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1. Understanding the Perceived Impact of Engineers’ Leadership Experiences in College

   Schell, William J; Hughes, Bryce E; Tallman, Brett (June 2018, ASEE annual conference & exposition)

   In order to lead the social process required to solve society’s grandest challenges and ensure that the capabilities of an expanded engineering workforce are successfully harnessed, new engineers must be more than just technical experts—they must also be technical leaders. Greater numbers of engineering educators are recognizing this need and establishing engineering leadership certificates and minors through centers at universities throughout the country. While the implementation of these offerings is a step forward, most programs tend to focus on leadership as a set of skills or experiences bolted onto a traditional engineering education with limited formal evidence of the impact these experiences have on student development. The purpose of this study is to test the effect of experiences engineering students have in leadership roles on their perceived gains in leadership skills, using a national dataset. The framework guiding this study is a model for engineering leadership identity constructed from Lave and Wenger’s communities of practice model and Komives et al.’s model for leadership identity development (LID) which recognizes that the engineering formation process is, at its core, an identity development process. Engineering leadership is theorized to develop from peripheral participation in engineering communities of practice in ways that promote students’ leadership development. Specifically, undertaking leadership roles in curricular and co-curricular engineering activities develops students’ sense of engineering leadership identity, which results in their recognition of gains in different leadership skills. The data for this study come from the 2015 administration of the National Survey of Student Engagement (NSSE), overseen by the Center for Postsecondary Research at Indiana University. The NSSE is administered to a random sample of first- and fourth-year students, and focuses on curricular and co-curricular student engagement. In 2015, NSSE included a pilot module to assess leadership experiences at 21 participating institutions. The overall sample includes 2607 students who held a leadership role, among whom are 90 engineering students. The dependent variables for this study are a set of eight items prompting students to indicate the extent to which participation in a leadership role contributed to development of different leadership skills. This study employs multiple regression to test the relationships among leadership related experiences and eight leadership skill outcomes for engineering students. Significant results across the eight regression models paint a complex portrait regarding factors that affect gains in leadership skills for engineering students. For example, receiving formal leadership training is a significant positive predictor of only three of the leadership outcomes explored in this work: thinking critically and analytically, working effectively with others, and continuing leadership after college. These results can be utilized by educators engaged in Engineering Leadership education to tailor their program experiences and better achieve the desired educational outcomes. 

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2. Community Cultures: Broadening Participation By Understanding How Rural Communities Support Engineering as a College Major Choice

   Paretti, Marie C.; Grohs, Jacob R.; Anderson, William Michael; Lester, Marlena McGlothlin; Baum, Liesl M.; Newbill, Phyllis Leary; Kelly, Stacey Leigh (July 2018, 2018 ASEE Annual Conference & Exposition)

   his project is supported by an NSF BPE grant. Career choices, such as engineering, are influenced by a number of factors including personal interest, ability, competence beliefs, prior work-related experience, and financial and social supports. However, financial and social support, a particularly significant factor for rural students’ career decisions, is often overlooked in the literature exploring career choice. Moreover, little work has explored how communities serve as key influencers for supporting or promoting engineering as a career choice. Therefore, the goal of this study is to explore the ways in which communities provide support to students deciding to pursue engineering as a college major. To better understand how students from selected rural area high schools choose engineering as a major, we conducted focus group discussions consisting of 4-6 students each from selected schools to talk collectively about their high school experiences and their choice to major in engineering. Choosing focus group participants from different schools enabled us to elicit tacit perceptions and beliefs that may not be evident when students from the same community talk with one another. That is, as students share their experiences across schools, they may recognize differences in their experiences that, though otherwise unconscious or unacknowledged, proved significant in their choice of college and major. We expect that certain community programs and the individuals involved will have some influence on students’ decisions to study engineering at [University Name]. We anticipate that the results will yield two key outcomes: 1. A holistic understanding of the communities that effectively support and encourage engineering major choice for rural students. 2. Locally driven, contextually relevant recommendations for policies and programs that would better enable economically disadvantaged, rural schools in southwestern Virginia to support engineering as a career choice for high school students. By understanding the ways some economically-disadvantaged rural communities support engineering as a career choice and linking a broad spectrum of rural communities together around this issue, this project will broaden participation in engineering by increasing support for students from these areas. By shifting our focus from students to communities, this research broadens our understanding of career choice by capturing the perspectives of community members (including not only school personnel, but also community leaders, students’ families, business owners and others) who often play a key role in students’ decisions, particularly in rural communities. Our research will bring these voices into the conversation to help scholars learn from and respond to these essential community perspectives. In doing so, we will provide a more nuanced model of engineering career choice that can then be explored in other rural contexts. This work thus contributes to the research on career choice, rural education, and engineering education. © 2018 American Society for Engineering Education 

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3. An Approach to Understand the Role of Identity in Engineering Leadership

   Schell, Wiliam J; Hughes, Bryce E. (June 2017, ASEE annual conference & exposition)

