Ethical questions posed by emerging technologies call for greater understanding of their societal, economic, and environmental aspects by policymakers, citizens, and the engineers and applied scientists at the heart of their development and application. This article reports on the efforts of one research project that assessed the growth of critical thinking and awareness of these multiple aspects in undergraduate engineering and applied science students, with specific regard to nanotechnology. Students in two required courses, a first-year writing and engineering (...) ethics course and a second-year social science course, went through nanotechnology modules as a part of their regular coursework. In the first-year humanities course, we observed self-reported increases in risk awareness, significant educational impact of the module, and a greater awareness of nanotechnology’s applications and social context. In the second-year social science course, we noted changes in risk/benefit analysis as well as in the character and depth of students’ historical analysis, but no change in comparative awareness of other topics, including labor issues and corporate motivations. (shrink)

Ethical questions posed by emerging technologies call for greater understanding of their societal, economic, and environmental aspects by policymakers, citizens, and the engineers and applied scientists at the heart of their development and application. This article reports on the efforts of one research project that assessed the growth of critical thinking and awareness of these multiple aspects in undergraduate engineering and applied science students, with specific regard to nanotechnology. Students in two required courses, a first-year writing and engineering (...) ethics course and a second-year social science course, went through nanotechnology modules as a part of their regular coursework. In the first-year humanities course, we observed self-reported increases in risk awareness, significant educational impact of the module, and a greater awareness of nanotechnology’s applications and social context. In the second-year social science course, we noted changes in risk/benefit analysis as well as in the character and depth of students’ historical analysis, but no change in comparative awareness of other topics, including labor issues and corporate motivations. (shrink)

Continuing advances in human ability to manipulate matter at the atomic and molecular levels (i.e. nanoscale science and engineering) offer many previously unimagined possibilities for scientific discovery and technological development. Paralleling these advances in the various science and engineering subdisciplines is the increasing realization that a number of associated social, ethical, environmental, economic and legal dimensions also need to be explored. An important component of such exploration entails the identification and analysis of the ways in which current (...) and prospective researchers in these fields conceptualize these dimensions of their work. Within the context of a National Science Foundation funded Research Experiences for Undergraduates (REU) program in nanomaterials processing and characterization at the University of Central Florida (2002–2004), here I present for discussion (i) details of a “nanotechnology ethics” seminar series developed specifically for students participating in the program, and (ii) an analysis of students’ and participating research faculty’s perspectives concerning social and ethical issues associated with nanotechnology research. I conclude with a brief discussion of implications presented by these issues for general scientific literacy and public science education policy. (shrink)

Democracy has been a flawed hegemony since the fall of communism. Its flexibility, its commitment to equality of representation, and its recognition of the legitimacy of opposition politics are all positive features for political institutions. But democracy has many deficiencies: it is all too easily held hostage by powerful interests; it often fails to advance social justice; and it does not cope well with a number of features of the political landscape, such as political identities, boundary disputes, and environmental (...) crises. Although democracy is valuable it fits uneasily with other political values and is in many respects less than equal to the demands it confronts. In this volume prominent political theorists and social scientists present original discussions of such central issues. Democracy's Values deals with the nature and value of democracy, particularly the tensions between it and such goods as justice, equality, efficiency, and freedom. (shrink)

A recent initiative at Muffakham Jah College of Engineering and Technology, Hyderabad, India, has resulted in setting up a program called Centre for Environment Studies and Socioresponsive Engineering which seeks to involve undergraduate students in studying and solving environmental problems in and around the city of Hyderabad, India. Two pilot projects have been undertaken — one focusing on design and construction of an eco-friendly house, The Natural House, and another directed at improving environmental and general living conditions in (...) a slum area. The paper describes our attempts and experience of motivating our students to take interest in such projects. In an interesting development we invited a member of a student-faculty team at Massachusetts Institute of Technology (M.I.T.) that is doing a project in Nepal on safe drinking water. We report in our paper how the presentation by the guest from M.I.T. served as a catalyst for generating interest among civil and mechanical engineering students in our own projects. The paper includes contributions from one of our students and the M.I.T. staff member, reporting on their experiences related to the slum development project. (shrink)

