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1. Development of a Middle School Architectural Engineering Pilot Program (Work in Progress)

   Wang, T; Jun Chee Yong, L.; Hanagan, L.M.; Godwin, A. (January 2022, American Society for Engineering Education Annual Conference & Exposition)

   This Work in Progress (WIP) paper describes the development of a middle school program focused on an integrated STEM architectural engineering design project and exploration of career pathways. The current engineering workforce is increasingly aging, needing new engineering graduates to meet the industry demands. It is crucial to create inclusive educational programs in STEM to expose and connect with youths from diverse backgrounds, especially the demographics that are underrepresented, in STEM career paths. Middle school is a pivotal time for generating students’ awareness of and promoting pathways into STEM careers; however, opportunities to engage in engineering are often lacking or nonexistent, particularly for low-income students. Additionally, low-income students may bring particular experiences and skills from their backgrounds to engineering that may increase the innovation of engineering solutions. These assets are important to recognize and cultivate in young students. The Middle School Architectural Engineering Pilot Program (MSAEPP), drawing from social cognitive career theory and identity-based motivation, is an intervention designed to affect STEM-related content and STEM identities, motivation, and career goals for low-income students using relatable topics within the building industry. The focus on architectural engineering activities is because buildings, and the industry they represent, touch everyone’s lives. The MSAEPP is planned to be implemented through the Talent Search Programs at middle schools in Pennsylvania. The Talent Search Program is one of the Federal TRIO Programs dedicated to assisting high school students in furthering their education. Penn State Talent Search Programs serve 22 schools in 8 impoverished school districts. The pilot program engages middle school students (seventh and eighth grade) in architectural engineering-related lessons and activities, by exploring engineering identities interactions with architectural engineering industry professionals, and by planning potential career pathways in architectural engineering and other STEM careers with Talent Search Counselors. The purpose of this paper is to present the background and process used in this funded NSF project for developing the suite of architectural engineering related lessons and activities and the research plan for answering the research question: How do the combination of meaningful engineering learning, exposure to professional engineers, and career planning, focused on building industry engineering applications, increase identity-based motivation of students from low-income households and marginalized students in pursuing STEM careers? Answering this question will inform future work developing interventions that target similar goals and will validate and expand the identity-based motivation framework. Keywords: middle school, identity, motivation, informal education. 

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2. Development of a Middle School Architectural Engineering Pilot Program (Work in Progress)

   Wang, T; Yong, L; Hanagan, L; Godwin, A (January 2022, ASEE 2022: American Society for Engineering Education Annual Conference & Exposition. Minneapolis, MN)

   This Work in Progress (WIP) paper describes the development of a middle school program focused on an integrated STEM architectural engineering design project and exploration of career pathways. The current engineering workforce is increasingly aging, needing new engineering graduates to meet the industry demands. It is crucial to create inclusive educational programs in STEM to expose and connect with youths from diverse backgrounds, especially the demographics that are underrepresented, in STEM career paths. Middle school is a pivotal time for generating students’ awareness of and promoting pathways into STEM careers; however, opportunities to engage in engineering are often lacking or nonexistent, particularly for low-income students. Additionally, low-income students may bring particular experiences and skills from their backgrounds to engineering that may increase the innovation of engineering solutions. These assets are important to recognize and cultivate in young students. The Middle School Architectural Engineering Pilot Program (MSAEPP), drawing from social cognitive career theory and identity-based motivation, is an intervention designed to affect STEM related content and STEM identities, motivation, and career goals for low-income students using relatable topics within the building industry. The focus on architectural engineering activities is because buildings, and the industry they represent, touch everyone’s lives. The MSAEPP is planned to be implemented through the Talent Search Programs at middle schools in Pennsylvania. The Talent Search Program is one of the Federal TRIO Programs dedicated to assisting high school students in furthering their education. Penn State Talent Search Programs serve 22 schools in 8 impoverished school districts. The pilot program engages middle school students (seventh and eighth grade) in architectural engineering related lessons and activities, by exploring engineering identities interactions with architectural engineering industry professionals, and by planning potential career pathways in architectural engineering and other STEM careers with Talent Search Counselors. The purpose of this paper is to present the background and process used in this funded NSF project for developing the suite of architectural engineering related lessons and activities and the research plan for answering the research question: How does the combination of meaningful engineering learning, exposure to professional engineers, and career planning, focused on building industry engineering applications, increase identity-based motivation of students from low-income households and marginalized students in pursuing STEM careers? Answering this question will inform future work developing interventions that target similar goals and will validate and expand the identity-based motivation framework. Keywords: middle school, identity, motivation, informal education. 