   In order to most effectively contribute to the development of solutions to society’s greatest challenges, engineers must learn to lead the interdisciplinary teams required to develop these solutions. However, most undergraduate engineering programs do little to develop leadership skills in their students. Perhaps, one reason for this gap between needs and education is a conflict between the development of an engineering identity and a leadership identity. To date, the literature contains little work that illustrates the role leadership concepts play in the formation of an engineering identity. Therefore, more work is needed to understand the formation of a leadership identity within the formation of an engineering identity. Together, these development processes constitute the formation of engineering leaders. This paper presents the methods underway to validate and refine a proposed theoretical model of engineering leadership identity development. This model can be used to reshape existing engineering leadership education programs and integrate leadership into the engineering curriculum in an innovative manner. The model starts with a fundamental assumption that the engineering leadership formation process is, at its core, an identity development process. This assumption is also central to two established theoretical perspectives that informed the construction of this model. Lave and Wenger’s (1991) communities of practice model argues that the development of a professional identity is the outcome of learning within a community of practice, and is frequently used to explain the process by which undergraduates develop a sense of engineering identity. The communities of practice model is then combined with Komives, Owen, Longerbeam, Mainella, and Osteen’s (2005) Leadership Identity Development Model to outline how engineering students might cultivate a self-concept as a leader. A key argument within this model is that college students develop a personal sense of leadership as an identity when they view leadership as a process, not merely a position. This paper first explains the development of this theoretical model of engineering leadership identity development combining the literature from engineering identity development, leadership identity development within collegiate populations, and engineering leadership. Following this explanation, this work focuses on the methods developed and currently being deployed to validate and refine the model, including initial findings from this research. 

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4. Development of Leadership Self-Efficacy: Comparing Engineers, Other STEM, and Non-STEM Majors

   https://doi.org/10.1109/fie.2018.8658493  

   Hughes, Bryce E.; Schell, William J.; Tallman, Brett (October 2018, 2018 IEEE Frontiers in Education Conference (FIE))

   The purpose of this work in progress research paper is to examine the differences in leadership self-efficacy among engineering undergraduates and their peers in other fields, and understand how leadership self-concept changes from the first through the fourth year of college. This study conceptualizes engineering formation as a professional identity development process, cultivated through participation in engineering communities of practice. The guiding hypothesis is that experiences that contribute to engineering identity, which focus on the development of technical mastery, conflict with the development of leadership self-concept. This work presents preliminary analysis of the differences between engineering undergraduates and their peers with regard to their leadership experiences during college. Preliminary results reveal a complex picture of the differences between engineering students and their peers in other STEM and non-STEM fields. Engineering students have the highest leadership self-efficacy of all three groups by the end of the fourth year of college, which mirrors differences in self-rated leadership skills at college entry. However, differences in leadership experiences during college vary among these three groups, and not consistently with their leadership self-efficacy. Engineers are least likely to participate in a leadership training during college and to value becoming a leader after college. Among engineering students, students who participate in internships, undergraduate research, and collaborate with peers report higher leadership. Leadership is unrelated to plans to enter engineering as a career. 

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5. Building a Leadership Toolkit: Underrepresented Students' Development of Leadership-Enabling Competencies through a Summer Research Experience for Undergraduates (REU) in Engineering Education

   https://doi.org/10.18260/1-2--43054  

   Volpe, Elizabeth; Simmons, Denise; Rojas, Sara (June 2023, ASEE Conferences)

   The development of inclusive leaders is essential for the success of future engineering and our nation. Equipping students with vital leadership-enabling competencies is necessary to develop a workforce that is prepared to act ethically, and responsibly, and tackle unforeseen challenges in the future. Inclusive leaders, or leaders that are self-aware, empathetic, and prioritize diversity, equity, and inclusion in their decision-making, are essential for the forward progress of engineering. A growing body of literature highlights the numerous ways in which students may develop leadership skills outside of the classroom through involvement in out-of-class activities (e.g., internships, clubs, sports, and research experiences). Research Experiences for Undergraduates (REUs) may provide students with a unique opportunity to develop leadership-enabling competencies that will prepare them for leadership in graduate school, the engineering industry, or academia. The goal of this research was to identify how students’ engagement in an engineering education virtual REU site contributed to their development of essential leadership-enabling competencies. The research question guiding this study was ‘What inclusive leadership-enabling competencies and skills did engineering students learn and develop during an engineering education Summer REU program?’ Qualitative data was collected via weekly open-ended surveys from 9 students (7 women, 2 men) participating in an REU over 9 weeks. Participants in this study consisted of students from underrepresented groups in engineering (e.g., Black, Latinx, women, students from low SES backgrounds, or first-generation students), attending large public research universities across the United States. This study implemented mixed methods to understand what leadership competencies were occurring most frequently and how students were learning and developing these competencies. A combination of text mining for frequency (quantitative analysis) and deductive and inductive coding (qualitative analysis) was used to analyze the data. A codebook was developed based on the leadership-coupled professional competencies that engineering industry leaders identified as essential for engineers entering the workforce. Researchers also allowed for other competencies and leadership-enabling skills to emerge from the data. Findings from this work indicate that students were developing a vast amount of inclusive leadership knowledge and skills from participating in the virtual REU site. This paper highlights, through the use of word clouds and text mining software, the many leadership-enabling competencies that participants developed throughout the summer research experience (e.g., learning, communication, adaptability, self-awareness, balance, networking, etc.). Further, students were able to develop digital literacy, increased communication skills, knowledge of career pathways, intrapersonal growth, and interpersonal relations. This work offers a novel contribution to the literature in understanding how students can develop technical engineering and research skills as well as professional and leadership skills in the same space. Findings from this work help to illuminate the benefits of this virtual REU site focused on engineering education research resulting in terms of developing inclusive leadership skills. Implications for future REU programs, students interested in developing leadership skills, engineering graduate programs, academia, and industry employers are outlined. 

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