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1. The Impact of Participating in College-Run STEM Clubs and Programs on Students’ STEM Career Aspirations

   https://doi.org/10.1177/01614681221086445  

   Kitchen, Joseph A. ; Chen, Chen ; Sonnert, Gerhard ; Sadler, Philip ( May 2022 , Teachers College Record: The Voice of Scholarship in Education)

   The United States continues to invest considerable resources into developing the next generation of science, technology, engineering, and mathematics (STEM) talent. Efforts to shore up interest in pursuing STEM careers span decades and have increasingly focused on boosting interest among diverse student populations. Policymakers have called for engaging students in a greater STEM ecology of support that extends beyond the traditional classroom environment to increase student STEM career interest. Yet, few robust studies exist exploring the efficacy of many programmatic efforts and initiatives outside the regular curriculum intended to foster STEM interest. To maximize STEM education investments, promote wise policies, and help achieve the aim of creating STEM learning ecosystems that benefit diverse student populations and meet the nation’s STEM goals, it is crucial to examine the effectiveness of these kinds of STEM education initiatives in promoting STEM career aspirations.

   The purpose of this quasi-experimental study was to examine the impact of one popular, yet understudied, STEM education initiative on students’ STEM career aspirations: participation in a university- or college-run STEM club or program activity (CPA) during high school. Specifically, we studied whether participation in a college-run STEM CPA at a postsecondary institution during high school was related to college-going students’ STEM career aspirations, and we examined whether that relationship differed depending on student characteristics and prior STEM interests.

   We conducted a quasi-experimental investigation to explore the impact of participation in university- or college-run STEM CPAs on college-going students’ STEM career aspirations. We administered a retrospective cohort survey to students at 27 colleges and universities nationwide resulting in a sample of 15,847 respondents. An inverse probability of treatment weighted logistic regression model with a robust set of controls was computed to estimate the odds of expressing STEM career aspirations among those who participated in college-run STEM CPAs compared with the odds expressed among students who did not participate. Our weighting accounted for self-selection effects.

   Quasi-experimental modeling results indicated that participation in university- or college-run STEM CPAs had a significant impact on the odds that college-going students would express STEM career aspirations relative to students who did not participate. The odds of expressing interest in a STEM career among participants in STEM CPAs were 1.49 times those of the control group. Robustness checks confirmed our results. The result held true for students whether or not they expressed interest in STEM careers prior to participation in STEM CPAs, and it held true across a diverse range of student characteristics (e.g., race, parental education, gender, standardized test scores, and family/school encouragement).

   Results suggest that university- and college-run STEM CPAs play an important role in the STEM education ecology, serving the national goal of expanding the pool of college-going students who aspire to STEM careers. Moreover, results showed that participation in university- and college-run STEM CPAs during high school is equally effective across diverse student characteristics. Policymakers, educators, and those charged with making investment decisions in STEM education should seriously consider university- and college-run STEM CPAs as a promising vehicle to promote diverse students’ STEM career aspirations in the broader STEM learning ecosystem and as an important complement to other STEM learning environments.

    

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2. Long-Term Outcomes of RET Programs on Female and Minority Student High School Graduation Rates and Undergraduate STEM Major Rates (Fundamental)

   Nichol, C. ; Crawford, C. A. ; Barr, C. ; Cerda, I. ( January 2021 , ASEE Annual Conference proceedings)

   null (Ed.)

   Research Experience for Teachers (RET) programs are National Science Foundation (NSF) funded programs designed to provide K- 12 Science, Technology, Engineering, and Mathematics (STEM) teachers with immersive, hands-on research experiences at Universities around the country. The NSF RET in nanotechnology encourages teachers to translate cutting-edge research into culturally relevant Project-Based Learning (PjBL) and engineering curriculum. Traditionally, the evaluation of RET programs focuses on the growth and development of teacher self-efficacy, engineering content knowledge gains, or classroom implementation of developed curriculum materials. However, reported methods for evaluating the impact of RETs on their female, minority student populations' high school graduation and undergraduate STEM major rates are limited. This study's objective was to compare RET high school student graduation rates and undergraduate STEM major rates across gender, race, and ethnicity to a comparison sample to determine the RET program's long-term impact on students' likelihood of pursuing STEM careers. The approach of collecting and analyzing the Texas Education Research Center Database (EdRC) data is a novel methodology for assessing RET programs' effectiveness on students. The EdRC is a repository of K-12 student data from the Texas Education Agency (TEA) and Higher Education data from the Texas Higher Education Coordinating Board (THECB). This joint database contains demographic, course registration, graduation, standardized testing, and college major, among others, for all students that attended a K-12 public school in Texas and any college in Texas, public or private. The RET program participants at Rice University (2010 – 2018) taught numerous students, a sample size of 11,240 students. A propensity score matching generated the student comparison group within the database. Students' school campus, gender, race/ethnic status, and English proficiency status were applied to produce a graduation comparison sample size of 11,240 students of Non-RET participants. Linking the TEA database to the THECB database resulted in college STEM participants and comparison sample sizes of 4,029 students. The project team conducted a logistic regression using RET status to predict high school graduation rates as a whole and by individual variables: gender, Asian American, Black, Caucasian, and Latinx students. All models were significant at p less than 0.05, with models in favor of students RET teachers. The project team conducted a logistic regression using RET status to predict student STEM undergraduate major rates as a whole and by individual variables: Gender, Asian American, Black, Caucasian, and Latinx students. African American and Caucasian models were significant at p less than 0.05; Gender, Asian American, and Latinx models were marginally significant (0.05 less than p greater than 0.1), where RET students had higher STEM major rates than matched controls. The findings demonstrate that RET programs have a long-term positive impact on the students' high school graduation rates and undergraduate STEM major rates. As teachers who participate in the RET programs are more likely to conduct courses using PjBL strategies and incorporate real-world engineering practices, female and minority students are more likely to benefit from these practices and seek careers utilizing these skills. 

