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Victorian Science in Context captures the essence of this fascination, charting the many ways in which science influenced and was influenced by the larger Victorian culture. Leading scholars in history, literature, and the history of science explore questions such as, What did science mean to the Victorians? For whom was Victorian science written? What ideological messages did it convey?
We increasingly view the world around us as a product of science and technology. Accordingly, we have begun to appreciate that science does not take its problems only from nature and then produces technological applications, but that the very problems of scientific research themselves are generated by science and technology. Simultaneously, problems like global warming, the toxicology of nanoparticles, or the use of renewable energies are constituted by many factors that interact with great complexity. Science in the context of application is challenged to gain new understanding and control of such complexity—it cannot seek shelter in the ivory tower or simply pursue its internal quest for understanding and gradual improvement of grand theories. Science in the Context of Application will identify, explore and assess these changes. Part I considers the "Changing Conditions of Scientific Research" and part II "Science, Values, and Society". Examples are drawn from pharmaceutical research, the information sciences, simulation modelling, nanotechnology, cancer research, the effects of commercialization, and many other fields. The book assembles papers from well-known European and American Science Studies scholars like Bernadette Bensaude-Vincent, Janet Kourany, Michael Mahoney, Margaret Morrison, Hans-Jörg Rheinberger, Arie Rip, Dan Sarewitz, Peter Weingart, and others. The individual chapters are written to address anyone who is concerned about the role of contemporary science in society, including scientists, philosophers, and policy makers.
How should we think about religion, science, and their relationship in modern society? Some religious groups oppose evolution; some atheists claim science is on their side. Others reconcile their beliefs with science, or consider science and faith to deal with fundamentally different aspects of human life. What indeed is religion: belief or trust in God’s existence? How do we distinguish sense from superstition? What does science have to say on such issues? Willem B. Drees considers contemporary discussions of these issues in Europe and North America, using examples from Christianity and religious naturalism, and reflections on Islam and Tibetan Buddhism. He argues that the scientific understanding leaves open certain ultimate questions, and thus allows for belief in a creator, but also for religious naturalism or serious agnosticism. By analysing the place of values in a world of facts, and the quest for meaningful stories in a material world, Religion and Science in Context offers an original and self-critical analysis of the field, its assumptions and functions, and ends with a vision of its possible future.
A proposal for an interdisciplinary, context-sensitive framework for assessing the strength of scientific arguments that melds Jürgen Habermas's discourse theory and sociological contextualism. Recent years have seen a series of intense, increasingly acrimonious debates over the status and legitimacy of the natural sciences. These “science wars” take place in the public arena—with current battles over evolution and global warming—and in academia, where assumptions about scientific objectivity have been called into question. Given these hostilities, what makes a scientific claim merit our consideration? In Cogent Science in Context, William Rehg examines what makes scientific arguments cogent—that is, strong and convincing—and how we should assess that cogency. Drawing on the tools of argumentation theory, Rehg proposes a multidimensional, context-sensitive framework both for understanding the cogency of scientific arguments and for conducting cooperative interdisciplinary assessments of the cogency of actual scientific arguments. Rehg closely examines Jürgen Habermas's argumentation theory and its implications for understanding cogency, applying it to a case from high-energy physics. A series of problems, however, beset Habermas's approach. In response, Rehg outlines his own “critical contextualist” approach, which uses argumentation-theory categories in a new and more context-sensitive way inspired by ethnography of science.
John Polkinghorne is a major figure in today’s debates over the compatibility of science and religion. Internationally known as both a theoretical physicist and a theologian—the only ordained member of the Royal Society—Polkinghorne brings unique qualifications to his inquiry into the possibilities of believing in God in an age of science. In this thought-provoking book, the author focuses on the collegiality between science and theology, contending that these "intellectual cousins" are both concerned with interpreted experience and with the quest for truth about reality. He argues eloquently that scientific and theological inquiries are parallel. The book begins with a discussion of what belief in God can mean in our times. Polkinghorne explores a new natural theology and emphasizes the importance of moral and aesthetic experience and the human intuition of value and hope. In other chapters, he compares science’s struggle to understand the nature of light with Christian theology’s struggle to understand the nature of Christ. He addresses the question, Does God act in the physical world? And he extends his ideas about the role of chaos theory, surveys the prospects for future dialogue between scientific and theological thinkers, and defends a critical realist understanding of the activities of both disciplines. Polkinghorne concludes with a consideration of the nature of mathematical truths and the links between the complementary realities of physical and mental experience.
Science communication, as a multidisciplinary field, has developed remarkably in recent years. It is now a distinct and exceedingly dynamic science that melds theoretical approaches with practical experience. Formerly well-established theoretical models now seem out of step with the social reality of the sciences, and the previously clear-cut delineations and interacting domains between cultural fields have blurred. Communicating Science in Social Contexts examines that shift, which itself depicts a profound recomposition of knowledge fields, activities and dissemination practices, and the value accorded to science and technology. Communicating Science in Social Contexts is the product of long-term effort that would not have been possible without the research and expertise of the Public Communication of Science and Technology (PCST) Network and the editors. For nearly 20 years, this informal, international network has been organizing events and forums for discussion of the public communication of science.
This book presents an international perspective of the influence of educational context on science education. The focus is on the interactions between curriculum development and implementation, particularly in non-Western and non-English-speaking contexts (i.e., outside the UK, USA, Australia, NZ, etc. ). An important and distinguishing feature of the book is that it draws upon the experiences and research from local experts from an extremely diverse cohort across the world (26 countries in total). The book addresses topics such as: curriculum development; research or evaluation of an implemented curriculum; discussion of pressures driving curriculum reform or implementation of new curricula (e. g., technology or environmental education); the influence of political, cultural, societal or religious mores on education; governmental or ministerial drives for curriculum reform; economic or other pressures driving curriculum reform; the influence of external assessment regimes on curriculum; and so on.
practice, some of which is translated into the standard forms of public discourse, in publication, and then retranslated by readers and adapted again to local practice at self-selected other sites. Less may be left implicit, and additional personal and contextual information is carried, by the "informal" methods of communication which mediate local projects and international publication. But both methods of communication are screens as well as conduits of information. History and Background of the Volume When the planning of this volume began in the spring of 1977, it seemed a natural part of the mandate for the Yearbook. There had also been a number of more specific calls for deeper studies of research in social and historical context (3). These calls can be seen as giving permission and legitimacy to ask questions otherwise seen as irrelevant, or even disrespectful, and as attempts to develop new perspectives from which to ask and to answer them. The implied and expressed irreverence toward traditions and institutions of great respect may have prolonged this process of initial apologetics. In any case, in May 1977 the theme of 'The Social Process of Scientific Investigation' was proposed to the Editorial Board for Volume IV as "the heart of the subject. " That is, the ethnographic and detailed historical study of actual scientific activity and thinking at or close to the work site.
John Polkinghorne examines the nature of scientific inquiry itself and the human context in which science operates.
The 'scientific revolution' of the sixteenth and seventeenth century continues to command attention in historical debate. Controversy still rages about the extent to which it was essentially a 'revolution of the mind', or how far it must also be explained by wider considerations. In this volume, leading scholars of early modern science argue the importance of specifically national contexts for understanding the transformation in natural philosophy between Copernicus and Newton. Distinct political, religious, cultural and linguistic formations shaped scientific interests and concerns differently in each European state and explain different levels of scientific intensity. Questions of institutional development and of the transmission of scientific ideas are also addressed. The emphasis upon national determinants makes this volume an interesting contribution to the study of the Scientific Revolution.