More Like this

1. Ethics in engineering or engineering in ethics?

   Fore, G. A. ; Hess, J. L. ; Katz, A. ( June 2020 , ASEE annual conference exposition)

   This paper explores how the relationship between ethics and engineering has been and could be framed. Specifically, two distinct framings will be conceptualized and explored: ethics in engineering and engineering in ethics. As with other disciplines, engineering typically subsumes ethics, appropriating it as its own unique subfield. As a framing, ethics in engineering produces specialized standards, codes, values, perspectives, and problems distinct to engineering thought and practice. These form an engineering education discourse with which engineers engage. It is epistemological in its focus, meaning that this framing constructs knowledge of proper disciplinary conduct. On the other hand, engineering in ethics as a framing device insists that engineering become a specialized articulation of ethical thought and action. Here, “engineer” and “engineering” are not nouns but verbs, referring to particular processes and technologies for transformation. One is not an “engineer;” rather, one “engineers.” One is first an ethical subject – an historical aggregate of continuous experiences/becomings – concerned with the pursuit of “the good” in the present; then, when contextually relevant, such a subject’s engineering knowledge and skills may be employed as powerful means for the becoming-good of shared worlds. In this paper, engineering in ethics is further conceptualized through a playful intermingling of an ethic of care, via the scholarship of Joan Tronto, and a Deweyian approach to ethical inquiry. Tronto’s four elements of care – attentiveness, responsibility, competence, and responsiveness – are joined with what are arguably four key components of Dewey’s process of ethical inquiry: awareness, judgment, experimentation, and iteration. This paper argues that 1) being attentive is required to achieve awareness of a given need or problem, 2) taking responsibility is a necessary practice for making and acting on one’s judgements related to the need at hand, 3) competence in a relevant skill is needed to experiment with one’s judgements, and 4) careful consideration of how others respond to how one has addressed a need is essential for the purposes of iteration. While all four contribute to the notion of engineering in ethics, the relationship between competence and experimentation is where engineering is most evidently seized as an ethical expression. How one competently wields engineering knowledge and skillfully performs disciplinary techniques is, here, foremost about actively inquiring into how to provide care for a specific need and, in doing so, creating a world aligned with one’s vision of “the good.” This paper will close with a brief consideration of the educational implications of engineering in ethics. 

   more » « less
2. 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. 

   more » « less
3. Re-contextualizing Civil Engineering Education: A Systematic Review of the Literature

   Sanford, K. ( August 2022 , ASEE annual conference)

   Emphasizing socio-political context in undergraduate engineering courses is a complex challenge for accredited American engineering programs as they strive to pivot towards a more equitable future. Teaching engineering problem solving by isolating the technical perspective is the dominant culture, and change has been slow and insufficient. Looking at the complex human circumstances in which engineered systems are situated has significant, and sometimes life saving, benefits. On the contrary, the common de-contextualized approach to teaching engineering has been shown to have significant impacts on how students behave as future engineers. Furthermore, eurocentric teaching practices have been documented as a contributor to the lack of gender and ethinic diversity in engineering. Re-contextualizing civil engineering courses has shown to increase students' motivation, sense of social responsibility, and agency. The ASCE Code of Ethics states that “Engineers … first and foremost, protect the health, safety, and welfare of the public,” a notion that was first added to the code in 1977. In recent years, some civil and environmental engineering (CEE) faculty members and programs have responded to this ethical imperative by re-contextualizing civil engineering education in relation to the communities (“the public”) the civil engineer is ethically obligated to protect and serve. To determine the extent of these efforts to re-introduce socio-technical context in CEE curricula, we are conducting a systematic review of the published literature. The objectives of this research are to document, synthesize, and amplify the work of these scholars and to encourage the community of CEE faculty to re-contextualize the knowledge and skills taught in the CEE curriculum. This paper describes the methodology, including search terms and sources examined, reports the preliminary results of the review, and synthesizes the preliminary findings. Future work will propose strategies and structures that could be adapted and employed by civil engineering faculty throughout the U.S. to 1) engage and retain students from groups that historically have been excluded from CEE and 2) better educate CEE students to engineer a more equitable and just future. 