A test was administered to 102 engineering students to ascertain how engineering education influences their environmental knowledge and attitudes. Answers to definitional and factual questions in a forced-answer section demonstrated that students were improving their technical knowledge, but responses to more subtle questions were mixed. Answers to attitudinal questions exhibited a trend towards increased environmental awareness. For open-ended questions, posttest results showed an increase in knowledge of engineering work. Over 80% of the students considered themselves to have a (...) caring attitude toward the environment, with the “three R’s” and green transportation choices most commonly cited. Engagement in research, education, or advocacy doubled from pretest to posttest. Air pollution and solid waste disposal most frequently influenced students’ attitudes toward the environment. Outdoor experiences were the most frequently mentioned source of information; university courses rose from 4% to 15% on the posttest. Only 40% of the students could name an environmental role model. (shrink)

To make more responsible decisions regarding risk and to understand disagreements and controversies in risk assessments, it is important to know how and where values are infused into risk assessment and how they are embedded in the conclusions. In this article an attempt is made to disentangle the relationship of science and values in decision-making concerning the deliberate release of genetically modified organisms (GMOs) into the environment. This exercise in applied philosophy of science is based on Helen Longino's (...) contextual empiricism which attempts to reconcile the objectivity of science with its social and cultural construction. Longino distinguishes different levels of research on which values apparently contextual with respect to a given research program can shape the knowledge emerging from that program. Her scheme is applied for locating and identifying the values that affect environment risk assessments of the field experiments with GMOs. The article concludes with some provisional suggestions for the decision process and the role of scientists in it. (shrink)

Ensuring that their work has a positive influence on society is a responsibility and a privilege for engineers, but also a considerable challenge. This book addresses the ways in which engineers meet this challenge, working from the assumption that for a project to be truly ethical both the undertaking itself and its implementation must be ethically sound. The contributors discuss varied topics from an international and interdisciplinary perspective, including: · robot ethics; · outer space; · international development; · internet privacy (...) and security; · green branding; · arms conversion; · green employment; and · deliberate misinformation about climate change Important questions are answered, such as: · what is meant by engineering ethics and its practical implications; · how decisions made by engineers in their working lives make an impact at the global as well as the local level; and · what ethics-related questions should be asked before making such decisions. Engineering Ethics, International and Environmental Stability will be a valuable resource for practising and student engineers as well as all who are interested in professional ethics, especially as it relates to engineering. Researchers and policy makers concerned with the effects of engineering decisions on environmental sustainability and international stability will find this book to be of special interest. (shrink)

Section 1. Introduction. The prophet of non-violence -- section 2. Women in Islam. Women in the light of hadith -- Violence against women and religion -- section 3. War and peace in Islam. Theory of war and peace in Islam -- Centrality of jihad in post Qurʼanic period -- Jihad? But what about other verses in the Qurʼan? -- Islam, democracy and violence -- A critical look at Qurʼanic verses on war and violence -- section 4. Justice and compassion in (...) Islam. Concept of justice in Islam -- Love in Sufi poetry: Maulana Rum, the poet of love -- Compassion in Islam: theology and history -- Islam and compassion: scriptural, historical and contemporary perspective -- section 5. Social issues. Science, West and Islamic origin of science -- Opening chapter of the Qurʼan and its ecological interpretation -- Islam and contemporary issues -- Religion or secularism? -- Modernity, discontent and religion -- Hindu-Muslim unity through religion? -- Religion and conflict. (shrink)

Science and Technology Ethics re-examines the ethics by which we live and asks the question: do we have in place the ethical guidelines through which we can incorporate these developments with the minimum of disruption and disaffection? It assesses the ethical systems in place and proposes new approaches to our scientific and engineering processes and products, our social contacts, biology and informatics, the military industry and our environmental responsibilities. The volume is multidisciplinary and reflects the aim of the (...) book to promote a state of the art assessment of these issues. Science and Technology Ethics is a much-needed discussion of the scientific developments that have major effects on the way we live. It will be of interest to all students of science and technology and all professionals involved with administrating laws in these fields. (shrink)

