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  1. Changing the Engineering Student Culture with Respect to Academic Integrity and Ethics.Tammy VanDeGrift, Heather Dillon & Loreal Camp - 2017 - Science and Engineering Ethics 23 (4):1159-1182.
    Engineers create airplanes, buildings, medical devices, and software, amongst many other things. Engineers abide by a professional code of ethics to uphold people’s safety and the reputation of the profession. Likewise, students abide by a code of academic integrity while learning the knowledge and necessary skills to prepare them for the engineering and computing professions. This paper reports on studies designed to improve the engineering student culture with respect to academic integrity and ethics. To understand the existing culture at a (...)
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  • A Multi-level Review of Engineering Ethics Education: Towards a Socio-technical Orientation of Engineering Education for Ethics.Diana Adela Martin, Eddie Conlon & Brian Bowe - 2021 - Science and Engineering Ethics 27 (5):1-38.
    This paper aims to review the empirical and theoretical research on engineering ethics education, by focusing on the challenges reported in the literature. The analysis is conducted at four levels of the engineering education system. First, the individual level is dedicated to findings about teaching practices reported by instructors. Second, the institutional level brings together findings about the implementation and presence of ethics within engineering programmes. Third, the level of policy situates findings about engineering ethics education in the context of (...)
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  • (1 other version)Using Student Engagement to Relocate Ethics to the Core of the Engineering Curriculum.Mary E. Sunderland - 2019 - Science and Engineering Ethics 25 (6):1771-1788.
    One of the core problems with engineering ethics education is perceptual. Although ethics is meant to be a central component of today’s engineering curriculum, it is often perceived as a marginal requirement that must be fulfilled. In addition, there is a mismatch between faculty and student perceptions of ethics. While faculty aim to communicate the nuances and complexity of engineering ethics, students perceive ethics as laws, rules, and codes that must be memorized. This paper provides some historical context to better (...)
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  • To Describe, Transmit or Inquire: Ethics and technology in school.Viktor Gardelli - 2016 - Dissertation, Luleå University of Technology
    Ethics is of vital importance to the Swedish educational system, as in many other educational systems around the world.Yet, it is unclear how ethics should be dealt with in school, and prior research and evaluations have found serious problems regarding ethics in education.The field of moral education lacks clear and widely accepted definitions of key concepts, and these ambiguities negatively impact both research and educational practice. This thesis draws a distinction between three approaches to ethics in school – the descriptive (...)
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  • Editors' Overview Perspectives on Teaching Social Responsibility to Students in Science and Engineering.Henk Zandvoort, Tom Børsen, Michael Deneke & Stephanie J. Bird - 2013 - Science and Engineering Ethics 19 (4):1413-1438.
    Global society is facing formidable current and future problems that threaten the prospects for justice and peace, sustainability, and the well-being of humanity both now and in the future. Many of these problems are related to science and technology and to how they function in the world. If the social responsibility of scientists and engineers implies a duty to safeguard or promote a peaceful, just and sustainable world society, then science and engineering education should empower students to fulfil this responsibility. (...)
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  • (1 other version)Using Student Engagement to Relocate Ethics to the Core of the Engineering Curriculum.Mary E. Sunderland - 2013 - Science and Engineering Ethics 25 (6):1-18.
    One of the core problems with engineering ethics education is perceptual. Although ethics is meant to be a central component of today’s engineering curriculum, it is often perceived as a marginal requirement that must be fulfilled. In addition, there is a mismatch between faculty and student perceptions of ethics. While faculty aim to communicate the nuances and complexity of engineering ethics, students perceive ethics as laws, rules, and codes that must be memorized. This paper provides some historical context to better (...)
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  • (1 other version)Taking Emotion Seriously: Meeting Students Where They Are. [REVIEW]Mary E. Sunderland - 2013 - Science and Engineering Ethics (1):1-13.
    Emotions are often portrayed as subjective judgments that pose a threat to rationality and morality, but there is a growing literature across many disciplines that emphasizes the centrality of emotion to moral reasoning. For engineers, however, being rational usually means sequestering emotions that might bias analyses—good reasoning is tied to quantitative data, math, and science. This paper brings a new pedagogical perspective that strengthens the case for incorporating emotions into engineering ethics. Building on the widely established success of active and (...)
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  • Teaching Science and Ethics to Undergraduates: A Multidisciplinary Approach.Alan H. McGowan - 2013 - Science and Engineering Ethics 19 (2):535-543.
    The teaching of the ethical implications of scientific advances in science courses for undergraduates has significant advantages for both science and non-science majors. The article describes three courses taught by the author as examples of the concept, and examines the disadvantages as well as the advantages. A significant advantage of this approach is that many students take the courses primarily because of the ethical component who would not otherwise take science. A disadvantage is less time in the course for the (...)
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  • (1 other version)Taking Emotion Seriously: Meeting Students Where They Are.Mary E. Sunderland - 2014 - Science and Engineering Ethics 20 (1):183-195.
    Emotions are often portrayed as subjective judgments that pose a threat to rationality and morality, but there is a growing literature across many disciplines that emphasizes the centrality of emotion to moral reasoning. For engineers, however, being rational usually means sequestering emotions that might bias analyses—good reasoning is tied to quantitative data, math, and science. This paper brings a new pedagogical perspective that strengthens the case for incorporating emotions into engineering ethics. Building on the widely established success of active and (...)
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  • “In Our Own Little World”: Invisibility of the Social and Ethical Dimension of Engineering Among Undergraduate Students.Jae Hoon Lim, Brittany D. Hunt, Nickcoy Findlater, Peter T. Tkacik & Jerry L. Dahlberg - 2021 - Science and Engineering Ethics 27 (6):1-23.
    This paper explores how undergraduate students understood the social relevance of their engineering course content knowledge and drew broader social and ethical implications from that knowledge. Based on a three-year qualitative study in a junior-level engineering class, we found that students had difficulty in acknowledging the social and ethical aspects of engineering as relevant topics in their coursework. Many students considered the immediate technical usability or improved efficiency of technical innovations as the noteworthy social and ethical implications of engineering. Findings (...)
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  • Student-Driven Courses on the Social and Ecological Responsibilities of Engineers: Commentary on “Student-Inspired Activities for the Teaching and Learning of Engineering Ethics”.André Baier - 2013 - Science and Engineering Ethics 19 (4):1469-1472.
    A group of engineering students at the Technical University of Berlin, Germany, designed a course on engineering ethics. The core element of the developed Blue Engineering course are self-contained teaching-units, “building blocks”. These building blocks typically cover one complex topic and make use of various teaching methods using moderators who lead discussions, rather than experts who lecture. Consequently, the students themselves started to offer the credited course to their fellow students who take an active role in further developing the course (...)
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