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1. Building Supports for Diversity through Engineering Teams

   Kirn, A. ; Godwin, A. ; Pearson, N. ; Rodriguez-Simmonds, H.E. ; Rohde, J.A. ; Verdín, D. ; Ross, M.S. ( June 2017 , ASEE Annual Conference proceedings)

   https://peer.asee.org/27918 Engineering has become a globally focused career with the need to work with people from diverse backgrounds. Researchers seeking to improve students’ teaming skills have found ways to assess team member effectiveness and development of teaming skills. Despite the emphasis on the importance of developing engineering students’ teaming skills, little research has been conducted on how students develop sensitivity for students from different cultures and backgrounds within teams in first-year engineering programs. Here we define diversity sensitivity as students’ multicultural openness and actions taken to incorporate diverse students. To address the lack of literature on diversity and teaming this work examines the following research questions: What changes occur in students’ diversity sensitivity, multicultural effectiveness, and engineering practices as a result of working in diverse teams? How do students’ perceptions of diversity, affect, and engineering practices change as a result of working on diverse teams? The focus of this paper is on the first phase of this three phase project, in which students’ multicultural openness, diversity sensitivity, and teaming effectiveness were measured quantitatively. Additionally, results from qualitative in-depth interviews further develop emerging trends in the quantitative portions of the work. Survey data were collected from participants enrolled in first semester first-year engineering programs at two institutions (n = 1206) as well as data from the Comprehensive Assessment of Team Member Effectiveness (n = 2763 inclusive of survey participants). We used linear modeling, advanced clustering techniques, and pre-post comparisons to understand underlying student attitudes as well as the ways in which students’ attitudes may shift over the course of the semester. Preliminary results indicate that students’ awareness of diversity increased over the semester; however, unwillingness to take action to support diverse groups also increased. We also found that student attitudes towards teaming are ‘sticky’ and difficult to shift over a single-semester experience even when teaming effectiveness and diversity are explicitly taught in the classroom. Additionally, five teams were observed throughout the course of the semester. These observations were conducted to understand how students interact in ways both explicit and implicit. that may or may not improve belongingness in engineering during teaming activities. Students from teams were interviewed individually after completion of their project to understand their perceptions of diversity. Initial trends indicate a valuing of diversity but a lack of adaptation for diverse individuals due to the demands of engineering tasks. Results of this quantitative and qualitative work were used to further refine instruments and data collection protocols for replication in the subsequent phases of the project. 

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2. Social Dialogue in the Engineering Classroom: The Effect of National Events on the Political and Social Attitudes of First-Year Engineering Students

   Langus, Tara C. ; Pearson, Nelson ; Major, Justin ; Rodríguez-Simmonds, Héctor E. ; Godwin, Allison ; Kirn, Adam ( January 2018 , ASEE annual conference & exposition)

   This research paper focuses on the effect of recent national events on first-year engineering students’ attitudes about their political identity, social welfare, perspectives of diversity, and approaches to social situations. Engineering classrooms and cultures often focus on mastery of content and technical expertise with little prioritization given to integrating social issues into engineering. This depoliticization (i.e., the removal of social issues) in engineering removes the importance of issues related to including diverse individuals in engineering, working in diverse teams, and developing cultural sensitivity. This study resulted from the shift in the national discourse, during the 2016 presidential election, around diversity and identities in and out of the academy. We were collecting interview data as a part of a larger study on students attitudes about diversity in teams. Because these national events could affect students’ perceptions of our research topic, we changed a portion of our interviews to discuss national events in science, technology, engineering, and mathematics (STEM) classrooms and how students viewed these events in relation to engineering. We interviewed first-year undergraduate students (n = 12) who indicated large differences of attitudes towards diverse individuals, experiences with diverse team members, and/or residing at the intersection of multiple diversity markers. We asked participants during the Spring of 2017 to reflect on the personal impact of recent national events and how political discussions have or have not been integrated into their STEM classrooms. During interviews students were asked: 1) Have recent national events impacted you in any way? 2) Have national events been discussed in your STEM classes? 3) If so, what was discussed and how was it discussed? 4) Do these conversations have a place in STEM classes? 5) Are there events you wish were discussed that have not been? Inductive coding was used to analyze interviews and develop themes that were audited for quality by the author team. Two preliminary themes emerged from analysis: political awareness and future-self impact. Students expressed awareness of current political events at the local, national and global levels. They recognized personal and social impacts that these events imposed on close friends, family members, and society. However, students were unsure of how to interpret political dialogue as it relates to policy in engineering disciplines and practices. This uncertainty led students to question their future-selves or careers in engineering. As participants continued to discuss their uncertainty, they expressed a desire to make explicit connections between politics and STEM and their eventual careers in STEM. These findings suggest that depoliticization in the classroom results in engineering students having limited consciousness of how political issues are relevant to their field. This disconnect of political discourse in the classroom gives us a better understanding of how engineering students make sense of current national events in the face of depoliticization. By re-politicising STEM classrooms in a way relevant to students’ futures, educators can better utilize important dialogues to help students understand how their role as engineers influence society and how the experiences of society can influence their practice of engineering. 