This book provides science and technology ethos to a literate person. It starts with a rather detailed treatment of basic concepts in human values, educational status and domains of education, development of science and technology and their contributions to the welfare of society. It describes ways and means of scientific progresses and technological advancements with their historical perspectives including scientific viewpoints of contributing scientists and technologists. The technical, social, and cultural dimensions are surveyed in relation to acquisition and (...) application of science, and advantages and hindrances of technological developments. Science and Technology is currently taught as a college course in many universities with the intention to introduce topics from a global historical perspective so that the reader shall stretch his/her vision by mapping the past to the future. The book can also serve as a primary reference for such courses. (shrink)

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. (shrink)

This article deals with Ibn Sīnā’s criticisms of Aristotle regarding what the place of God should be in the science of metaphysics. From Aristotle’s point of view, the existence of God is proved by the proof of motion in physics and is held as a subject matter in a science that comes after physics, which is metaphysics. According to him, metaphysics is the most sublime science because God is its subject matter. The most striking criticism against Aristotle’s (...) conception of metaphysics was put forward by Ibn Sīnā. From Ibn Sīnā’s point of view, the most important problem encountered in Aristotle’s understanding of metaphysics is that ontology and theology are intertwined. According to him, God cannot be a subject matter in metaphysics, rather, proving the existence of God is the aim of metaphysics. The subject matter of metaphysics is being qua being, and its aim is to prove the Necessary Existent that is the principle of existence. Accordingly, for Ibn Sīnā, metaphysics is an ontological science in terms of its subject and a theological science in terms of its aim. This new conception of metaphysics, developed by Ibn Sīnā, had a profound effect not only on Islamic thought but also on Western philosophy. In a way, the ontotheological notes of Islamic and Western thought from the Middle Ages to the present have progressed through the metaphysical symphony composed by Ibn Sīnā. (shrink)

The commentary raises political questions about the ways in which data has been constituted as an object vested with certain powers, influence, and rationalities. We place the emergence and transformation of professional practices such as ‘data science’, ‘data journalism’, ‘data brokerage’, ‘data mining’, ‘data storage’, and ‘data analysis’ as part of the reconfiguration of a series of fields of power and knowledge in the public and private accumulation of data. Data politics asks questions about the ways in which data (...) has become such an object of power and explores how to critically intervene in its deployment as an object of knowledge. It is concerned with the conditions of possibility of data that involve things, language, and people that together create new worlds. We define ‘data politics’ as both the articulation of political questions about these worlds and the ways in which they provoke subjects to govern themselves and others by making rights claims. We contend that without understanding these conditions of possibility – of worlds, subjects and rights – it would be difficult to intervene in or shape data politics if by that it is meant the transformation of data subjects into data citizens. (shrink)

This commentary comprises three different responses to Counted and Zock’s article: “Place Spirituality: An Attachment Perspective.” The first response is from Esther Sternberg, MD, who gives a psychophysiological and neuroscience critique. The second is from Altaf Engineer, PhD, from the perspective of architecture and environmental psychology, and the last response is from Hester Oberman, PhD, who gives a psychology of religion rebuttal.

Professionals in environmental fields engage with complex problems that involve stakeholders with different values, different forms of knowledge, and contentious decisions. There is increasing recognition of the need to train graduate students in interdisciplinary environmental science programs in these issues, which we refer to as “social ethics.” A literature review revealed topics and skills that should be included in such training, as well as potential challenges and barriers. From this review, we developed an online survey, which we (...) administered to faculty from 81 United States colleges and universities offering IESPs. Respondents overwhelmingly agreed that IESPs should address values in applying science to policy and management decisions. They also agreed that programs should engage students with issues related to norms of scientific practice. Agreement was slightly less strong that IESPs should train students in skills related to managing value conflicts among different stakeholders. The primary challenges to incorporating social ethics into the curriculum were related to the lack of materials and expertise for delivery, though challenges such as ethics being marginalized in relation to environmental science content were also prominent. Challenges related to students’ interest in ethics were considered less problematic. Respondents believed that social ethics are most effectively delivered when incorporated into existing courses, and they preferred case studies or problem-based learning for delivery. Student competence is generally not assessed, and respondents recognized a need for both curricular materials and assessment tools. (shrink)

