Abstract
Although undergraduate engineering ethics courses often include the development of moral sensitivity as a learning objective and the use of active learning techniques, teaching centers on the transmission of cognitive knowledge. This article describes a complementary assignment asking students to perform an ethics “experiment” on themselves that has a potential to enhance affective learning and moral imagination. The article argues that the focus on cognitive learning may not promote, and may even impair, our efforts to foster moral sensitivity. In contrast, the active learning assignments and exercises, like the ethics “experiment” discussed, offer great potential to expand the scope of instruction in engineering ethics to include ethical behavior as well as knowledge. Engineering ethics education needs to extend beyond the narrow range of human action associated with the technical work of the engineer and explore ways to draw on broader lifeworld experiences to enrich professional practice and identity.
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Notes
The study reported in this paper is not itself experimental, and I do not use the term, “experiment,” to refer to it. However, the subject assignment does require students to experiment with an untried ethical practice, and in this regard, as will be described in further detail below, many choose a design with control and experimental components. The use of the term to describe their work is intended to emphasize the active testing, probing, and investigation that the assignment requires.
A full discussion of these textbooks can be found in the section below, “Limitations of Cognitivist Approaches to Teaching Engineering Ethics.”
I am indebted to my colleague, Randalyn Browing, for the original conception of this assignment, which she developed for a writing course. I have adapted her assignment to address the learning outcomes of a course in ethics. The use of experiments in the context of students’ lives as a strategy that is starting to appear more and more in college courses that seek to have students question existing norms (Kaza 2005).
A good deal of interesting scholarship has challenged the distinction between world and text. We now understand that we can read the cultural artifacts of our world and that texts themselves create worlds. I do not intend to challenge this productive understanding here. Instead, I only want to highlight that so far as their professional work goes, texts are central to legal cognition and technique in ways that they are not for engineers.
While rule-driven ethical frameworks are often characterized as modern and virtue ethics as a feature of ancient culture, in fact, the pendulum has swung between the two. Victorians were preoccupied with rules, but the next generation tended to reject utilitarian values in favor of a reflective individualism that obeyed the Golden Rule (Naser 2012).
Stanley Fish’s (2010) New York Times article on plagiarism provides an even more explicit example of this kind of thinking. In it, he claims that rules about plagiarism do not implicate moral or ethical values. Instead, they are like the rules of golf. If one doesn’t conform to the rules, no one will play with you.
References
Abate, C. J. (2011). Should engineering ethics be taught? Science and Engineering Ethics, 17(3), 583–596.
Alpern, K. D. (1983). Moral responsibility for engineers. Business & Professional Ethics Journal, 2(2), 39–51.
Barry, B. E., & Ohland, M. W. (2009). Applied ethics in the engineering, health, business, and law professions: A comparison. Journal of Engineering Education, 98(4), 377–388.
Berman, H. J. (1983). Law and revolution: The formation of the western legal tradition (Vol. I). Cambridge, MA: Harvard University Press.
Berne, R. W., & Schummer, J. (2005). Teaching societal and ethical implications of nanotechnology to engineering students through science fiction. Bulletin of Science, Technology & Society, 25(6), 459–468.
Brummel, B. J., Gunsalus, C. K., Anderson, K. L., & Loui, M. C. (2010). Development of role-play scenarios for teaching responsible conduct of research. Science and Engineering Ethics, 16(3), 573–589.
Bucciarelli, L. L. (2008). Ethics and engineering education. European Journal of Engineering Education, 33(2), 141–149.
Callahan, D. (1980). Goals in the teaching of ethics. In D. Callahan & S. Bok (Eds.), Ethics teaching in higher education. New York: Plenum.
Cialdini, R. B. (2001). Influence: Science and practice (4th ed.). Boston: Allyn and Bacon.
Davis, M. (1998). Thinking like an engineer: Studies in the ethics of a profession. New York: Oxford University Press.
Davis, M. (1999). Ethics and the University. New York: Routledge.
