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  1. Do artifacts have politics?Langdon Winner - 1980 - Daedalus 109 (1):121--136.
    In controversies about technology and society, there is no idea more pro vocative than the notion that technical things have political qualities. At issue is the claim that the machines, structures, and systems of modern material culture can be accurately judged not only for their contributions of efficiency and pro-ductivity, not merely for their positive and negative environmental side effects, but also for the ways in which they can embody specific forms of power and authority. Since ideas of this kind (...)
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  • Ways of thinking about and teaching ethical problem solving: Microethics and macroethics in engineering. [REVIEW]Joseph R. Herkert - 2005 - Science and Engineering Ethics 11 (3):373-385.
    Engineering ethics entails three frames of reference: individual, professional, and social. “Microethics” considers individuals and internal relations of the engineering profession; “macroethics” applies to the collective social responsibility of the profession and to societal decisions about technology. Most research and teaching in engineering ethics, including online resources, has had a “micro” focus. Mechanisms for incorporating macroethical perspectives include: integrating engineering ethics and science, technology and society (STS); closer integration of engineering ethics and computer ethics; and consideration of the influence of (...)
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  • Teaching ethics in science and engineering: Effective online education.Stephanie J. Bird & Joan E. Sieber - 2005 - Science and Engineering Ethics 11 (3):323-328.
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  • The dilemma of ethics in engineering education.Byron Newberry - 2004 - Science and Engineering Ethics 10 (2):343-351.
    This paper briefly summarizes current thinking in engineering ethics education, argues that much of that ethical instruction runs the risk of being only superficially effective, and explores some of the underlying systemic barriers within academia that contribute to this result. This is not to criticize or discourage efforts to improve ethics instruction. Rather it is to point to some more fundamental problems that still must be addressed in order to realize the full potential of enhanced ethics instruction. Issues discussed will (...)
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  • Integrating ethics into technical courses: Micro-insertion. [REVIEW]Michael Davis - 2006 - Science and Engineering Ethics 12 (4):717-730.
    Perhaps the most common reason science and engineering faculty give for not including “ethics” (that is, research ethics, engineering ethics, or some discussion of professional responsibility) in their technical classes is that “there is no room”. This article 1) describes a technique (“micro-insertion”) that introduces ethics (and related topics) into technical courses in small enough units not to push out technical material, 2) explains where this technique might fit into the larger undertaking of integrating ethics into the technical (scientific or (...)
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  • Investigating ethical issues in engineering design.Ibo van de Poel - 2001 - Science and Engineering Ethics 7 (3):429-446.
    This paper aims at contributing to a research agenda in engineering ethics by exploring the ethical aspects of engineering design processes. A number of ethically relevant topics with respect to design processes are identified. These topics could be a subject for further research in the field of engineering ethics. In addition, it is argued that the way design processes are now organised and should be organised from a normative point of view is an important topic for research.
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  • The dilemma of ethics in engineering education.ron Newberry - 2004 - Science and Engineering Ethics 10 (2):343-351.
    This paper briefly summarizes current thinking in engineering ethics education, argues that much of that ethical instruction runs the risk of being only superficially effective, and explores some of the underlying systemic barriers within academia that contribute to this result. This is not to criticize or discourage efforts to improve ethics instruction. Rather it is to point to some more fundamental problems that still must be addressed in order to realize the full potential of enhanced ethics instruction. Issues discussed will (...)
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  • Future directions in engineering ethics research: Microethics, macroethics and the role of professional societies.Joseph R. Herkert - 2001 - Science and Engineering Ethics 7 (3):403-414.
    Three frames of reference for engineering ethics are discussed—individual, professional and social—which can be further broken down into “microethics” concerned with individuals and the internal relations of the engineering profession and “macroethics” referring to the collective social responsibility of the engineering profession and to societal decisions about technology. Few attempts have been made at integrating microethical and macroethical approaches to engineering ethics. The approach suggested here is to focus on the role of professional engineering societies in linking individual and professional (...)
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  • An effective strategy for integrating ethics across the curriculum in engineering: An ABET 2000 challenge.José A. Cruz & William J. Frey - 2003 - Science and Engineering Ethics 9 (4):543-568.
    This paper describes a one-day workshop format for introducing ethics into the engineering curriculum prepared at the University of Puerto Rico at Mayagüez (UPRM). It responds to the ethics criteria newly integrated into the accreditation process by the Accreditation Board of Engineering and Technology (ABET). It also employs an ethics across the curriculum (EAC) approach; engineers identify the ethical issues, write cases that dramatize these issues, and then develop exercises making use of these cases that are specially tailored to mainstream (...)
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  • Broadening Ethics Teaching in Engineering: Beyond the Individualistic Approach. [REVIEW]Eddie Conlon & Henk Zandvoort - 2011 - Science and Engineering Ethics 17 (2):217-232.
    There is a widespread approach to the teaching of ethics to engineering students in which the exclusive focus is on engineers as individual agents and the broader context in which they do their work is ignored. Although this approach has frequently been criticised in the literature, it persists on a wide scale, as can be inferred from accounts in the educational literature and from the contents of widely used textbooks in engineering ethics. In this contribution we intend to: (1) Restate (...)
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  • Disasters as object lessons in ethics : Hurricane Katrina.Heinz C. Luegenbiehl - 2018 - In Nicholas Sakellariou & Rania Milleron (eds.), Ethics, Politics, and Whistleblowing in Engineering. Boca Raton, FL: Crc Press.
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  • Teachers' perspectives of teaching science–technology–society in local cultures: A sociocultural analysis.J. Randy McGinnis & Patricia Simmons - 1999 - Science Education 83 (2):179-211.
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  • Ethics and engineering courses at delft university of technology: Contents, educational setup and experiences.I. R. van de Poel, H. Zandvoort & M. Brumsen - 2001 - Science and Engineering Ethics 7 (2):267-282.
    This article reports on the development and teaching of compulsory courses on ethics and engineering at Delft University of Technology (DUT). Attention is paid to the teaching goals, the educational setup and methods, the contents of the courses, involvement of staff from engineering schools, experiences to date, and challenges for the future. The choices made with respect to the development and teaching of the courses are placed within the European and Dutch context and are compared and contrasted with the American (...)
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  • Educational technologies and the teaching of ethics in science and engineering.Michael C. Loui - 2005 - Science and Engineering Ethics 11 (3):435-446.
    To support the teaching of ethics in science and engineering, educational technologies offer a variety of functions: communication between students and instructors, production of documents, distribution of documents, archiving of class sessions, and access to remote resources. Instructors may choose to use these functions of the technologies at different levels of intensity, to support a variety of pedagogies, consistent with accepted good practices. Good pedagogical practices are illustrated in this paper with four examples of uses of educational technologies in the (...)
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  • A case study of community-based participatory research ethics: The healthy public housing initiative.Doug Brugge & Alison Kole - 2003 - Science and Engineering Ethics 9 (4):485-501.
    We conducted and analyzed qualitative interviews with 12 persons working on the Healthy Public Housing Initiative in Boston, Massachusetts in 2001. Our goal was to generate ideas and themes related to the ethics of the community-based participatory research in which they were engaged. Specifically, we wanted to see if we found themes that differed from conventional research that is based on an individualistic ethics. There were clearly distinct ethical issues raised with respect to projects and individuals who engage in community-based (...)
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  • The complexity of competing and conflicting interests.Stephanie J. Bird - 2005 - Science and Engineering Ethics 11 (4):515-517.
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