High levels of specialization have created knowledge with little or no “peripheral vision,” and the resulting “blind spots” are causing many “collisions” with human life, society, and the biosphere. Each discipline and specialty must be equipped with a “map” showing its connections to everything else, but especially the negative consequences that tend to be associated with its practices. Preventively oriented practices can improve the ratio of desired to undesired effects of design and decision making to create ways of life that (...) are more sustainable across the board, as opposed to treating symptoms (such as global warming). This new approach has already fired the imagination of many students in engineering. (shrink)

Rolston (1988) argues that in order to act ethically in the environment, moral agents must assume that their actions are potentially harmful, and then strive to prove otherwise before implementing that action. In order to determine whether or not an action in the environment is harmful requires the tools of applied epistemology in order to act in accord with Rolston’s ethical prescription. This link between ethics and epistemology demands a closer look at the relationship between confirmation theory, particularly notions of (...) plausibility, in the philosophy of science and environmental ethics. Upon taking this look, I conclude that, at least logically, we are no better off assuming that actions are maximally risky (Rolston) than when we assume minimal risk. “Our vulnerability to error is greatest not from the things that we include in the model, but from the prophecies we leave out entirely.” Francis Bretherton “What is the main epistemic problem concerning science? I take it that it is the explication of how we compare and evaluate theories, as a basis either for theory acceptance or for practical action.” Bas van Fraassen “We face two kinds of ethical difficulties. One is where we know what ought to be done but not how to get the company to do it. The other is where we do not know what is right. We do not know the facts, or how to weigh the facts, especially statistical ones. We do not know the probabilities for development of future technologies. We do not know how to attach values to facts, or how to trade this good off against that one.” Holmes Rolston. (shrink)

This text addresses the problems of complex systems in understanding natural phenomena and the behaviour of systems related to human activity, from a science and humanities perspective. It discusses molecular behaviour and structures, and offers examples of ecological and environmental modelling.

The strengths and weaknesses of the discipline-based organization of our professions can help us understand both the enormous successes of our civilization and its equally spectacular failures. Placing engineering and other professions under greater public scrutiny is recommended as a first step toward addressing our deep structural economic, social, and environmental crises. Doing so can facilitate university reforms to adjust the discipline-based approaches to scientific knowing and technical doing, to permit future graduates to make decisions with better ratios of (...) desired to undesired effects. In the meantime, our war on ourselves rages on. (shrink)

Sanitary engineering is burdened by several challenges that attract bioethical attention: there are many ambiguities regarding the definition of the profession; its methodology seems to be a combination of several approaches from different sciences; and it often appears to be an amalgam of different disciplines. We argue that the bioethical perspective helps to show that these features can be taken as a stimulating challenge. Moreover, bioethics may illuminate how these features can become an asset to sanitary engineering in light of (...) the growing need for holistic approaches. First, we present a bioethical analysis of the aforementioned features as a useful way to clarify and strengthen the identity of the profession. Second, we argue that professional ethics have received the least attention, but are crucial to giving the profession stronger independence and professional identity and to creating a unique worldview at the crossroads of environmental and public health ethics. Finally, we propose a general framework of sound professional ethics of sanitary engineering as a necessary step towards rethinking the core values of the profession, clearly articulating a genuine professional ethic, and reforming educational politics related to professional education. (shrink)

Professionals in environmental fields engage with complex problems that involve stakeholders with different values, different forms of knowledge, and contentious decisions. There is increasing recognition of the need to train graduate students in interdisciplinary environmental science programs in these issues, which we refer to as “social ethics.” A literature review revealed topics and skills that should be included in such training, as well as potential challenges and barriers. From this review, we developed an online survey, which we (...) administered to faculty from 81 United States colleges and universities offering IESPs. Respondents overwhelmingly agreed that IESPs should address values in applying science to policy and management decisions. They also agreed that programs should engage students with issues related to norms of scientific practice. Agreement was slightly less strong that IESPs should train students in skills related to managing value conflicts among different stakeholders. The primary challenges to incorporating social ethics into the curriculum were related to the lack of materials and expertise for delivery, though challenges such as ethics being marginalized in relation to environmental science content were also prominent. Challenges related to students’ interest in ethics were considered less problematic. Respondents believed that social ethics are most effectively delivered when incorporated into existing courses, and they preferred case studies or problem-based learning for delivery. Student competence is generally not assessed, and respondents recognized a need for both curricular materials and assessment tools. (shrink)