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3. Correlation of STEM Interest and Career Intent in High-School Students

   https://doi.org/10.22492/issn.2189-1036.2021.12  

   Nariman, Nahid ; Davis, Jaymee Nanasi ( January 2021 , The IAFOR International Conference on Education – Hawaii 2021)

   Understanding high school students’ perceptions and dispositions toward STEM, and the role science and math self-efficacy play in establishing STEM career aspirations is imperative to preparing the STEM workforce of the future. Project STEMulate is an industry-aligned and technology-rich Problem-based Learning (PBL) model. The goal of this NSF ITEST grant-funded study (2018-2020) was to improve students’ attitudes towards STEM. Project STEMulate focuses on Upward Bound students in Hawaiˋi and was implemented at three sites: Maui, Hilo, and Oahu. The participants voluntarily selected to participate in this program. The current study reviews year one data collected on the impact of Project STEMulate on low-income and underrepresented and/or native Hawaiian students' STEM career interest, and their science self-efficacy. Students’ reactions to the STEM learning experience were extremely positive. 80% of students expressed a desire to pursue a career in STEM at the post test. High school students who listed their plan to pursue a career in STEM also showed a higher self-efficacy and motivation. Analysis of the results demonstrates this program was effective in empowering students with insights into careers, enhancing knowledge that would serve them in pursuit of a career in STEM. In addition, the project fostered a can-do attitude and increased students’ science self- efficacy. 

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4. Developing STEM Career Identities among Latinx Youths: Collaborative Design, Evaluations, and Adaptations during COVID-19

   https://doi.org/10.3390/bs13110949  

   Park, Chong Myung ; Donnelly, Hayoung Kim ; Rodriguez, Angelica ; Esquivel, Luis ; Nardi, Cecilia ; Trunfio, Paul ; Oliver-Davila, Alexandra ; Howard, Kimberly A. ; Solberg, V. Scott ( November 2023 , Behavioral Sciences)

   In response to the low representation of Latinx adults in STEM occupations, this community-based participatory action research study aims to increase the number of middle school youths developing STEM career identities and entering high school with the intention to pursue STEM careers. The students were provided with summer and after-school activities focusing on network science and career development curricula. Using a quasi-experimental pretest–posttest design and career narratives, this study examined the changes in STEM and career self-efficacy, as well as career identity. The results show improvements in self-efficacy, an increased number of youths with intentions of pursuing future STEM career opportunities, and deeper reflections on their talents and skills after program participation. This paper also describes the program development and implementation in detail, as well as the adaptations that resulted from COVID-19, for scholars and educators designing similar programs. This study provides promising evidence for the quality of STEM and career development lessons in supporting the emergence of a STEM career identity and self-efficacy.

    

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5. Program evaluation of a professional development program for high school counselors on the engineering design process

   Ross, L. ; Dalal, M. ; Carberry, A. ( July 2021 , 2021 ASEE Annual Conference and Exposition)

   null (Ed.)

   High school counselors play a pivotal role in students’ educational pathways to STEM careers. Guidance provided by these school officials can have a measurable influence on student education and career choices. . School counselors play a critical role in student selection of elective courses, achievement, and fostering an environment through outreach activities. Each of these factors can influence students’ career interests, college choice, and major selection. This is one reason for why it is important to begin planning and having conversations around pursuing an engineering degree in high school to combat the lack of diversity in engineering rooted within the primary and secondary education systems. Recognizing school counselors as an untapped resource and equipping them with the knowledge and resources they need to inform students about engineering will allow them to increase students' motivations and capacities to pursue careers in engineering, especially for historically underrepresented minorities. Such capacity building of school counselors will inherently improve the diversity of our nation's engineering workforce. This research study details the development and evaluation of a professional development (PD) program for high school guidance counselors. The PD was situated within the context of a national high school engineering initiative aimed at demystifying the engineering experience through inclusive, secondary-level engineering curricula. The counselor PD was conducted virtually over the summer of 2020. In total, 15 counselors completed the six-week PD -. Counselors participated in a series of engineering design activities to learn more about the engineering process. They also attended information sessions about engineering stereotypes, stereotype threats, implicit biases, and different disciplines within engineering to better inform their students of future career options. This paper details the development and program structure of the counselor PD. Pre- and post-focus groups were used to gain insight into counselors’ perceptions of engineering. Post-surveys were also collected to determine what counselors thought about the PD. We will provide detail regarding shifts in perceptions of engineering and overall evaluation of the PD. We conclude with a discussion of key takeaways and lessons learned. 

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