Editors' overview perspectives on teaching social responsibility to students in science and engineering

Development of consensus on essential virtues for ethics and research integrity training using a modified Delphi approach

Most ethics and research integrity (ERI) training approaches are based on teaching moral rules, duties or responsibilities, often not sufficiently addressing virtue-based ethics. This study aimed to obtain a consensus among relevant experts on the importance of essential virtues for ERI training and their acquisitions. A modified Delphi consensus process was conducted in three rounds; 31 ERI experts participated in Round 1 and 23 in Round 2 and Round 3. Based on findings generated from qualitative data in Round 1, a structured questionnaire with 90 different statements grouped under five domains was developed for Round 2 and Round 3. After the final round, a consensus was achieved on two-thirds of statements included in this study. The experts agreed that virtues are based on learned and reflected attitudes and that the appropriate direction to acquire research virtues is through continuing education using case studies and discussions based on real-life scenarios. Furthermore, the consensus was obtained on 35 scientific virtues that should be stimulated in ERI training, prioritizing honesty, integrity, accountability, criticism and fairness as the most essential scientific virtues for good research practice. These results should be considered in developing or adjusting the ERI training program and materials.

Go Big or Go Home? A New Case for Integrating Micro-ethics and Macro-ethics in Engineering Ethics Education

In this paper, I make a novel case for an expansive approach to engineering ethics education, one that regards micro-ethics and macro-ethics as essentially complementary. Although others have voiced support for including macro-ethical reflection within engineering ethics education, I advance a stronger claim, arguing that isolating engineering ethics from macro-level issues risks rendering even micro-ethical inquiry morally meaningless. I divide my proposal into four parts. First, I clarify the distinction between micro-ethics and macro-ethics as I am construing it, defending my characterization against a potential worry. Second, I consider but reject some arguments for a restrictive approach, one that excludes macro-ethical reflection from engineering ethics education. Third, I offer my central argument for an expansive approach. Finally, I suggest that macro-ethics education can learn something valuable from micro-ethics pedagogy. On my proposal, students consider both micro- and macro-ethical problems from the deliberative perspective, situating micro-ethical problems within a broader social framework but also situating macro-ethical problems within an engaged, practical framework. By emphasizing the value of the deliberative perspective, my proposal contributes to a growing call to broaden the scope of engineering ethics education while maintaining its practical relevance.

Promoting engineering students' social responsibility and willingness to act on socioscientific issues

BACKGROUND

Despite increasing awareness of the importance of promoting the social responsibility of science, technology, engineering, and mathematics (STEM) professionals, few intervention programs have been developed to enhance the social responsibility of college students or adults in the STEM fields. In this paper, we introduced a new instructional program, called ENACT (engage, navigate, anticipate, conduct, and take action) and examined whether the program increased the social responsibility among safety engineering students (N = 46) recruited from a university located in a southern metropolitan area of South Korea.

RESULTS

In the ENACT program, the college students selected and explored socioscientific issues (SSIs) of their own interest then autonomously engaged in scientific and engineering group projects spanning a semester where they developed solutions to the SSIs and shared them with their communities. At the conclusion of the intervention in this study, they displayed an increased social responsibility regarding the consideration of societal needs and demands, civic engagement and services, and participation in policy decision-making. Social responsibility scores measured after the intervention (post-test) correlated with students' willingness to voluntarily participate in projects involving SSIs. In addition, the intervention effects were more pronounced for the students who initially had medium and low social responsibility scores.

CONCLUSIONS

We have shown that social responsibility can be nurtured by systemic instructional approaches, and increased social responsibility can lead to greater commitment to resolving SSIs. Mastering engineering content knowledge and skills is the key element of engineering curricula. However, we are compelled to incorporate social responsibility into the STEM curriculum. We believe that the ENACT model contributes toward this end.

