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1. Development of a Mentorship Program in Engineering and Engineering Technology

   https://doi.org/10.18260/p.23862  

   Kaul, Sudhir; Chang, Guanghsu; Yanik, Paul; Ferguson, Chip (June 2015, American Society for Engineering Education Annual Conference and Exposition -)

   This paper discusses feasible means of integrating mentorship programs into engineering and engineering technology curricula. The two main motivations for investigating the development of such programs are to improve retention rates and to augment the efforts toward increasing the enrollment of minority students. In fact, it can be argued that a mentorship program can also indirectly assist in the achievement of critical student outcomes for accreditation. The model of mentorship presented in this paper involves a vertical integration of cohorts through a series of project-based learning (PBL) courses. Furthermore, this attempt is enhanced by the introduction of incentives that encourage student involvement in undergraduate research as well as on-campus engineering organizations. The specific focus of the mentorship is on student-student relationships in addition to the conventional faculty-student relationships. These relationships allow students to learn from each other since they are able to strongly relate to each other’s experiences among their peer group. The mentoring model proposed in this paper formulates a learning community that allows the student to form a support group and a mechanism for preventive intervention, as discussed in other studies on mentoring programs. Such student engagement is commonly acknowledged to significantly benefit the students as well as the student mentors involved in the program. Data from an initial student survey that measures the efficacy of the proposed mentorship program is included in this paper and these data are discussed in detail. A 1-5 Likert scale is used for quantitative analysis of the data in order to evaluate the self-efficacy of the program. The group size of the mentorship cohort has been limited to a maximum of thirty students at this stage. Preliminary analysis of the data indicates that the participating students have a strongly positive opinion of the program. 

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2. THE TRAJECTORY OF PSYCHOLOGICAL SAFETY IN ENGINEERING TEAMS: A LONGITUDINAL EXPLORATION IN ENGINEERING DESIGN EDUCATION

   Miller, S.; Marhefka, J.; Ritter, S.; Mohammad, S.; Jablokow, K. (January 2019, ASME 2019 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference IDETC/CIE 2019)

   Although teamwork is being integrated throughout engineering education because of the perceived benefits of teams, the construct of psychological safety has been largely ignored in engineering research. This omission is unfortunate, because psychological safety reflects collective perceptions about how comfortable team members feel in sharing their perspectives and it has been found to positively impact team performance in samples outside of engineering. Engineering team research has also been crippled by “snap-shot” methodologies and the resulting lack of investigation into the dynamic changes that happen within a team over course projects. This is problematic, because we do not know when, how, or what type of interventions are needed to effectively improve “t-shaped” engineering skills like teamwork, communication, and engaging successfully in a diverse team. In light of these issues, the goal of the current study was to understand how psychological safety might be measured practically and reliably in engineering student teams over time. In addition, we sought to identify the trajectory of psychological safety for engineering design student teams and identify the potential factors that impact the building and waning of psychological safety in these teams. This was accomplished through a 4-week study with 12 engineering design teams where data was captured at six time points. The results of this study present some of the first evidence on the reliability of psychological safety in engineering student populations. The results also help begin to answer some difficult fundamental questions on supporting team performance in engineering education. 

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3. Conceptualizing a Theory of Ethical Behavior in Engineering

   https://doi.org/10.18260/1-2--34324  

   Nguyen, Luan; Poleacovschi, Cristina; Faust, Kasey; Padgett Walsh, Kate; Feinstein, Scott; Rutherford, Cassandra (July 2020, American Society for Engineering Education)

   null (Ed.)
4. Conceptualizing a Theory of Ethical Behavior in Engineering

   Nguyen, L. M.; Poleacovschi, C.; Faust, K. M.; Padgett Walsh, K.; Feinstein, S. G.; Rutherford, C. (January 2020, 2020 ASEE Virtual Annual Conference Content Access)

   Traditional engineering courses typically approach teaching and problem solving by focusing on the physical dimensions of those problems without consideration of dynamic social and ethical dimensions. As such, projects can fail to consider community questions and concerns, broader impacts upon society, or otherwise result in inequitable outcomes. And, despite the fact that students in engineering receive training on the Professional Code of Ethics for Engineers, to which they are expected to adhere in practice, many students are unable to recognize and analyze real-life ethical challenges as they arise. Indeed, research has found that students are typically less engaged with ethics—defined as the awareness and judgment of microethics and macroethics, sensitivity to diversity, and interest in promoting organizational ethical culture—at the end of their engineering studies than they were at the beginning. As such, many studies have focused on developing and improving the curriculum surrounding ethics through, for instance, exposing students to ethics case studies. However, such ethics courses often present a narrow and simplified view of ethics that students may struggle to integrate with their broader experience as engineers. Thus, there is a critical need to unpack the complexity of ethical behavior amongst engineering students in order to determine how to better foster ethical judgment and behavior. Promoting ethical behavior among engineering students and developing a culture of ethical behavior within institutions have become goals of many engineering programs. Towards this goal, we present an overview of the current scholarship of engineering ethics and propose a theoretical framework of ethical behavior using a review of articles related to engineering ethics from 1990-2020. These articles were selected based upon their diversity of scope and methods until saturation was reached. A thematic analysis of articles was then performed using Nvivo. The review engages in theories across disciplines including philosophy, education and psychology. Preliminary results identify two major kinds of drivers of ethical behavior, namely individual level ethical behavior drivers (awareness of microethics, awareness of macroethics, implicit understanding, and explicit understanding) and institutional drivers (diversity and institutional ethical culture). In this paper, we present an overview and discussion of two drivers of ethical behavior at the individual level, namely awareness of microethics and awareness of macroethics, based on a review of 50 articles. Our results indicate that an awareness of both microethics and macroethics is essential in promoting ethical behavior amongst students. The review also points to a need to focus on increasing students’ awareness of macroethics. This research thus addresses the need, driven by existing scholarship, to identify a conceptual framework for explaining how ethical judgment and behavior in engineering can be further promoted. 

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5. Development of a Critical Consciousness Scale in Engineering.

   Motshubi, R. (January 2020, Engineering Project Organization Conference)