Responsible Science is a comprehensive review of factors that influence the integrity of the research process. Volume I examines reports on the incidence of misconduct in science and reviews institutional and governmental efforts to handle cases of misconduct. The result of a two-year study by a panel of experts convened by the National Academy of Sciences, this book critically analyzes the impact of today's research environment on the traditional checks and balances that foster integrity in science. Responsible Science is a provocative examination of the role of educational efforts; research guidelines; and the contributions of individual scientists, mentors, and institutional officials in encouraging responsible research practices.
Ethics and Social Responsibility in Science Education discusses the principles and approaches to the problems of ethics and social responsibility in science education. The book is divided into three parts. The first part, Principles and Approach, explores the nature of moral education and the ethics; social responsibility of science; and the roles of scientists and engineers in societal issues. The second part, Problems and Prospects, covers different social and cultural issues in relation to ethics in science such as international stability; food production; human experimentation; medical ethics; chemical pollution; and energy production. The third part, Teaching Methodology, talks about the importance and styles of teaching ethics and social responsibility in science education. The text is recommended for practitioners, researchers, and educators in the different fields of science. Those who wish to know the importance of ethics in the socio-cultural aspect of sciences will also find this book helpful.
The present volume elucidates the scope of responsibility in science and technology governance by way of assimilating insights gleaned from sociological theory and STS and by investigating the ways in which responsibility unfolds in social processes. Drawing on these theoretical perspectives, the volume goes on to review a ‘heuristic model’ of responsibility. Such a model provides a simple, tentative, though no less coherent analytical framework for further examining the idea of responsibility, its transformations, configurations and contradictions.
Modern civilization faces a broad spectrum of daunting problems, but rational solutions are available for them all. This book explores the following issues: (1) Threats to the environment and climate change; (2) a growing population and vanishing resources; (3) the global food and refugee crisis; (4) intolerable economic inequality; (5) the threat of nuclear war; (6) the military-industrial complex; and (7) limits to growth. These problems are closely interlinked, and their possible solutions are discussed in this book.
When Fat Boy, the first atomic bomb was detonated at Los Alamos, New Mexico in 1945, moral responsibility in science was forever thrust into the forefront of philosophical debate. The culmination of the famed Manhattan Project, which employed many of the world's best scientific minds, was a singular event that signaled a new age of science for power and profit and the monumental responsibility that these actions entailed.Today, the drive for technological advances in areas such as pharmaceuticals, biosciences, communications, and the defense industry channels the vast majority of scientific endeavor into applied research. In The Responsible Scientist, John Forge examines the challenges of social, moral, and legal responsibility faced by today's scientists. Focusing on moral responsibility, Forge argues that scientists have a responsibility not to do work that has harmful outcomes and that they are encouraged to do work that prevents harm. Scientists also have a backward-looking responsibility, whereby they must prevent wrongful outcomes and omissions that they are in a position to foresee.Forge presents a broad overview of many areas of scientific endeavor, citing the responsibility of corporations, employees, and groups of scientists as judged by the values of science and society's appraisals of actions and outcomes. He maintains that ultimate responsibility lies in the hands of the individual-the responsible scientist-who must exhibit the diligence and foresight to anticipate the use and abuse of his or her work.
Science and innovation have the power to transform our lives and the world we live in - for better or worse – in ways that often transcend borders and generations: from the innovation of complex financial products that played such an important role in the recent financial crisis to current proposals to intentionally engineer our Earth’s climate. The promise of science and innovation brings with it ethical dilemmas and impacts which are often uncertain and unpredictable: it is often only once these have emerged that we feel able to control them. How do we undertake science and innovation responsibly under such conditions, towards not only socially acceptable, but socially desirable goals and in a way that is democratic, equitable and sustainable? Responsible innovation challenges us all to think about our responsibilities for the future, as scientists, innovators and citizens, and to act upon these. This book begins with a description of the current landscape of innovation and in subsequent chapters offers perspectives on the emerging concept of responsible innovation and its historical foundations, including key elements of a responsible innovation approach and examples of practical implementation. Written in a constructive and accessible way, Responsible Innovation includes chapters on: Innovation and its management in the 21st century A vision and framework for responsible innovation Concepts of future-oriented responsibility as an underpinning philosophy Values – sensitive design Key themes of anticipation, reflection, deliberation and responsiveness Multi – level governance and regulation Perspectives on responsible innovation in finance, ICT, geoengineering and nanotechnology Essentially multidisciplinary in nature, this landmark text combines research from the fields of science and technology studies, philosophy, innovation governance, business studies and beyond to address the question, “How do we ensure the responsible emergence of science and innovation in society?”
"Not everyone agrees that professionals - including academic philosophers - need to be actively engaged in this fashion. So another theme throughout is an argument against non-engaged philosophers, non-engaged scientists, and other non-engaged professionals." "The social problems of a technological society are manifest. The book attempts to show, in a scholarly way, how they might be addressed effectively."--Jacket.
What kind of science do we need today and tomorrow? In a game that knows no boundaries, a game that contaminates science, democracy and the market economy, how can we distinguish true needs from simple of fashion? How can we distinguish between necessity and fancy? whims How can we differentiate conviction from opinion? What is the meaning of this all? Where is the civilizing project? Where is the universal outlook of the minds that might be capable of counteracting the global reach of the market? Where is the common ground that links each of us to the other? We need the kind of science that can live up to this need for univer sality, the kind of science that can answer these questions. We need a new kind of knowledge, a new awareness that can bring about the creative destruction of certainties. Old ideas, dogmas, and out-dated paradigms must be destroyed in order to build new knowledge of a type that is more socially robust, more scientifically reliable, stable and above all better able to express our needs, values and dreams. What is more, this new kind of knowledge, which will be challenged in turn by ideas yet to come, will prove its true worth by demonstrating its capacity to dialogue with these ideas and grow with them.
Innovation, in economic activity, in managerial concepts and in engineering design, results from creative activities, entrepreneurial strategies and the business climate. Innovation leads to technological, organizational and commercial changes, due to the relationships between enterprises, public institutions and civil society organizations. These innovation networks create new knowledge and contribute to the dissemination of new socio-economic and technological models, through new production and marketing methods. Innovation Economics, Engineering and Management Handbook 1 is the first of the two volumes that comprise this book. The main objectives across both volumes are to study the innovation processes in todays information and knowledge society; to analyze how links between research and business have intensified; and to discuss the methods by which innovation emerges and is managed by firms, not only from a local perspective but also a global one. The studies presented in these two volumes contribute toward an understanding of the systemic nature of innovations and enable reflection on their potential applications, in order to think about the meaning of growth and prosperity.