Abstract Environmental and public health-focused sciences are increasingly characterised as constituting an emerging discipline—planetary medicine. From a governance perspective, the ethical components of that discipline may usefully be viewed as bestowing upon our ailing natural environment the symbolic moral status of a patient. Such components emphasise, for example, the origins and content of professional and social virtues and related ethical principles needed to promote global governance systems and policies that reduce ecological stresses and pathologies derived from human overpopulation, selfishness (...) and greed—such as pollution, loss of biodiversity, deforestation and greenhouse gas emissions, as well as provide necessary energy, water and food security. Less well explored in this context, however, is the ethics that should underpin global use of emerging technologies such as nanotechnology as forms of planetary therapeutics. Nanotechnology may be particularly important, for instance, as a mechanism for improving upon photosynthesis and engineering it into human structures for localised production of carbon-neutral hydrogen based-fuel and carbohydrate-based food and fertilizer. Artificial photosynthesis, because of its unique and widespread public and environmental benefits in this period of human history, may even be termed the moral culmination of nanotechnology, assisting this planet to move beyond the Anthropocene epoch to that of the Sustainocene. This paper explores practical steps towards planetary nanomedicine involving governance of artificial photosynthesis, including a UNESCO Universal Declaration on the Bioethics and Human Rights of Natural and Artificial Photosynthesis (Global Solar Fuels and Foods ). Content Type Journal Article Category Original Paper Pages 1-13 DOI 10.1007/s11569-012-0144-4 Authors Thomas Faunce, College of Medicine, Biology and the Environment and College of Law (joint Appointment), Australian National University, Acton, Australia Journal NanoEthics Online ISSN 1871-4765 Print ISSN 1871-4757. (shrink)

An article by Alexandra Kirsch accepted for publication in Cognitive Processing occasioned debate among reviewers about broad methodological issues in cognitive science. One of these issues is the proper place of Popperian falsificationism in the interdisciplinary cluster. Another is the tension between abstract models and theories that apply to wide classes of cognitive systems, and models of more restricted scope intended to predict specifically human patterns of thought and behavior. The lead editorial in a Commentary debate invited by the (...) journal’s editors considers these issues from the perspective of a pragmatist philosophy of science inspired by Herbert Simon’s classic, MIT Press, Cambridge, 1969) reflections on the blurring of the distinction between science and engineering in cognitive science. (shrink)

This study explores the institutional logics and socialization experiences of STEM doctoral students in the context of the current American economic narrative that is specific to science and technology. Data from qualitative interviews with 36 students at three research universities first reveals a disconnect between a well-established national science and technology policy narrative that is market-oriented and the training, experiences, and perspectives of science and engineering doctoral students. Findings also indicate science and engineering doctoral students mostly (...) understand entrepreneurship and innovation in the contexts of funding research activities and creating social impact, which parallel rather than oppose dominant academic values and norms. Based on the findings, we contend that it is both possible and prudent for universities and graduate programs to pursue strategies that align science and engineering doctoral education with the current national economic agenda and support the personal, professional values and perspectives of students without coming in conflict with the scientific core of the academy. (shrink)

Contemporary architecture is increasingly grounded in science and mathematics. Architectural discourse has shifted radically from the sometimes disorienting Derridean deconstruction, to engaging scientific terms such as fractals, chaos, complexity, nonlinearity, and evolving systems. That's where the architectural action is -- at least for cutting-edge architects and thinkers -- and every practicing architect and student needs to become conversant with these terms and know what they mean. Unfortunately, the vast majority of architecture faculty are unprepared to explain them to students, (...) not having had a scientific education themselves. Here is an architecture book by an architect/scientist, just in time to help architects in the new millennium. Alexander discusses many of the scientific terms arising in cutting-edge architecture, and explains them to those who don't have scientific training or advanced mathematical knowledge. We find discussions of the evolution of forms; the importance of process in design; iteration; genetic algorithms; sequences of transformations; different levels of scale (i.e. fractals); etc. They are explained here by an architect who is also a scientist, because he wants to change the way architects think and build. Alexander is not merely popularizing other scientists' results and making them accessible to architects: he is in fact presenting new and original scientific work that ties many of these concepts together in a way that will be useful to architects. (shrink)