Corporate Social Responsibility Practices of Colombian Companies as Perceived by Industrial Engineering Students

This work describes the perceptions that Industrial Engineering students have regarding Colombian firms' corporate social responsibility (CSR) practices. It also explores the incidence of gender, academic level, work experience and entrepreneurial intention on students' vision. A survey with 70 CSR practices was designed based on previous research. Practices were grouped in ten dimensions: shareholders, customers, employees, suppliers, stakeholders, ethics, environment, legal, human rights and society. A representative sample of 142 students was used. Results show that students perceive a higher commitment of Colombian companies with the shareholders dimension, while a lower with the society, ethics and environmental CSR practices. Work experience and entrepreneurial intention are the only variables affecting the identified perceptions. Thus, as they gain experience, their perceptions become more favorable. On the other hand, potential entrepreneurs have a more critical view on the companies' commitment. Additionally, the fact that the academic level does not impact students' perceptions constitutes a challenge for the academic program, since it is expected that this will affect the vision of future engineers. This is the first study that evaluates perceptions of Industrial Engineering students, who, given their object of study, will be responsible for designing and managing production processes in organizations of the future. Results respond to a specific context (students at a Colombian public university), therefore further research to explore the subject is recommended.

Guiding Engineering Student Teams' Ethics Discussions with Peer Advising

This study explores how peer advising affects student project teams' discussions of engineering ethics. Peer ethics advisors from non-engineering disciplines are expected to provide diverse perspectives and to help engineering student teams engage and sustain ethics discussions. To investigate how peer advising helps engineering student teams' ethics discussions, three student teams in different peer advising conditions were closely observed: without any advisor, with a single volunteer advisor, and with an advising team working on the ethics advising project. Micro-scale discourse analysis based on cognitive ethnography was conducted to find each team's cultural model of understanding of engineering ethics. Cultural-historical activity theory (CHAT) analysis was also conducted to see what influenced each team's cultural model. In cultural model, the engineering team with an ethics advising team showed broader understanding in social implications of engineering. The results of CHAT analysis indicated that differences in rules, community, and division of labor among three teams influenced the teams' cultural models. The CHAT analysis also indicated that the peer advisors working on the ethics advising project and the engineering team working on engineering design project created a collaborative environment. The findings indicated that collaborative environment supported peer ethics advising to facilitate team discussions of engineering ethics.

The Social Responsibility among Higher Education Students

The aim of this research is to emphasize the importance of education for the philanthropic responsibilities of students. The basic term of the explanatory research is corporate social responsibility, adapted for higher education institutions—the philanthropic responsibilities of students, their implication on charity organization memberships or volunteering activities, and their motivation to help others. Special attention was given to the following questions: Are students involved in charity organization activities or voluntary work? Are there any differences between state and private universities regarding the philanthropic activities of students? How frequently, where, and why are they involved in volunteering? What is the latent structure of students‘ motivations? The quantitative international survey dates were collected by the Centre for Higher Education Research and Development from Debrecen University, Hungary, and the present examination focuses on the sample from Romania. Using Statistical Package for the Social Sciences (SPSS) statistical software, first, through a longitudinal perspective, Romanian students’ implications from state and private institutions were compared. Second, the paper analyzes the characteristics of volunteering and student’s motivations. The conclusions present significant differences between state and private institutions. Students traditional motivations, i.e., to help others, were very common and connected with relational and self-development intentions. This mixed motivational factor was different from the global motivational factor (to learn new languages and to discover new cultures).

Engineers' Moral Responsibility: A Confucian Perspective

Moral responsibility is one of the core concepts in engineering ethics and consequently in most engineering ethics education. Yet, despite a growing awareness that engineers should be trained to become more sensitive to cultural differences, most engineering ethics education is still based on Western approaches. In this article, we discuss the notion of responsibility in Confucianism and explore what a Confucian perspective could add to the existing engineering ethics literature. To do so, we analyse the Citicorp case, a widely discussed case in the existing engineering ethics literature, from a Confucian perspective. Our comparison suggests the following. When compared to virtue ethics based on Aristotle, Confucianism focuses primarily on ethical virtues; there is no explicit reference to intellectual virtues. An important difference between Confucianism and most western approaches is that Confucianism does not define clear boundaries of where a person's responsibility end. It also suggests that the gap between Western and at least one Eastern approach, namely Confucianism, can be bridged. Although there are differences, the Confucian view and a virtue-based Western view on moral responsibility have much in common, which allows for a promising base for culturally inclusive ethics education for engineers.

The Survival Imperative : Commentary on "Whither the University? Universities of Technology and the Problem of Institutional Purpose"

Humans are powerful and clever, and also more ignorant than they know. As a result, they too often fail to acknowledge or even recognize their limitations, and are more arrogant than humble regarding their capabilities. Education that explicitly recognizes and addresses the context of science and technology, their inherent values and ethical implications and concerns, and their problematic as well as beneficial impacts can potentially rescue the human species from itself.