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3. A Mixed Methods Analysis of Student Experiences in Diverse Teams

   Jackson, Ben P. ; Rodríguez-Simmonds, Héctor E. ; Kirn, Adam ; Godwin, Allison ( January 2017 , Proceedings - Frontiers in Education Conference)

   This work-in-progress research paper describes the initial findings of research on students’ attitudes about diversity in first-year engineering teams. We used quantitative pre- and post-survey data and qualitative interviews with student teams to understand students’ initial attitudes about diversity and teaming and how those were affected by engineering teaming experiences over a semester. The qualitative and quantitative data analyses interact throughout the project’s iterations, with each informing the other. Here, we review the progress made through in-depth qualitative analysis when compared to survey data about changes in variance of students’ attitudes towards teaming. By using an iterative mixed methods approach, we are able to explore the subtle distinctions in students’ attitudes and experiences affecting diverse teaming experiences. In this paper, we will detail this iterative process and how it has produced more nuanced findings than a particular research paradigm alone. 

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4. Forget Diversity, Our Project is Due

   Rodriguez-Simmonds, H.E. ; Pearson, N.S. ; Rohde, J.A. ; Vealey, K.P. ; Kirn, A. ; Godwin, A ( June 2017 , ASEE Annual Conference & Exposition)

   https://peer.asee.org/28378 This research paper examines how four first-year engineering students interact with one another in teams to answer two research questions: 1) How do students experience working in diverse teams? and 2) Do their perceptions of diversity, affect, and engineering practice change as a result of working in diverse teams? Despite engineering's emphasis on developing students’ teaming skills, little research has been conducted on how students develop sensitivity to students from different cultures and backgrounds within diverse teams. We interviewed four students in a first-semester, first-year engineering team twice for a total of eight interviews to understand their experiences working in diverse teams. Each interview was analyzed using a modified form of Interpretative Phenomenological Analysis (IPA) to understand the lived experience of each participant. In this paper, we present the results from the qualitative analysis of one team’s complete interviews as a first step in the larger research project. 

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5. Assessing Awareness and Competency of Engineering Freshmen on Ethical and Responsible Research and Practices

   1. Brahmbhatt*, P. ( June 2022 , Proceedings of the American Society for Engineering Education)

   This paper presents the initial work of a recently funded NSF project on ethical and responsible research and practices in science and engineering. The objective of this research is to improve instructor training, interventions, and student outcomes in high schools and universities to improve awareness and commitment to ethical practices in STEM coursework. The project will generate a robust snapshot of the ethical knowledge, reasoning skills, attitudes, and practices of several thousand undergraduate engineering students. This snapshot will inform the development of a three-week enrichment opportunity for high school STEM teachers. Working with university faculty and graduate students, these teachers will develop learning modules on ethical issues related to their courses. The snapshot will also identify gaps and guide the creation of targeted interventions that will be used in second-, third-, and fourth-year engineering courses. This data-driven project uses a mixed-methods approach to generate a better understanding of the impact of ethics interventions at various points in a student's academic development by developing and using a set of instruments to measure cognitive, affective, and behavioral aspects of ethical competency and self-efficacy. To that end, a second snapshot will be taken by testing and surveying engineering students in their capstone courses to provide a broad overview of the competence and self-confidence that engineering students have in dealing with ethical STEM issues, to determine the efficacy of various interventions, and to improve future interventions. Utilizing repeated measures and possessing a longitudinal dimension, the project will generate extensive data about the development of ethical competency, ethical self-efficacy, and their relationship. The interventions designed for secondary and tertiary classrooms will build on best practices for micro-insertion of ethics content that are practical and help students understand how technical competencies fit within broader social, economic, and environmental contexts. The capstone snapshot will also provide some measure of the impact of other experiences (e.g., undergraduate research, internships, service learning) and courses (e.g., humanities, social science, and business courses) on development of ethical practices. This report marks the start of a five-year project; therefore, the results presented in this paper represent findings from the engineering ethics literature and baseline results from survey of engineering freshmen at Texas A&M University. The findings from the survey are being utilized in developing intervention modules that will be integrated in upper-level engineering courses and training materials for high school teachers. 

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