The rapid growth of human population and associated industrialisation creates strains on resources and climate. One way to understand the impact of human activity is to quantify the total environmental pressures by measuring the ‘footprint’. Footprints account for the total direct and/or indirect effects of a product or a consumption activity, which may be related to e.g. carbon, water or land use, and can be seen as a proxy for environmental responsibility. Footprints shape climate and resource debates, especially (...) concerning environmental strategies. However, in general, footprints hold a dichotomous producer–consumer perspective that is not unanimously accepted. In addition, the current footprinting system transmits a simplistic message about environmental responsibility that taints the justice debate and jeopardises the validity of policies based on them. Consequently, it is crucial to question who is accountable for adverse environmental effects. It is also critical to investigate how the methodological characteristics of footprints shape and affect the efficacy of policies on climate and natural resources. This article examines these challenges, focusing on negative justice and policy implications resulting from assigning environmental responsibility to a sole agent. The article proposes, and morally justifies, the development of a footprinting method that includes justice parameters in an attempt to render fair results that are more meaningful for environmental action. The second objective is to establish the potential of this new framework to promote environmental responsibility and justice while facilitating policymaking. The suggested justice elements aim at turning footprints into a concrete environmental policy instrument framed under the value of environmental fairness. (shrink)

This second companion volume on engineering studies considers engineering practice including contextual analyses of engineering identity, epistemologies and values. Key overlapping questions examine such issues as an engineering identity, engineering self-understandings enacted in the professional world, distinctive characters of engineering knowledge and how engineering science and engineering design interact in practice. -/- Authors bring with them perspectives from their institutional homes in Europe, North America, Australia\ and Asia. The volume includes 24 contributions by more than 30 authors from engineering, (...) the social sciences and the humanities. Additional issues the chapters scrutinize include prominent norms of engineering, how they interact with the values of efficiency or environmental sustainability. A concluding set of articles considers the meaning of context more generally by asking if engineers create their own contexts or are they created by contexts. -/- Taken as a whole, this collection of original scholarly work is unique in its broad, multidisciplinary consideration of the changing character of engineering practice. (shrink)

Societal evaluation of new technologies, specifically nanotechnology and genetically engineered organisms , challenges current practices of governance and science. Employing environmental risk assessment for governance and oversight assumes we have a reasonable ability to understand consequences and predict adverse effects. However, traditional ERA has come under considerable criticism for its many shortcomings and current governance institutions have demonstrated limitations in transparency, public input, and capacity. Problem Formulation and Options Assessment is a methodology founded on three key concepts in (...) risk assessment and three in governance . Developed through a series of international workshops, the PFOA process emphasizes engagement with stakeholders in iterative stages, from identification of the problem through comparison of multiple technology solutions that could be used in the future with their relative benefits, harms, and risk. It provides “upstream public engagement” in a deliberation informed by science that identifies values for improved decision making. (shrink)

Societal evaluation of new technologies, specifically nanotechnology and genetically engineered organisms, challenges current practices of governance and science. When a governing body is confronted by a technology whose use has potential environmental risks, some form of risk analysis is typically conducted to help decision makers consider the range of possible benefits and harms posed by the technology. Environmental risk assessment is a critical component in the governance of nanotechnology and genetically engineered organisms because the uncertainties and complexities (...) surrounding these technologies pose such risk potential. However, GEOs are unique technologies, and there is widespread, international recognition that many traditional forms of ERA are not well-suited for evaluating them. Nanotechnology products are also likely to need different models of risk assessment, as there is very little information on their fate, transport, and impacts in the environment. (shrink)