Ethics Across the Curriculum: Prospects for Broader (and Deeper) Teaching and Learning in Research and Engineering Ethics

The movements to teach the responsible conduct of research (RCR) and engineering ethics at technological universities are often unacknowledged aspects of the ethics across the curriculum (EAC) movement and could benefit from explicit alliances with it. Remarkably, however, not nearly as much scholarly attention has been devoted to EAC as to RCR or to engineering ethics, and RCR and engineering ethics educational efforts are not always presented as facets of EAC. The emergence of EAC efforts at two different institutions-the Illinois Institute of Technology and Utah Valley University (UVU)-provide counter examples. The remarkably successful UVU initiative gave birth to EAC as a scholarly movement and to the associated Society for Ethics Across the Curriculum. EAC initiatives at the Colorado School of Mines, however, point up continuing institutional resistances to EAC. Finally, comparative reflection on successes and failures can draw some lessons for the future. One suggestion is that increasing demands for accountability and pedagogical research into what works in teaching and learning offers special opportunities.

Embedding Sustainability Competences into Engineering Education. The Case of Informatics Engineering and Industrial Engineering Degree Programs at Spanish Universities

The incorporation of sustainability in universities finds the greatest barriers in the field of teaching. The curricula do not usually cover all dimensions of sustainability as most of the experiences are isolated and they do not reach all students. Within a larger study, an exploratory investigation has been carried out on how sustainability competences are being integrated into the programs of both Informatics Engineering and Industrial Engineering degrees of 25 Spanish universities. The main findings suggest that existing courses in the domain of the humanities and engineering projects, as well as the final degree project, are very appropriate areas for developing a holistic and reflective approach. Likewise, there is a lack of environmental issues in Informatics Engineering, and ethical issues do not usually appear in Industrial Engineering courses. In general, there is no systematic and strategic integration along the degree programs. However, inspiring practices have been identified to propose lines of action and a curriculum model to embed sustainability into engineering education coherently and effectively. In addition, some reflections on drivers, opportunities, and challenges to achieve it are presented.

Engineering Ethics Education: A Comparative Study of Japan and Malaysia

This paper reports the findings of a comparative study in which students' perceived attainment of the objectives of an engineering ethics education and their attitude towards engineering ethics were investigated and compared. The investigation was carried out in Japan and Malaysia, involving 163 and 108 engineering undergraduates respectively. The research method used was based on a survey in which respondents were sent a questionnaire to elicit relevant data. Both descriptive and inferential statistical analyses were performed on the data. The results of the analyses showed that the attainment of the objectives of engineering ethics education and students' attitude towards socio-ethical issues in engineering were significantly higher and positive among Japanese engineering students compared to Malaysian engineering students. Such findings suggest that a well-structured, integrated, and innovative pedagogy for teaching ethics will have an impact on the students' attainment of ethics education objectives and their attitude towards engineering ethics. As such, the research findings serve as a cornerstone to which the current practice of teaching and learning of engineering ethics education can be examined more critically, such that further improvements can be made to the existing curriculum that can help produce engineers that have strong moral and ethical characters.

The Roles of Implicit Understanding of Engineering Ethics in Student Teams' Discussion

Following previous work that shows engineering students possess different levels of understanding of ethics-implicit and explicit-this study focuses on how students' implicit understanding of engineering ethics influences their team discussion process, in cases where there is significant divergence between their explicit and implicit understanding. We observed student teams during group discussions of the ethical issues involved in their engineering design projects. Through the micro-scale discourse analysis based on cognitive ethnography, we found two possible ways in which implicit understanding influenced the discussion. In one case, implicit understanding played the role of intuitive ethics-an intuitive judgment followed by reasoning. In the other case, implicit understanding played the role of ethical insight, emotionally guiding the direction of the discussion. In either case, however, implicit understanding did not have a strong influence, and the conclusion of the discussion reflected students' explicit understanding. Because students' implicit understanding represented broader social implication of engineering design in both cases, we suggest to take account of students' relevant implicit understanding in engineering education, to help students become more socially responsible engineers.