   more » « less
4. Re-contextualizing Civil Engineering Education: A Systematic Review of the Literature

   Sanford, K. ; Paige, F. ; Parker, P. ; Valdes-Vasquez, R. ; Canevari, P. ; Larsen, T. ; Diacik, E. ( January 2022 , 2022 ASEE Annual Conference & Exposition)

   Emphasizing socio-political context in undergraduate engineering courses is a complex challenge for accredited American engineering programs as they strive to pivot towards a more equitable future. Teaching engineering problem solving by isolating the technical perspective is the dominant culture, and change has been slow and insufficient. Looking at the complex human circumstances in which engineered systems are situated has significant, and sometimes life saving, benefits. On the contrary, the common de-contextualized approach to teaching engineering has been shown to have significant impacts on how students behave as future engineers. Furthermore, eurocentric teaching practices have been documented as a contributor to the lack of gender and ethinic diversity in engineering. Re-contextualizing civil engineering courses has shown to increase students' motivation, sense of social responsibility, and agency. The ASCE Code of Ethics states that “Engineers … first and foremost, protect the health, safety, and welfare of the public,” a notion that was first added to the code in 1977. In recent years, some civil and environmental engineering (CEE) faculty members and programs have responded to this ethical imperative by re-contextualizing civil engineering education in relation to the communities (“the public”) the civil engineer is ethically obligated to protect and serve. To determine the extent of these efforts to re-introduce socio-technical context in CEE curricula, we are conducting a systematic review of the published literature. The objectives of this research are to document, synthesize, and amplify the work of these scholars and to encourage the community of CEE faculty to re-contextualize the knowledge and skills taught in the CEE curriculum. This paper describes the methodology, including search terms and sources examined, reports the preliminary results of the review, and synthesizes the preliminary findings. Future work will propose strategies and structures that could be adapted and employed by civil engineering faculty throughout the U.S. to 1) engage and retain students from groups that historically have been excluded from CEE and 2) better educate CEE students to engineer a more equitable and just future. 

   more » « less
5. Re-contextualizing Civil Engineering Education: A Systematic Review of the Literature

   Sanford, K. ; Paige, F. ; Parker, P. ; Valdes-Vasquez, R. ; Canevari, P. ; Larsen, T. ; & Diacik, E. ( January 2022 , 2022 ASEE Annual Conference & Exposition)

   Emphasizing socio-political context in undergraduate engineering courses is a complex challenge for accredited American engineering programs as they strive to pivot towards a more equitable future. Teaching engineering problem solving by isolating the technical perspective is the dominant culture, and change has been slow and insufficient. Looking at the complex human circumstances in which engineered systems are situated has significant, and sometimes life saving, benefits. On the contrary, the common de-contextualized approach to teaching engineering has been shown to have significant impacts on how students behave as future engineers. Furthermore, eurocentric teaching practices have been documented as a contributor to the lack of gender and ethinic diversity in engineering. Re-contextualizing civil engineering courses has shown to increase students' motivation, sense of social responsibility, and agency. The ASCE Code of Ethics states that “Engineers … first and foremost, protect the health, safety, and welfare of the public,” a notion that was first added to the code in 1977. In recent years, some civil and environmental engineering (CEE) faculty members and programs have responded to this ethical imperative by re-contextualizing civil engineering education in relation to the communities (“the public”) the civil engineer is ethically obligated to protect and serve. To determine the extent of these efforts to re-introduce socio-technical context in CEE curricula, we are conducting a systematic review of the published literature. The objectives of this research are to document, synthesize, and amplify the work of these scholars and to encourage the community of CEE faculty to re-contextualize the knowledge and skills taught in the CEE curriculum. This paper describes the methodology, including search terms and sources examined, reports the preliminary results of the review, and synthesizes the preliminary findings. Future work will propose strategies and structures that could be adapted and employed by civil engineering faculty throughout the U.S. to 1) engage and retain students from groups that historically have been excluded from CEE and 2) better educate CEE students to engineer a more equitable and just future. 

   more » « less