Engineering for Social Good? How Professional and Educational Experiences Inform Engineers' Solutions to Complex Problems

There have been a number of high-level calls for increased attention to contextual aspects of engineering work (including social, cultural, political, economic, environmental, and temporal considerations) as essential for ensuring the field can adequately address the complex problems of the modern world. However, the field of engineering – long grounded in a positivist tradition based on the primacy of technical considerations – has been slow to change. This qualitative study provided insight into how a persistent underemphasis on social and contextual aspects of engineering work in educational and professional settings is perpetuated, and how this underemphasis shapes the experiences of engineering undergraduate and graduate students and practitioners. Specifically, this study explored the aspects of engineering work emphasized in various local settings and the ways these informed engineers’ day-to-day practice as a potential mechanism that explains how a narrowly technical model of engineering work that largely neglects contextual considerations of engineering problems, is reproduced. In addition, the study highlighted how the aspects of engineering practice emphasized in study participants’ educational and professional settings (mis)aligned with their personal values and explored the implications of this misalignment for how these engineers viewed the field and their place within it. The study involved a two-phase design. Phase 1 was comprised of in-depth, semi-structured interviews with 46 engineering students and professionals from a range of academic and personal backgrounds about their experiences in solving a complex engineering problem, included the types of factors participants attended to in solving these problems. Phase 2 included follow-up interviews with a subset of 18 participants. The second phase used a card-sort task to identify the practices participants perceived to be most and least valued in the educational and professional contexts in which they had engaged and interview questions to elicit the ways in which these emphases did and did not align with their personal values and priorities. Analyses leveraged social practice theory (from the work of Dorothy Holland, Jean Lave, and colleagues) to explore the ways meaning and practice are negotiated within local cultures and the implications for how people and their actions are recognized and rewarded within those contexts. Findings from this study highlight the following: 1) the extent to which day-to-day engineering education and work overlooked social and contextual considerations, despite these being stated institutional and national priorities in engineering and priorities of many students and practitioners in the study; 2) how the neglect of contextual aspects of engineering training and work contexts was reproduced in the practice of these engineers when solving a complex problem; and 3) how the practices emphasized within engineering contexts varyingly aligned with participants’ own values and the consequences of this (mis)alignment for their sense of their fit in the field. These findings have implications for both the ability of engineers to understand and meet the needs of a complex global society as well as for the field’s ability to attract and retain a diverse engineering workforce. Specific recommendations based on this study’s findings include the importance of integrating contextual considerations throughout the core engineering curriculum and providing faculty and instructors the training and resources necessary to do so.PHDHigher EducationUniversity of Michigan, Horace H. Rackham School of Graduate Studieshttp://deepblue.lib.umich.edu/bitstream/2027.42/163112/1/emosy_1.pd

Teaching Creative Process across Disciplines

While there is great interest in higher education about teaching creative process, there have been relatively few studies of how courses can facilitate the development of creative skills. The goal of this study was to document how college instructors structure courses intended to develop students’ creative processes. The study data included interviews from instructors and students using a critical case sample of fifteen courses at a single U.S. University. A qualitative analysis of the transcripts yielded a set of 14 pedagogical elements appearing across courses. Common elements were open‐ended projects and skill‐building activities, and less frequently, risk taking experiences and self‐reflection. The sample included undergraduate courses in engineering, education, the liberal arts, and the arts, and the elements observed were often shared across courses from different disciplines. These findings provide a diverse set of pedagogical approaches and opportunities for building creative process skills within undergraduate courses.Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/148345/1/jocb158.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/148345/2/jocb158_am.pd

Drivers of research topic selection for engineering doctoral students

In this study, we explored engineering doctoral students’ motivations for selecting their research topic. The extent to whichindividuals are intrinsically or extrinsically motivated and the autonomy they have to make their own decisions hasimplications for their enjoyment of and success at a particular task. Given the importance of motivation, we sought toaddress a gap in the understanding of how doctoral students in engineering decide on a particular problem to study. Ourfindings are based on interviews with students with varying past educational and professional experiences that enable us tocapture a wide range of motivations for engineering PhD students’ research subject decisions. We found that the majorityof students interviewed reported some form of extrinsic motivation guiding their decision, though these students varied intheir autonomy to select their own topic. Of the students who reported intrinsic motivations for their research topicselection, many had extensive prior work experience that informed their topic choice. Funding played a major role inshaping students’ project decisions, which is reflective of the scale and expense of much of engineering work. However, ourfindings suggest there are a number of opportunities for students to identify research topics in which they personallyperceive as important and interesting

Systems thinking assessments in engineering: A systematic literature review

Engineers, facing increasingly complex problems, need to understand the technical and contextual aspects of their work to develop effective solutions. Assessments of comprehensive systems thinking skills are needed to support the development of these skills and to inform professional placement. Thus, our study investigated current systems thinking assessments in engineering by systematically reviewing existing assessments. We analyzed which systems thinking skills were emphasized, how they were evaluated, how data were collected and in what content areas assessments were based. The results revealed a range of assessments, in terms of type, format, and content area, but a lack of assessments that equally prioritized accounting for technical and contextual considerations. This overview of assessments can be used by employers and educators to select assessments appropriate for their contexts and goals. Overall, this study demonstrates a need for comprehensive systems thinking assessments that evaluate performance.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/173117/1/sres2808_am.pdfhttp://deepblue.lib.umich.edu/bitstream/2027.42/173117/2/sres2808.pd

JEE Selects Research in Practice: Reality Check

Mosyjowski et al cite that engineering professionals who return for advanced study after significant time in the workforce are an often overlooked group that can provide diverse perspectives and experiences within engineering programs. In their study, they focused on those who returned for an engineering PhD and potential factors that could shape their decisions to pursue and persist in doctoral study. They examined how returners\u27 perspectives compared with those of direct-pathway students who pursue an engineering doctorate shortly after completing their undergraduate degree. It is possible that lower pre-PhD expectancy of success and higher perceived costs could negatively shape returners\u27 decisions to enroll and persist in engineering doctoral programs. In light of this, they recommend that universities track returner status to better understand these students and target intervention