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1. 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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2. 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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3. Early Career Engineers’ Views of Ethics and Social Responsibility: Study Overview

   Claussen, S. ; Jesiek, B. K. ; Zoltowski, C. B. ; Howland, S. ( July 2021 , Proceedings of the 2021 American Society of Engineering Education Virtual Annual Conference)

   null (Ed.)

   Amidst growing concerns about a lack of attention to ethics in engineering education and professional practice, a variety of formal course-based interventions and informal or extracurricular programs have been created to improve the social and ethical commitments of engineering graduates. To supplement the formal and informal ethics education received as undergraduate students, engineering professionals often also participate in workplace training and professional development activities on ethics, compliance, and related topics. Despite this preparation, there is growing evidence to suggest that technical professionals are often challenged to navigate ethical situations and dilemmas. Some prior research has focused on assessing the impacts of a variety of learning experiences on students’ understandings of ethics and social responsibility, including the PIs’ prior NSF-funded CCE STEM study which followed engineering students through the four years of their undergraduate studies using both quantitative and qualitative research methods. This prior project explored how the students’ views on these topics changed across demographic groups, over time, between institutions, and due to specific interventions. Yet, there has been little longitudinal research on how these views and perceptions change (or do not change) among engineers during the school-to-work transition. Furthermore, there has been little exploration of how these views are influenced by the professional contexts in which these engineers work, including cultures and norms prevalent in different technical fields, organizations, and industry sectors. This NSF-supported Ethical and Responsible Research (ER2) study responds to these gaps in the literature by asking: RQ1) How do perceptions of ethics and social responsibility change in the transition from undergraduate engineering degree programs to the workplace (or graduate studies), and how are these perceptions shaped or influenced?, and RQ2) How do perceptions of ethics and social responsibility vary depending on a given individual’s engineering discipline/background and current professional setting? This paper gives an overview of the research project, describing in particular the longitudinal, mixed-methods study design which will involve collecting and analyzing data from a large sample of early career engineers. More specifically, we will present the proposed study contexts, timeline, target subject populations, and procedures for quantitative and qualitative data collection and analysis. We will also describe how this study leverages our prior project, thereby allowing unique longitudinal comparisons that span participants’ years as an engineering undergraduate student to their time as an early-career professional. Through this project, we aim to better understand how early career engineers’ perceptions of social and ethical responsibility are shaped by their prior experiences and current professional contexts. This paper will likely be of particular interest to scholars who teach or research engineering ethics, social responsibility, and professional practice. 

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4. Studying the Formation of Engineers: A Case Study of a Higher-education Learning Ecology

   Korte, Russell ; LeBlanc, Saniya ( July 2021 , ASEE Annual Conference proceedings)

   null (Ed.)

   The development of professional engineers for the workforce is one of the aims of engineering education, which benefits from the complementary efforts of engineering students, faculty, and employers. Typically, current research on engineering competencies needed for practice in the workplace is focused on the experiences and perspectives of practicing engineers. This study aimed to build on this work by including the perspectives and beliefs of engineering faculty about preparing engineering students, as well as the perspectives and beliefs of engineering students about preparing for the workplace. The overall question of the research was, “What and how do engineering students learn about working in the energy sector?” Additional questions asked practicing engineers, “What is important to learn about your work and how did you learn what was important when you started in this industry? For engineering faculty, we asked, “What is important for students to learn as they prepare for work as professionals in the energy industry?” We anticipated that the findings of triangulating these three samples would help us better understand the nature of the preparation of engineering students for work by exploring the connections and disconnections between engineering education in school and engineering practice in the workplace. The aim was to map out the complex ecosystem of professional learning in the context of engineering education and practice. The core concept framing this study is the development of competence for engineering practice—including the education of students in the context of higher education and the practical learning of newly hired engineers on the job. Initial findings of the work-in-progress describe the nature of instruction and learning in higher education, learning in the workplace, along with comparisons and contrasts between the two. As of this point, we have initially mapped the learning ecosystem in the workplace based on in-depth, qualitative interviews with 12 newly hired engineers in the target energy company. In addition, we are analyzing interviews with two managers in the company and three other experienced leaders in the energy industry (this sample is currently in process and will include interviews with more participants). Currently, we are analyzing and mapping the learning and experiences of students in their studies of energy engineering and the instructional goals of engineering faculty teaching and mentoring these students. The map of the higher education ecosystem will connect with the workplace ecosystem to portray a more longitudinal map of the learning and development of professional competence of engineering students preparing for their career in the energy sector. The findings of the analysis of the workplace emphasized the importance of the social and relational systems in the workplace, while very preliminary indications from the educational context (students and faculty) indicate initial awareness of the social context of energy practice and policy. There are also indications of the nature of important cultural differences between higher education and industry. We continue to collect data and work on the analysis of data with the aim of mapping out the larger learning and experience ecosystem that leading to professional competence. 

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5. What Early Career Civil Engineers Wish They Had Done Differently: Lessons For Students and Faculty

   Grajdura, Sarah Allison ; Beddoes, Kacey ( January 2022 , American Society for Engineering Education Annual Conference)

   That the school-to-work transition can be challenging for many recent engineering graduates is well known [1]–[7]. However, current students and faculty rarely get an opportunity to learn directly from the mistakes, regrets, and hindsight of recent graduates during their first few years in the workplace. In order to help make students’ transition to engineering practice easier, and, relatedly, to help faculty prepare them in salient ways, this paper addresses the following research questions: 1) What do newcomer civil engineers believe are the biggest mistakes they made in their first few years on the job? and 2) If they could go back to when they began their jobs, what would they have done differently? As part of a mixed-methods, longitudinal study that aims to explore organizational socialization in engineering practice, sixteen early career civil engineers who worked in different firms around the country were asked about their work experiences, including their biggest mistakes and what they would have done differently at work knowing what they know now. Participants said their biggest mistakes related to not asking enough questions, undervaluing/not advocating for oneself, and staying in a position they dislike. Less mentioned issues included specific personal habits, attitudes, and unrealistic expectations from university education. When asked what they would have done differently from the first day at work until now, most responses related to having more confidence, networking and socializing more, and other specific personal behaviors, such as better organization. Less mentioned themes included requesting a higher salary, asking more questions, learning more material, and advocating for their own interests. The results have important implications for successfully preparing civil engineering students to begin their careers. By identifying these gaps in preparation, the paper points to recommendations for the civil engineering community. 

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