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3. School counseling practices related to postsecondary STEM participation

   https://doi.org/10.1002/cdq.12338  

   Gearns, Richard; Kelly, Angela M.; Bugallo, Mónica F. (December 2023, The Career Development Quarterly)

   Abstract This qualitative exploratory cross‐case analysis analyzed the beliefs and practices of high school counselors related to science, technology, engineering, and mathematics (STEM) academic advisement, postsecondary planning, and career participation. Interviews were conducted with high school counselors (N = 13) who were purposively sampled to represent a diversity of schools in terms of demographic variables. Findings indicated that high school counselors perceived that (a) sociocultural factors influenced student preparation for STEM, career planning, and decision making; (b) students’ STEM‐related career goals and academic behaviors were sometimes misaligned, and academic advisement often mediated this tension; and (c) their professional STEM knowledge, beliefs, and practices were influenced by professional preparation, workplace characteristics, and their academic experiences. Implications include the need for early, sustained high school STEM counseling and academic advisement; accessible professional development in STEM preparation and careers to promote multiple pathways and reduce school counselor bias; and encouraging family involvement in STEM career decision making. 

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4. Exploration of a Bridge Program to Increase Student Understanding of Emerging Technological Fields

   https://doi.org/10.5281/zenodo.13989056  

   Synder, Sam; Labrie, Josh; Schuh-Nuhfer, Natasha; Russell, Christopher (August 2024, Journal of advanced technological education)

   Bridge programs are common interventions colleges implement to improve student recruitment, retention, and performance. Key components are typically specific content instruction, tutoring, mentoring, and college orientation. This paper provides the results of a short-duration summer bridge program designed to increase student awareness of emerging technological fields in engineering technology (ET), specifically the semiconductor and data center industries. High school students in the summer bridge program were provided with information about NOVA’s ET programs, participated in hands-on activities around topics important to semiconductor and data center operations (DCO) technician careers, and met industry representatives through industry site tours. Student data includes participant changes in understanding of ET educational and career pathways, knowledge of OSHA and industrial safety, understanding of college success skills and strategies, and interest in ET careers. Results of the study demonstrated that students of all subgroups (e.g., gender, grade level, race, ethnicity) exhibited equivalent improvement in their understanding of ET education and career pathways while student outcomes in OSHA and college success skills varied by subgroup. Based on these results, the use of a short-duration bridge program is one mechanism for post-secondary institutions to increase awareness of emerging technologies and educational pathways to support careers in those technologies 

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5. The Impact of Engineering Summer Camp Counseling on Students' Community Cultural Wealth and Engineering Identities

   https://doi.org/10.18260/1-2--48107  

   Fleming, Gabriella; Julien, Christine; Fernandez, Kiersten (June 2024, ASEE Conferences)

   It has been shown that out-of-classroom experiences build engineering students’ professional skills and engineering identities. Many other universities host engineering summer camps for middle and high school students and employ engineering undergraduate students as camp counselors. These camps are designed for students with minimal previous exposure to engineering. In this research study, we explore the impact of working as a counselor in these camps on counselors’ Community Cultural Wealth (CCW) assets and self-defined characteristics of an engineer. Five summer camp counselors in one institution’s 2023 summer camp programs participated in post-camp semi-structured interviews about their experiences as counselors. Two counselors identified as Black/ African American and three as Hispanic/ Latino/a/é; two identified as women and three as men. Collectively, counselors discussed all six types of capital in the CCW framework. Most commonly, they reported that they are actively improving skills they believe engineers to have (aspirational capital), that being a camp counselor improved their communication skills (linguistic capital), and built them a close network of friends that many consider to be like family (familial capital). Those who were in affinity-based student orgs, such as the National Society of Black Engineers (NSBE) and the Society of Hispanic Professional Engineers (SHPE), encouraged non-members to join, building their social capital on campus. One participant mentioned that because being a camp counselor was her first job, she gained valuable life skills such as completing tax forms and managing a personal budget (navigational capital). Some counselors also talked about what it meant to them to be role models for campers of their same racial/ ethnic backgrounds, since they didn’t know such engineers growing up (resistant capital). While out-of-classroom engineering experiences and their effects are well-studied, they are often limited to experiences such as extracurricular engineering activities or service learning projects. Despite the prevalence of engineering summer camp programs, the effects of working as a camp counselor are understudied. We hope that the results of this study will compel those running engineering summer camps to think not only about what the campers, but also the camp counselors themselves, are gaining from participating in these programs. 

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