spring). Conceptualizing the five values of people and technology development: Implications for human resource managmeent and development. Workforce Education Forum, 37(1), 23-44. 

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