Because wicked problems are beyond the scope of normal, industrial-age engineering science, sustainability problems will require reform of current engineering science and technology practices. We assert that, while pluralism concerning use of the term sustainability is likely to persist, universities should continue to cultivate research and education programs specifically devoted to sustainable engineering science, an enterprise that is formally demarcated from business-as-usual and systems optimization approaches. Advancing sustainable engineering science requires a shift in orientation away from (...) reductionism and intellectual specialization towards integrative approaches to science, education, and technology that: draw upon an ethical awareness that extends beyond the usual bounds of professional ethics or responsible conduct of research to include macroethics, adopt anticipatory and adaptive approaches to unintended consequences resulting from technological innovation that result in more resilient systems, and cultivate interactional expertise to facilitate cross-disciplinary exchange. Unfortunately, existing education and research training programs are ill-equipped to prepare scientists and engineers to operate effectively in a wicked problems milieu. Therefore, it is essential to create new programs of graduate education that will train scientists and engineers to become sustainable engineering science experts equipped to recognize and grapple with the macro-ethical, adaptive, and cross-disciplinary challenges embedded in their technical research and development programs. Content Type Journal Article Category Articles Pages 1-18 DOI 10.1007/s10806-011-9342-2 Authors Thomas Seager, School of Sustainability and The Built Environment, Arizona State University, Phoenix Metropolitan Area, AZ, USA Evan Selinger, Department of Philosophy, Rochester Institute of Technology, Henrietta, NY, USA Arnim Wiek, School of Sustainability, Arizona State University, Phoenix Metropolitan Area, AZ, USA Journal Journal of Agricultural and Environmental Ethics Online ISSN 1573-322X Print ISSN 1187-7863. (shrink)

The topic of cheating among college students has received considerable attention in the education and psychology literatures. But most of this research has been conducted with relatively small samples and individual projects have generally focused on students from a single campus. These studies have improved our understanding of cheating in college, but it is difficult to generalize their findings and it is also difficult to develop a good understanding of the differences that exist among different academic majors. Understanding such differences (...) may be important in developing improved strategies for combating college cheating. The objective of this paper is to examine the relation between cheating and the choice of academic major with a particular focus on natural science and engineering majors. The data source for this analysis is a study of over 4,000 students from 31 campuses which was conducted in the 1995–1996 academic year. (shrink)

The design and economic realities associated with Personal Computers (PCs) was used as a model for implementing ethical issues into the core-engineering curriculum. Historically, products have not been designed to be recycled easily. By incorporating environmental ethics into our classrooms and industries, valuable materials can be recovered and harmful materials can be eliminated from our waste stream. Future engineers must consider the economic cost-benefit analysis of designing a product for easy material recovery and recycling versus the true cost of (...) the disposal and continued use of virgin materials. A three hour unit on the economic and environmental impacts of product design is proposed for inclusion in the ABET accredited engineering program. (shrink)

Creativity in science and engineering has moral significance and deserves attention within professional ethics, in at least three areas. First, much scientific and technological creativity constitutes moral creativity because it generates moral benefits, is motivated by moral concern, and manifests virtues such as beneficence, courage, and perseverance. Second, creativity contributes to the meaning that scientists and engineers derive from their work, thereby connecting with virtues such as authenticity and also faults arising from Faustian trade-offs. Third, morally creative leadership is (...) important at all levels of science and engineering. (shrink)

Engineering science is a scientific discipline that from the point of view of epistemology and the philosophy of science has been somewhat neglected. When engineering science was under philosophical scrutiny it often just involved the question of whether engineering is a spin-off of pure and applied science and their methods. We, however, hold that engineering is a science governed by its own epistemology, methodology and ontology. This point is systematically argued by comparing the different sciences (...) with respect to a particular set of characterization criteria. (shrink)