Engineering Students' Views of Corporate Social Responsibility: A Case Study from Petroleum Engineering

The mining and energy industries present unique challenges to engineers, who must navigate sometimes competing responsibilities and codes of conduct, such as personal senses of right and wrong, professional ethics codes, and their employers' corporate social responsibility (CSR) policies. Corporate social responsibility (CSR) is the current dominant framework used by industry to conceptualize firms' responsibilities to their stakeholders, yet has it plays a relatively minor role in engineering ethics education. In this article, we report on an interdisciplinary pedagogical intervention in a petroleum engineering seminar that sought to better prepare engineering undergraduate students to critically appraise the strengths and limitations of CSR as an approach to reconciling the interests of industry and communities. We find that as a result of the curricular interventions, engineering students were able to expand their knowledge of the social, rather than simply environmental and economic dimensions of CSR. They remained hesitant, however, in identifying the links between those social aspects of CSR and their actual engineering work. The study suggests that CSR may be a fruitful arena from which to illustrate the profoundly sociotechnical dimensions of the engineering challenges relevant to students' future careers.

Stakeholder Views of Nanosilver Linings: Macroethics Education and Automated Text Analysis Through Participatory Governance Role Play in a Workshop Format

The Nanosilver Linings role play case offers participants first-person experience with interpersonal interaction in the context of the wicked problems of emerging technology macroethics. In the fictional scenario, diverse societal stakeholders convene at a town hall meeting to consider whether a nanotechnology-enabled food packaging industry should be offered incentives to establish an operation in their economically struggling Midwestern city. This original creative work was built with a combination of elements, selected for their established pedagogical efficacy (e.g. active learning, case-based learning) and as topical dimensions of the realistic scenario (e.g. nanosilver in food packaging, occupational safety and health). The product life cycle is used as a framework for integrated consideration of scientific, societal, and ethical issues. The Nanosilver Linings hypothetical case was delivered through the format of the 3-hour workshop Ethics when Biocomplexity meets Human Complexity, providing an immersive, holistic ethics learning experience for STEM graduate students. Through their participation in the Nanosilver Linings case and Ethics when Biocomplexity meets Human Complexity workshop, four cohorts of science and engineering doctoral students reported the achievement of specific learning objectives pertaining to a range of macroethics concepts and professional practices, including stakeholder perspectives, communication, human values, and ethical frameworks. Automated text analysis of workshop transcripts revealed differences in sentiment and in ethical framework (consequentialism/deontology) preference between societal stakeholder roles. These resources have been recognized as ethics education exemplars by the U.S. National Academy of Engineering .

Strategies for Teaching Professional Ethics to IT Engineering Degree Students and Evaluating the Result

This paper presents an experience in developing professional ethics by an approach that integrates knowledge, teaching methodologies and assessment coherently. It has been implemented for students in both the Software Engineering and Computer Engineering degree programs of the Technical University of Madrid, in which professional ethics is studied as a part of a required course. Our contribution of this paper is a model for formative assessment that clarifies the learning goals, enhances the results, simplifies the scoring and can be replicated in other contexts. A quasi-experimental study that involves many of the students of the required course has been developed. To test the effectiveness of the teaching process, the analysis of ethical dilemmas and the use of deontological codes have been integrated, and a scoring rubric has been designed. Currently, this model is also being used to develop skills related to social responsibility and sustainability for undergraduate and postgraduate students of diverse academic context.

Scientists' Ethical Obligations and Social Responsibility for Nanotechnology Research

Scientists' sense of social responsibility is particularly relevant for emerging technologies. Since a regulatory vacuum can sometimes occur in the early stages of these technologies, individual scientists' social responsibility might be one of the most significant checks on the risks and negative consequences of this scientific research. In this article, we analyze data from a 2011 mail survey of leading U.S. nanoscientists to explore their perceptions the regarding social and ethical responsibilities for their nanotechnology research. Our analyses show that leading U.S. nanoscientists express a moderate level of social responsibility about their research. Yet, they have a strong sense of ethical obligation to protect laboratory workers (in both universities and industry) from unhealthy exposure to nanomaterials. We also find that there are significant differences in scientists' sense of social and ethical responsibility depending on their demographic characteristics, job affiliation, attention to media content, risk perceptions and benefit perceptions. We conclude with some implications for future research.

