This book treats discovery and invention as processes of knowledge transformation. This process of transformation also covers the way in which scientists persuade and inventors create markets. New discoveries and technologies are not simply the result of organizational agendas and market forces; they are created by human beings who transform both nature and society. One of the goals of this book is to take technological and scientific thinking out of the realm of mystery and give a wider audience the tools to begin to comprehend it. An additional goal is to show how ethics can be used to make certain inventions and discoveries transform the world in a beneficial way. New technologies must be environmentally sustainable and socially just. Chapter 1 begins with analysis of several cases of discovery, and attempts to make generalizations from them. Chapter 2 combines psychology, sociology and philosophy of science in an effort to determine whether and how science can be studied. Chapter 3 is about invention and the story of the telephone is at the center, with other cases embellishing the discussion. Chapter 4 brings ethics, discovery and invention together in the case of the atomic bomb, then goes on to treat new ethical technologies like the development of a compostable furniture fabric and the introduction of photovoltaics into developing countries. Chapter 5 considers how to teach ethical discovery and invention, and includes a section on the management of discovery and invention.

This book analyzes future directions in the study of expertise and experience with the aim of engendering more critical discourse on the general discipline of science and technology studies. In 2002, Collins and Evans published an article entitled "The Third Wave of Science Studies," suggesting that the future of science and technology studies would be to engage in "Studies in Expertise and Experience." In their view, scientific expertise in legal and policy settings should reflect a consensus of formally-trained scientists and citizens with experience in the relevant field (but not "ordinary" citizens). The Third Wave has garnered attention in journals and in international workshops, where scholars delivered papers explicating the theoretical foundations and practical applications of the Third Wave. This book arose out of those workshops, and is the next step in the popularization of the Third Wave. The chapters address the novel concept of interactional experts, the use of imitation games, appropriating scientific expertise in law and policy settings, and recent theoretical developments in the Third Wave.

Despite the topic's urgency and centrality, this is the first edited volume to offer a comprehensive assessment of the varying approaches to early engagement with new technologies, including nanotechnology, synthetic biology, biotechnology and ICT. Covering five main approaches to early engagement-constructive technology assessment (CTA), value-sensitive design (VSD), midstream modulation (MM), the network approach for moral evaluation, and political technology assessment-the book will be a pivotal text in the rapidly developing research field of ELSI, which explores the ethical, legal, and social implications of new technologies.

Featuring leading scholars who discuss each early engagement approach in turn, the chapters cover both theory and applications, and include evaluative assessments of specific instances of early adoption of technologies. Further contributions focus on theoretical issues relevant to all approaches, including interdisciplinary cooperation, normativity and intervention, and political and public relevance. The publication has added profile due to the requirement of multi-billion-dollar research programs in the US and Europe to engage in ELSI research alongside that of the technical development itself, even in the early stages. Its comprehensive scrutiny of the core factors in early engagement will ensure a readership of policy makers as well as scientists and engineers.

At the turn of the 21st century, the most valuable commodity in society is knowledge--particularly new knowledge that may give a culture, company, or laboratory an adaptive advantage. Knowledge about the cognitive processes that lead to discovery and invention can enhance the probability of making valuable new discoveries and inventions. Such knowledge needs to be made widely available to ensure that no particular interest group "corners the market" on techno-scientific creativity. Knowledge can also facilitate the development of business strategies and social policies based on a genuine understanding of the creative process. Furthermore, through an understanding of principles underlying the cognitive processes related to discovery, educators can utilize these principles to teach students effective problem-solving strategies as part of their education as future scientists. This book takes the reader out onto the cutting edge of research in scientific and technological thinking. The editors advocate a multiple-method approach; chapters include detailed case studies of contemporary and historical practices, experiments, computational simulations, and innovative theoretical analyses. The editors attempt a provocative synthesis of this work at the end. In order to achieve true scientific and technological progress, an understanding of the process by which species are transforming the world is needed. This book makes an important step in that direction by leading to breakthroughs in the understanding of discovery and invention.