ZusammenfassungIm vorliegenden Artikel wird das von historischer Seite wenig erforschte Ereignis der Magdalenenflut von 1342 unter Einbeziehung administrativer Überlieferung, vor allem aus Urkunden und Rechnungsbüchern, und durch Heranziehung naturwissenschaftlicher Proxydaten, insbesondere aus Baumring-Niederschlagsrekonstruktionen, neu ausgeleuchtet. So gelingt es nicht nur, einen wesentlich differenzierteren Verlauf einer insgesamt zweijährigen Hochwasserkatastrophe mit peaks im Februar und Juli 1342, aber auch im Juli 1343 zu gewinnen, sondern auch mehrmonatige Trockenphasen im März bis Juni 1342 erstmals zu fassen, die den (auch in Schriftquellen nachgewiesenen) Erosionseffekt (...) der Starkregenfälle im Juli 1342 besser erklären als bislang. Dabei wird klar, dass 1342/43 ein multifaktorieller compound event vorliegt, der erst durch die Koinzidenz natürlicher Extremereignisse mit sozio-ökonomischen Faktoren zur Katastrophe führt. Die bewusste Ausweitung des Quellenspektrums lässt beispielsweise erstmals eine überregionale Teuerung bei Lebensmitteln im Nachklang der Flutereignisse feststellen, die aber wesentlich im zufälligen Auftreten des Hochwassers noch vor der Getreideernte begründet liegt. Der Fokus des Beitrags liegt auf infrastrukturellen Anpassungsmaßnahmen, etwa veränderten Brückendesigns (am Bsp. der Balduinbrücke in Koblenz) und großer Wasserbaumaßnahmen (am Beispiel des Donaudurchstichs von Oberalteich), oder normativen Reaktionen wie den Würzburger Polizeisätzen 1342/43 und der Errichtung von Deichbaugemeinschaften am Niederrhein, die zumindest als indirekte Reaktionen auf die Hochwasserereignisse verstanden werden müssen. Diese technisch-normativen Adaptionsvorgänge können einerseits im Luhmann’schen Sinn als Umweltbeobachtungen zweiter Ordnung verstanden werden, andererseits erläutern sie die Bedeutung von natürlichen Extremereignissen als Taktgeber für vormoderne Infrastrukturentwicklung aufgrund ihrer als kritisch erlebten, ungenügenden Ausgestaltung oder gar ihres völligen Fehlens. Nordalpin sehen wir nach 1342/43 im Bereich des Hochwasserschutzes zaghafte Anfänge obrigkeitlicher Daseinsvorsorge jenseits lokaler Zuständigkeiten. (shrink)

This chapter contains sections titled: References and Further Reading.

This paper explores three cases of Do-It-Yourself, open-source technologies developed within the diverse array of topics and themes in the communities around the Public Laboratory for Open Technology and Science. These cases focus on aerial mapping, water quality monitoring and civic science practices. The techniques discussed have in common the use of accessible, community-built technologies for acquiring data. They are also concerned with embedding collaborative and open source principles into the objects, tools, social formations and data sharing practices (...) that emerge from these inquiries. The focus is on developing processes of collaborative design and experimentation through material engagement with technology and issues of concern. Problem-solving, here, is a tactic, while the strategy is an ongoing engagement with the problem of participation in its technological, social and political dimensions especially considering the increasing centralization and specialization of scientific and technological expertise. The authors also discuss and reflect on the Public Lab’s approach to civic science in light of ideas and practices of citizen/civic veillance, or “sousveillance”, by emphasizing people before data, and by investigating the new ways of seeing and doing that this shift in perspective might provide. (shrink)

The article discusses the uncertainty in climate science and the problem this poses for policymakers confronting mitigation policy costs in the U.S. The reasons legitimate scientific uncertainty becomes magnified in the political arena are highlighted. This uncertainty results from the rapid pace of published research, as demonstrated by the paleoclimatology studies in "Nature" and the July 2005 issue of "Science." The author states that the California Air Resources Board seems to refuse to undertake an open reconsideration of the (...) policy implications of its emissions reduction strategy. The article discusses the uncertainty in climate science and the problem this poses for policymakers confronting mitigation policy costs in the U.S. The reasons legitimate scientific uncertainty becomes magnified in the political arena are highlighted. This uncertainty results from the rapid pace of published research, as demonstrated by the paleoclimatology studies in "Nature" and the July 2005 issue of "Science." The author states that the California Air Resources Board seems to refuse to undertake an open reconsideration of the policy implications of its emissions reduction strategy. (shrink)