Davis, M. (2001). The professional approach to engineering ethics: Five research questions. Science and Engineering Ethics, 7(3), 379–390.
Deming, N., Fryer-Edwards, K., Dudzinski, D., Starks, H., Culver, J., Hopley, E., et al. (2007). Incorporating principles and practical wisdom in research ethics education: A preliminary study. Academic Medicine, 82(1), 18–23.
Devon, R. (1999). Towards a social ethics of engineering: The norms of engagement. Journal of Engineering Education, 88(1), 87–91.
Dunbar, W. S. (2005). Emotional engagement in professional ethics. Science and Engineering Ethics, 11(4), 535–551.
Fish, S. (2010). Plagiarism is not a big moral deal. New York Times.
Fitzgerald, P. (1997). Service-learning and the socially responsible ethics class. Teaching Philosophy, 20(3), 251–267.
Flores, A., & Baum, R. J. (1978). Ethical Problems in Engineering (2nd ed. Vol. 1). Troy, NY: Renssalaer Polytechnic Institute.
Freedman, J. K., & Fraser, S. C. (1966). Compliance without pressure: The foot-in-the-door technique. Journal of Personality and Social Psychology, 4, 195–203.
Harris, J., Charles, E., Davis, M., Pritchard, M. S., & Rabins, M. J. (1996). Engineering ethics: What? why? how? and when? Journal of Engineering Education, 85(1), 93–96.
Harris, C. E, Jr, Pritchard, M. S., & Rabins, M. J. (1995). Engineering ethics: Concepts and cases. Belmont, CA: Wadsworth.
Hashemian, G., & Loui, M. C. (2010). Can instruction in engineering ethics change students’ feelings about professional responsibility? Science and Engineering Ethics, 16(1), 201–215.
Haws, D. R. (2004). The importance of meta-ethics in engineering education. Science and Engineering Ethics, 10(2), 204–210.
Heikkero, T. (2008). How to address the volitional dimension of the engineer’s social responsibility. European Journal of Engineering Education, 33(2), 161–168. doi:10.1080/03043790801979872.
Herkert, J. R. (1997). Collaborative learning in engineering ethics. Science and Engineering Ethics, 3(4), 447–462.
Herkert, J. R. (2000). Engineering ethics education in the USA: Content, pedagogy and curriculum. European Journal of Engineering Education, 25(4), 303–313.
Herkert, J. R. (2005). Ways of thinking about and teaching ethical problem solving: Microethics and macroethics in engineering. Science and Engineering Ethics, 11(3), 373–385.
Huff, C. W., & Frey, W. (2005). Moral pedagogy and practical ethics. Science and Engineering Ethics, 11(3), 389–408.
Humphreys, S. C. (1975). “Transcendence” and intellectual roles: The ancient Greek case. Daedalus, Spring.
Huschle, B. J. (2012). Learner outcome attainment in teaching applied ethics versus case methodology. Teaching Philosophy, 35(3), 243–262.
Johnson, M. (1993). Moral imagination: Implications of cognitive science for ethics. Chicago: University of Chicago Press.
Johnston, J. P. (2012). Value added: A communications assignment that develops ethical perception. Business Communication Quarterly, 61, 121–123.
Kaza, S. (2005). Introduction. In S. Kaza (Ed.), Hooked: Buddhist writings on greed, desire, and the urge to consume (pp. 1–13). Boston: Shambala Press.
Kimball, B. (2007). Application of contemporary literature to enhance interpersonal skills and ethical decision making in professional selling coursework. Journal of Marketing Education, 29(1), 63–68.
Lama, Dalai. (1999). Ethics for the New Millennium. New York: Riverhead Books.
Li, J., & Fu, S. (2012). A systematic approach to engineering ethics education. Science and Engineering Ethics, 18(2), 339–349.
Lloyd, P., & van de Poel, I. (2008). Designing games to teach ethics. Science and Engineering Ethics, 14(3), 433–447.
Loui, M. C. (2000). Fieldwork and cooperative learning in professional ethics. Teaching Philosophy, 23(2), 139–156.