Second-Guessing Scientists and Engineers: Post Hoc Criticism and the Reform of Practice in Green Chemistry and Engineering

The article examines and extends work bringing together engineering ethics and Science and Technology Studies, which had built upon Diane Vaughan's analysis of the Challenger shuttle accident as a test case. Reconsidering the use of her term "normalization of deviance," the article argues for a middle path between moralizing against and excusing away engineering practices contributing to engineering disaster. To explore an illustrative pedagogical case and to suggest avenues for constructive research developing this middle path, it examines the emergence of green chemistry and green engineering. Green chemistry began when Paul Anastas and John Warner developed a set of new rules for chemical synthesis that sought to learn from missed opportunities to avoid environmental damage in the twentieth century, an approach that was soon extended to engineering as well. Examination of tacit assumptions about historical counterfactuals in recent, interdisciplinary discussions of green chemistry illuminate competing views about the field's prospects. An integrated perspective is sought, addressing how both technical practice within chemistry and engineering and the influence of a wider "social movement" can play a role in remedying environmental problems.

Design and Development of a Course in Professionalism and Ethics for CDIO Curriculum in China

At Shantou University (STU) in 2008, a stand-alone engineering ethics course was first included within a Conceive-Design-Implement-Operate (CDIO) curriculum to address the scarcity of engineering ethics education in China. The philosophy of the course design is to help students to develop an in-depth understanding of social sustainability and to fulfill the obligations of engineers in the twenty-first century within the context of CDIO engineering practices. To guarantee the necessary cooperation of the relevant parties, we have taken advantage of the top-down support from the STU administration. Three themes corresponding to contemporary issues in China were chosen as the course content: engineers' social obligations, intellectual property and engineering safety criteria. Some popular pedagogies are used for ethics instruction such as case studies and group discussions through role-playing. To impart the diverse expertise of the practical professional practice, team teaching is adopted by interdisciplinary instructors with strong qualifications and industrial backgrounds. Although the assessment of the effectiveness of the course in enhancing students' sense of ethics is limited to assignment reports and class discussions, our endeavor is seen as positive and will continue to sustain the CDIO reform initiatives of STU.

Virtue ethics, positive psychology, and a new model of science and engineering ethics education

This essay develops a new conceptual framework of science and engineering ethics education based on virtue ethics and positive psychology. Virtue ethicists and positive psychologists have argued that current rule-based moral philosophy, psychology, and education cannot effectively promote students' moral motivation for actual moral behavior and may even lead to negative outcomes, such as moral schizophrenia. They have suggested that their own theoretical framework of virtue ethics and positive psychology can contribute to the effective promotion of motivation for self-improvement by connecting the notion of morality and eudaimonic happiness. Thus this essay attempts to apply virtue ethics and positive psychology to science and engineering ethics education and to develop a new conceptual framework for more effective education. In addition to the conceptual-level work, this essay suggests two possible educational methods: moral modeling and involvement in actual moral activity in science and engineering ethics classes, based on the conceptual framework.

Socially responsible science is more than "good science"

The role of scientist carries an array of responsibilities. The most obvious is accurate and reliable research that can be depended upon by fellow researchers. Scientists also have a responsibility to oppose misuse or abuse in the application of research findings, and to attend to both the limitations and the foreseeable impacts of their work. In addition, as members of society, scientists have a responsibility to participate in discussions and decisions regarding the appropriate use of science in addressing societal issues and concerns, and to bring their specialized knowledge and expertise to activities and discussions that promote the education of students and fellow citizens, thereby enhancing and facilitating informed decision making and democracy.

Preparing to understand and use science in the real world: interdisciplinary study concentrations at the Technical University of Darmstadt

In order to raise awareness of the ambiguous nature of scientific-technological progress, and of the challenging problems it raises, problems which are not easily addressed by courses in a single discipline and cannot be projected onto disciplinary curricula, Technical University of Darmstadt has established three interdisciplinary study concentrations: "Technology and International Development", "Environmental Sciences", and "Sustainable Shaping of Technology and Science". These three programmes seek to overcome the limitations of strictly disciplinary research and teaching by developing an integrated, problem-oriented approach. For example, one course considers fundamental nuclear dilemmas and uses role-playing techniques to address a controversy in the area of nuclear security. At the same time, incorporating interdisciplinary teaching into a university that is organized around mono- or multi-disciplinary faculties also poses a number of challenges. Recognition in disciplinary curricula, and appropriate organizational support and funding are examples of those challenges. It is expected that science and engineering students, empowered by such interdisciplinary study programmes, will be better prepared to act responsibly with regard to scientific and technological challenges.