At the turn of the 21st century, the most valuable commodity in society is knowledge--particularly new knowledge that may give a culture, company, or laboratory an adaptive advantage. Knowledge about the cognitive processes that lead to discovery and invention can enhance the probability of making valuable new discoveries and inventions. Such knowledge needs to be made widely available to ensure that no particular interest group "corners the market" on techno-scientific creativity. Knowledge can also facilitate the development of business strategies and social policies based on a genuine understanding of the creative process. Furthermore, through an understanding of principles underlying the cognitive processes related to discovery, educators can utilize these principles to teach students effective problem-solving strategies as part of their education as future scientists. This book takes the reader out onto the cutting edge of research in scientific and technological thinking. The editors advocate a multiple-method approach; chapters include detailed case studies of contemporary and historical practices, experiments, computational simulations, and innovative theoretical analyses. The editors attempt a provocative synthesis of this work at the end. In order to achieve true scientific and technological progress, an understanding of the process by which species are transforming the world is needed. This book makes an important step in that direction by leading to breakthroughs in the understanding of discovery and invention.

Despite the topic’s urgency and centrality, this is the first edited volume to offer a comprehensive assessment of the varying approaches to early engagement with new technologies, including nanotechnology, synthetic biology, biotechnology and ICT. Covering five main approaches to early engagement—constructive technology assessment (CTA), value-sensitive design (VSD), midstream modulation (MM), the network approach for moral evaluation, and political technology assessment—the book will be a pivotal text in the rapidly developing research field of ELSI, which explores the ethical, legal, and social implications of new technologies. Featuring leading scholars who discuss each early engagement approach in turn, the chapters cover both theory and applications, and include evaluative assessments of specific instances of early adoption of technologies. Further contributions focus on theoretical issues relevant to all approaches, including interdisciplinary cooperation, normativity and intervention, and political and public relevance. The publication has added profile due to the requirement of multi-billion-dollar research programs in the US and Europe to engage in ELSI research alongside that of the technical development itself, even in the early stages. Its comprehensive scrutiny of the core factors in early engagement will ensure a readership of policy makers as well as scientists and engineers.

This book is but the draft of a draft, as Melville said of Moby Dick. There is no prose here to match Melville's, but the scope is worthy of the great white whale. No one could possibly write a comprehensive, authoritative book on ethics, invention and discovery. I have not tried to, though I hope my bibliography will be a useful starting point for other explorers, and the cases and ideas presented here will keep people arguing for years. Although this book is nothing like a textbook, it is written for my students. I was trained as a teacher of psychology in graduate school and ended-up, by one of those happy chances of the job market, teaching psychology to engineering students rather than psyche majors. My dissertation and early research were in the psychology of scientific hypothesis-testing (see Chapter 2). When I team-taught a course with W. Bernard Carlson, a historian of technology, I saw how cognitive psychology might be applied to the study of invention. Bernie and I received funding from the National Science Foundation for three years of research on the invention of the telephone; a portion of that work is described in Chapter 3.

This book analyzes future directions in the study of expertise and experience with the aim of engendering more critical discourse on the general discipline of science and technology studies. In 2002, Collins and Evans published an article entitled "The Third Wave of Science Studies," suggesting that the future of science and technology studies would be to engage in "Studies in Expertise and Experience." In their view, scientific expertise in legal and policy settings should reflect a consensus of formally-trained scientists and citizens with experience in the relevant field (but not "ordinary" citizens). The Third Wave has garnered attention in journals and in international workshops, where scholars delivered papers explicating the theoretical foundations and practical applications of the Third Wave. This book arose out of those workshops, and is the next step in the popularization of the Third Wave. The chapters address the novel concept of interactional experts, the use of imitation games, appropriating scientific expertise in law and policy settings, and recent theoretical developments in the Third Wave.

Traditional Life Cycle Analysis (LCA) methodologies affect the public health and environmental impacts from a material, product, process or activity. The authors of this book suggest that a more holistic approach that incorporates societal and behavioral dimensions will create better results. They discuss how to develop an adaptive framework that would include a wider range of perspectives and disciplines. The book will also include discussions about "Technological Black Swans," trading zones, ethics, behavioral nanotechnology, governance, risk, green design, tools for practitioners, and conclude with a chapter presenting a "strategic outlook."