Lutz, A., Greischar, L. L., Rawlings, N. B., Ricard, M., & Davidson, R. J. (2004). Long-term meditators self-induce high-amplitude gamma synchrony during mental practice. Proceedings of the National Academy of Sciences, 101, 163–173.
Martin, M., & Schinzinger, R. (1983). Ethics in engineering. New York: McGraw-Hill.
Martin, M. W., & Schinzinger, R. (2005). Ethics in Engineering (4th ed.). Boston: McGraw-Hill.
McKeachie, W. J., Svinicki, M. D., & Hofer, B. K. (2002). Mckeachie’s teaching tips: Strategies, research, and theory for college and university teachers (11th ed.). Boston: Houghton, Mifflin.
McQueeney, E. (2006). Making ethics come alive. Business Communication Quarterly, 69(2), 158–171.
Mitcham, C. (2009). A historico-ethical perspective on engineering education: From use and convenience to policy engagement. Engineering Studies, 1(1), 35–53.
Muskavitch, K. M. T. (2005). Cases and goals for ethics education: Commentary on ‘Connecting case-based ethics instruction with educational theory’. Science and Engineering Ethics, 11(3), 431–434.
Naser, S. (2012). Grand Pursuit: The story of the people who made modern economics. London: Fourth Estate.
Newberry, B. (2004). The dilemma of ethics in engineering education. Science and Engineering Ethics, 10(2), 343–351.
Pascarella, E. T., & Terenzini, P. T. (1991). How college affects students: Findings and insights from twenty years of research. San Francisco: Jossey-Bass.
Passino, K. M. (2009). Educating the humanitarian engineer. Science and Engineering Ethics, 15(4), 577–600. doi:10.1007/s11948-009-9184-8.
Pfatteicher, S. K. A. (2001). Teaching versus preaching: EC2000 and the engineering ethics dilemma. Journal of Engineering Education, 90(1), 137–142.
Pincoffs, E. L. (1986). Quandaries and virtues: Against reductivism in ethics. Wichita, KS: University Press of Kansas.
Prince, M. (2004). Does active learning work? A review of the research. Journal of Engineering Education, 93(3), 223–231.
Pritchard, M. S. (1998). Professional responsibility: Focusing on the exemplary. Science and Engineering Ethics, 4(2), 215–233.
Pritchard, M. S. (2000). Service-learning and engineering ethics. Science and Engineering Ethics, 6(3), 413–422.
Roussouw, G. J. (2002). Three approaches to teaching business ethics. Teaching Business Ethics, 6, 411–433.
Schmidt, C. D., McAdams, C. R., & Foster, V. (2009). Promoting moral reasoning of undergraduate business student through a deliberate psychological education-based classroom intervention. Journal of Moral Education, 38(3), 315–334.
Solberg, J., Strong, K. C., & McGuire, C, Jr. (1995). Living (not learning) ethics. Journal of Business Ethics, 14(1), 71–81.
Stokes, P. (2012). Philosophy has consequences!: Developing metacognition and active learning in the ethics classroom. Teaching Philosophy, 35(2), 143–169.
Taub, E., Uswatte, G., King, D. K., Morris, D., Crago, J. E., & Chatterjee, A. (2006). A placebo-controlled trail of constraint-induced movement therapy for upper extremity after stroke. Stroke, 37, 1045–1049.
Teasdale, J. D., Segal, Z. V., Williams, J. M., Ridgeway, V. A., Soulsby, J. M., & Lau, M. A. (2000). Prevention of relapse-recurrence in major depression by mindfulness-based cognitive therapy. Journal of Consulting and Clinical Psychiatry, 68, 615–623.
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Walling, O. Beyond Ethical Frameworks: Using Moral Experimentation in the Engineering Ethics Classroom. Sci Eng Ethics 21, 1637–1656 (2015). https://doi.org/10.1007/s11948-014-9614-0
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DOI: https://doi.org/10.1007/s11948-014-9614-0