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1. Involving Parents and Community Leaders to Promote College and Career Aspirations among Refugee Youth

   https://doi.org/10.22158/jecs.v7n2p66  

   Judson, Eugene; Hailu, Meseret; Ibrahim, Mohammed (May 2023, Journal of Education and Culture Studies)

   Among challenges of refugee students attempting to pursue ambitions to attend a university and subsequently take up a professional career, are uncertainty about how to navigate from high school to college and unawareness of career fields. In this paper, we report on results of a project focused on promoting STEM aspirations and understanding college navigation among refugee families in the United States. Through partnerships between refugee community organizations and a university, families participated in workshops that included learning about a breadth of STEM careers and how to chart a successful course from secondary to postsecondary education. 

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2. Stability and changes in high school students' STEM career expectations: Variability based on STEM support and parent education

   https://doi.org/10.1002/jad.12067  

   Starr, Christine R.; Ramos Carranza, Perla; Simpkins, Sandra D. (January 2022, Journal of adolescence)

   Introduction Why do some students maintain their career expectations in STEM (science, technology, engineering, mathematics), whereas others change their expectations? Using situated expectancy-value and social cognitive career theories, we sought to investigate the extent to which STEM support predicted changes in students' STEM career expectations during high school, and if these processes varied by whether the student had college educated or noncollege educated parents. Methods Using the nationally representative data set of the High School Longitudinal Study, we investigated the predictors of changes in US students' STEM career expectations from 9th to 11th grade (n = 13,100, 54% noncollege educated parents, 51% girls, 55% White, 21% Latinx, 12% Black). Results and Conclusions Students with noncollege educated parents were significantly more likely to change from STEM to non-STEM career expectations by 11th grade or to have stable non-STEM career expectations (compared to having stable STEM expectations or changing from non-STEM to STEM expectations). Additionally, students with noncollege educated parents were less likely to receive STEM support from parents and attend extracurricular activities compared to students with college educated parents. However, when examining the predictors among students with noncollege educated parents, students were more likely to maintain their expectations for a STEM career from 9th to 11th grade (compared to switching to a non-STEM career) if they had parental STEM support. Additionally, all students regardless of parents' level of education were more likely to maintain their expectations for a STEM career (vs. switching to a non-STEM career) through high school if they received teacher STEM support. Furthermore, students were more likely to develop STEM career expectations (vs. maintaining non-STEM career expectations) if they had parent STEM support. These findings highlight how parent and teacher STEM support may bolster STEM career expectations, particularly among students with noncollege educated parents. 

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3. The school stakeholder community as a source of capital for the talent development of black students in a high school engineering career academy

   https://doi.org/10.1108/EJTD-11-2021-0195  

   Fletcher, Edward C.; Hines, Erik M.; Ford, Donna Y.; Grantham, Tarek C.; Moore III, James L. (August 2022, European Journal of Training and Development)

   Purpose This paper aims to examine the role of school stakeholders (e.g. advisory board members, school administrators, parents, teachers and school board members) at a 99% black academy in promoting the achievement and broadening participation of high school black students in engineering career pathways. Design/methodology/approach The authors followed a qualitative case study design to explore the experiences of school stakeholders (e.g. students, district and school personnel and community partners) associated with the implementation of the career academy (Stake, 2006; Yin, 1994). Findings The authors found that the school relied heavily on the support of the community in the form of an advisory board – including university faculty and industry leaders – to actively develop culturally responsive strategies (e.g. American College Test preparation, work-based learning opportunities) to ensure the success of black students interested in pursuing career pathways in engineering. Thus, school stakeholders in the academy of engineering served as authentic leaders who inspired academy students by serving as role models and setting examples through what they do as engineering professionals. It was quite evident that the joy and fulfillment that these authentic leaders gained from using their talents directly or indirectly inspired students in the academy to seek out and cultivate the talents they are good at and passionate about as well (Debebe, 2017). Moreover, the career academy provided environmental or sociocultural conditions that promoted the development of learners’ gifts and talents (Plucker and Barab, 2005). Within that context, the goals of career academy school stakeholders were to support students in the discovery of what they are good at doing and to structure their educational experiences to cultivate their gifts into talents. Research limitations/implications It is also important to acknowledge that this study is not generalizable to the one million career academy students across the nation. Yet, the authors believe researchers should continue to examine the career academy advisory board as a source of capital for engaging and preparing diverse learners for success post-high school. Further research is needed to investigate how advisory boards support students’ in school and postsecondary outcomes, particularly for diverse students. Practical implications The authors highlight promising practices for schools to implement in establishing a diverse talent pipeline. Social implications On a theoretical level, the authors found important insights into the possibility of black students benefiting from a culturally responsive advisory board that provided social and cultural capital (e.g. aspirational, navigational and social) resources for their success. Originality/value While prior researchers have studied the positive impact of teachers in career academies as a contributor to social capital for students (Lanford and Maruco, 2019) and what diverse students bring to the classroom as a form of capital Debebe(Yosso, 2005), research has not identified the role of the advisory board (in its efforts to connect the broader community) as a vehicle for equipping ethnically and racially diverse students who come from economically disadvantaged backgrounds with social capital. Within that sense, the authors believe the advisory board at Stanton Academy relied on what the authors term local community capital to provide resources and supports for black students’ successful transition from high school into science, technology, engineering, and mathematics (STEM)-related college and career pathways. 

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4. Smart Wireless Weather Station and Climate Console (Resource Exchange)

   Schmitt, Julian Andrew; Urbina, Marlene; Perhay, Alexander Michael; Sheridan, Orla Maire; Tyler, Chance William; Williams, Jeritt; Aldeman, Matthew R; Jo, Jin Ho; Antink-Meyer, Allison (June 2024, Proceedings of the American Society for Engineering Education (ASEE) 2024 Annual Conference)

   STEM-based University Pathway Encouraging Relationships with Chicago High schools in Automation, Robotics and Green Energy (SUPERCHARGE) is an NSF-sponsored project where university faculty and undergraduates from Illinois State University have designed informal, after-school engineering-related activities focusing on robotics, green energy, and automation. An emphasis is placed on activities and partnerships that promote knowledge, engagement, and interest in STEM fields in underserved schools and communities. This resource exchange presents activities from the final unit of the program's first year. In this project, high school students will build and experiment with a smart wireless weather station and indoor climate console with the goal of collecting and analyzing data to learn about the climate in their community while fostering STEM skills and interest in college and career pathways. 

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5. Smart Wireless Weather Station and Climate Console (Resource Exchange)

   Schmitt, Julian Andrew; Urbina, Marlene; Perhay, Alexander Michael; Sheridan, Orla Maire; Tyler, Chance William; Williams, Jeritt; Aldeman, Matthew R; Jo, Jin Ho; Antink-Meyer, Allison (June 2024, Proceedings of the American Society for Engineering Education (ASEE) 2024 Annual Conference)

   STEM-based University Pathway Encouraging Relationships with Chicago High schools in Automation, Robotics and Green Energy (SUPERCHARGE) is an NSF-sponsored project where university faculty and undergraduates from Illinois State University have designed informal, after-school engineering-related activities focusing on robotics, green energy, and automation. An emphasis is placed on activities and partnerships that promote knowledge, engagement, and interest in STEM fields in underserved schools and communities. This resource exchange presents activities from the final unit of the program's first year. In this project, high school students will build and experiment with a smart wireless weather station and indoor climate console with the goal of collecting and analyzing data to learn about the climate in their community while fostering STEM skills and interest in college and career pathways. 

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