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Nanotechnology seems to escape boundaries and definitions. The 'Rush to Nanoscale' spreads throughout different sites and arenas, involving a multiplicity of actors, meanings and spaces in which they emerge. The uncertainty of nanotechnology appears to be both a condition and a consequence of this situation. This volume adds to the collective effort of charting the multiple and heterogeneous dimensions that characterize nanotechnology, by analyzing the numerous modalities through which different stakeholders and actors provide definitions, attribute meaning and sense to nano-enabled innovations. The chapters of the book attempt to highlight how nanotechnologies, their discourse, and their actual and potential implications cannot be isolated in laboratories, factories, markets and separate discussion arenas.
Nanotechnology seems to escape boundaries and definitions. The “Rush to Nanoscale” spreads throughout different sites and arenas, involving a multiplicity of actors, meanings, and spaces in which they emerge. The ‘uncertainty of nanotechnology’ appears to be both a condition and a consequence of this situation. This volume adds to the collective effort of charting the multiple and heterogeneous dimensions that characterise nanotechnology, by analysing the numerous modalities through which different stakeholders and actors provide definitions, attribute meaning and sense to nano-enabled innovations. The chapters of the book attempt to highlight how nanotechnologies, their discourse, and their actual and potential implications cannot be isolated in laboratories, factories, markets, and separate discussion arenas. Also, the volume examines how it is apparently not possible to bind and/or confine the definition of nanotechnology by referring exclusively to present-day research and applications, as well as to geographical, cultural, and even disciplinary boundaries. Considered together, this collection of essays suggests that the ‘societal experiment’ of nanotechnology has to be explored with a vocabulary that is not just scientific and technical, in order to cross the frontiers between multiple domains, actors, identities, translations, and negotiation processes that occur in the nanotechnology field.
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.
Theoretically innovative and empirically wide-ranging, this book examines the complex relations between technoscience and everyday life. It draws on numerous examples, including both mundane technologies such as Velcro, Post-it notes, mobile phones and surveillance cameras, and the esoterica of xenotransplantation, new genetics, nanotechnology and posthuman society. Technoscience and Everyday Life traces the multiple ways in which technoscience features in and affects the dynamics of everyday life, and explores how the everyday influences the course of technoscience. In the process, it takes account of a range of core social scientific themes: body, identity, citizenship, society, space, and time. It combines critique and microsocial analysis to develop several novel conceptual tools, and addresses key contemporary theoretical debates on posthumanism, social-material divides, process philosophy and complexity, temporality and spatiality. The book is a major contribution to the sociology of everyday life, science and technology studies, and social theory.
The 21st century is shaped by globalisation, worldwide electronic information dissemination and planetary presence of media and IT networks. The information society became a high-tech industrial or systems-technological super-information society with ubiquitous IT accessibility. Attending to techno-science super-structures and systems technocracies the book tackles problems of social responsibility, humanitarianism, ecological policies, and a philosophy of technology, planning, risk assessment, decision-making, globalisation, creativity, achievement-orientation, etc. for a humane future orientation. Philosophy should go systems- and practice-oriented, normative and optimistic again.
Nanotechnology seems to escape boundaries and definitions. This title adds to the collective effort of charting the multiple and heterogeneous dimensions that characterize nanotechnology, by analyzing the numerous modalities through which different stakeholders and actors provide definitions, attribute meaning and sense to nanoenabled innovations.
The relationship of the current technosciences and the older engineering sciences, examined through the history of the “useful” sciences in Prussia. Do today's technoscientific disciplines—including materials science, genetic engineering, nanotechnology, and robotics—signal a radical departure from traditional science? In Technoscience in History, Ursula Klein argues that these novel disciplines and projects are not an “epochal break,” but are part of a history that can be traced back to German “useful” sciences and beyond. Klein's account traces a deeper history of technoscience, mapping the relationship between today's cutting-edge disciplines and the development of the useful and technological sciences in Prussia from 1750 to 1850. Klein shows that institutions that coupled natural-scientific and technological inquiry existed well before the twentieth century. Focusing on the science of mining, technical chemistry, the science of forestry, and the science of building (later known as civil engineering), she examines the emergence of practitioners who were recognized as men of science as well as inventive technologists—key figures that she calls “scientific-technological experts.” Klein describes the Prussian state's recruitment of experts for technical projects and manufacturing, including land surveys, the apothecary trade, and porcelain production; state-directed mining, mining science, and mining academies; the history and epistemology of useful science; and the founding of Prussian scientific institutions in the nineteenth century, including the University of Berlin, the Academy of Building, the Technical Deputation, and the Industrial Institute.
From weaker to stronger rhetoric : literature - Laboratories - From weak points to strongholds : machines - Insiders out - From short to longer networks : tribunals of reason - Centres of calculation.
An ethnographic exploration of technoscientific immortality Immortality has long been considered the domain of religion. But immortality projects have gained increasing legitimacy and power in the world of science and technology. With recent rapid advances in biology, nanotechnology, and artificial intelligence, secular immortalists hope for and work toward a future without death. On Not Dying is an anthropological, historical, and philosophical exploration of immortality as a secular and scientific category. Based on an ethnography of immortalist communities—those who believe humans can extend their personal existence indefinitely through technological means—and an examination of other institutions involved at the end of life, Abou Farman argues that secular immortalism is an important site to explore the tensions inherent in secularism: how to accept death but extend life; knowing the future is open but your future is finite; that life has meaning but the universe is meaningless. As secularism denies a soul, an afterlife, and a cosmic purpose, conflicts arise around the relationship of mind and body, individual finitude and the infinity of time and the cosmos, and the purpose of life. Immortalism today, Farman argues, is shaped by these historical and culturally situated tensions. Immortalist projects go beyond extending life, confronting dualism and cosmic alienation by imagining (and producing) informatic selves separate from the biological body but connected to a cosmic unfolding. On Not Dying interrogates the social implications of technoscientific immortalism and raises important political questions. Whose life will be extended? Will these technologies be available to all, or will they reproduce racial and geopolitical hierarchies? As human life on earth is threatened in the Anthropocene, why should life be extended, and what will that prolonged existence look like?
Unlike the bulk majority of publications on philosophy of science and research ethics, which are authored by professional philosophers and intended for philosophers, this book has been written by a research practitioner and intended for research practitioners. It is distinctive by its integrative approach to methodological and ethical issues related to research practice, with special emphasis of mathematical modelling and measurement, as well as by attempted application of engineering design methodology to moral decision making. It is also distinctive by more than 200 real-world examples drawn from various domains of science and technology. It is neither a philosophical treaty nor a quick-reference guide. It is intended to encourage young researchers, especially Ph.D. students, to deeper philosophical reflection over research practice. They are not expected to have any philosophical background, but encouraged to consult indicated sources of primary information and academic textbooks containing syntheses of information from primary sources. This book can be a teaching aid for students attending classes aimed at identification of methodological and ethical issues related to technoscientific research, followed by introduction to the methodology of analysing dilemmas arising in this context.