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This book contains selected papers from symposia and contributed sessions presented at the third biennial meeting of the Philosophy of Science Association, held in Lansing, Michigan, on October 27-29, 1972. We are grateful to Michigan State University, and especially to Professor Peter Asquith and his students and colleagues, for their friendly and efficient hospitality in organizing the circumstances of the sessions and of the 'intersessions', the unscheduled free time which is so important to any scholarly gathering. Several of the symposium papers have unhappily not been made available: those of Alasdair MacIntyre and Sidney Morgenbesser in the session on the social sciences, that of Ian Hacking in the session on randomness and that of Imre Lakatos in the session on discovery and rationality in science. Department of History and KENNETH F. SCHAFFNER Philosophy of Science, University of Pittsburgh Center for the Philosophy and ROBERT S. COHEN History of Science, Boston University TABLE OF CONTENTS PREFACE v PART I/SYMPOSIUM: SPACE, TIME AND MATTER: THE FOUNDATIONS OF GEOMETRODYNAMICS ADOLF GRUNBAUM / Space, Time, and Matter: The Foundations of Geometrodynamics. Introductory Remarks 3 CHARLES W. MISNER / Some Topics for Philosophical Inquiry Concerning the Theories of Mathematical Geometrodynamics and of Physical Geometrodynamics 7 JOHN STACHEL / The Rise and Fall of Geometrodynamics 31 PART II / PHILOSOPHICAL PROBLEMS OF BIOLOGY AND PSYCHOLOGY STUART KAUFFMAN / Elsasser, Generalized Complementarity, and Finite Classes: A Critique of His Anti-Reductionism 57 WILLIAM C.
Proceedings from the ninth International Conference on Artificial Life; papers by scientists of many disciplines focusing on the principles of organization and applications of complex, life-like systems. Artificial Life is an interdisciplinary effort to investigate the fundamental properties of living systems through the simulation and synthesis of life-like processes. The young field brings a powerful set of tools to the study of how high-level behavior can arise in systems governed by simple rules of interaction. Some of the fundamental questions include: What are the principles of evolution, learning, and growth that can be understood well enough to simulate as an information process? Can robots be built faster and more cheaply by mimicking biology than by the product design process used for automobiles and airplanes? How can we unify theories from dynamical systems, game theory, evolution, computing, geophysics, and cognition? The field has contributed fundamentally to our understanding of life itself through computer models, and has led to novel solutions to complex real-world problems across high technology and human society. This elite biennial meeting has grown from a small workshop in Santa Fe to a major international conference. This ninth volume of the proceedings of the international A-life conference reflects the growing quality and impact of this interdisciplinary scientific community.
Environmental Biotechnology is an emerging field of scientific and technological investigations that is truly global. People around the world are now joined together by a common technical bond. Furthermore, popular recognition is high for the environmental problems being faced and solved by biotechnology methods. With a feeling of winning, but recognizing there is much work to be done, workers with in-depth experience in solving one problem in environmental biotechnology meet to learn from the background of other workers how they, too, are addressing and solving environmental problems. This text includes papers from the third biennial meeting of the International Society for Environmental Biotechnology, the ISEB, held in Boston, Massachusetts, on the campus of Northeastern University. Technical oral presentations of state-of-the-art research were integrated with tutorials and workshops by practising technologists in the broad field of environmental biotechnology. This meeting was in every respect truly global. For example, presentations were heard from technical workers in Southeast Asia, Russia, China, Europe, North Africa, India, and the United States. By having these selected presenters, all participants benefited from this interactive symposium. Various persons of political stature were the keynote, banquet, and luncheon speakers; these social events further promoted informal exchange of ideas, discussions of technical problems, and exploration of new applications. This international symposium on environmental biotechnology was held on the campus of Northeastern University, but all Boston area universities were included and participated as conference Co-Chairs. This symposium was considered a success because workers with experience in one area of environmental biotechnology learned from the wealth of established backgrounds of those in other areas of environmental biotechnology. To formally disseminate conference results, all technical presentations were reviewed for formal publication.
" . . . a standard source for anyone wanting to immerse himself in the topic of scientific change, Kuhn, Feyerabend, Hanson and Polanyi, all are examined here in a manner which is at once sympathetic and exacting." --Roger C. Buck, Indiana University
Divided into three parts, this work is a record of the direction Kuhn was taking during the last two decades of his life. It consists of essays in which he refines the basic concepts set forth in "Structure"--Paradigm shifts, incommensurability, and the nature of scientific progress.
Twenty-three carefully selected, peer-reviewed contributions from the International Conference on Pure and Applied Chemistry (ICPAC 2014) are featured in this edited book of proceedings. ICPAC 2014, a biennial meeting, was held in Mauritius in June 2014. The theme of the conference was “Crystallizing Ideas: The Role of Chemistry” and it matched the declaration of the year 2014 as the International Year of Crystallography. ICPAC 2014 was attended by 150 participants from 30 countries. The chapters in this book reflect a wide range of fundamental and applied research in chemistry and interdisciplinary subjects. Crystallizing Ideas - The Role of Chemistry is written for graduates, postgraduates, researchers in industry and academia who have an interest in the fields ranging from fundamental to applied chemistry.
Summarizing this century's major debates over realism and the rationality of scientific knowledge, Joseph Rouse believes that these disputes oversimplify the political and cultural significance of the sciences. He provides an alternative understanding of science that focuses on practices rather than knowledge. Rouse first outlines the shared assumptions by ostensibly opposed interpretive stances toward science: scientific realism, social constructivism, empiricism, and postempiricist historical rationalism. He then advances cultural studies as an alternative approach, one that understands the sciences as ongoing patterns of situated activity whose material setting is part of practice. Cultural studies of science, the author suggests, take seriously their own participation in and engagement with the culture of science, rejecting the purported detachment of earlier philosophical or sociological standpoints. Rather, such studies offer specific, critical discussions of how and why science matters, and to whom, and how opportunites for meaningful understanding and action are transformed by scientific practices.
Stuart Kauffman here presents a brilliant new paradigm for evolutionary biology, one that extends the basic concepts of Darwinian evolution to accommodate recent findings and perspectives from the fields of biology, physics, chemistry and mathematics. The book drives to the heart of the exciting debate on the origins of life and maintenance of order in complex biological systems. It focuses on the concept of self-organization: the spontaneous emergence of order that is widely observed throughout nature Kauffman argues that self-organization plays an important role in the Darwinian process of natural selection. Yet until now no systematic effort has been made to incorporate the concept of self-organization into evolutionary theory. The construction requirements which permit complex systems to adapt are poorly understood, as is the extent to which selection itself can yield systems able to adapt more successfully. This book explores these themes. It shows how complex systems, contrary to expectations, can spontaneously exhibit stunning degrees of order, and how this order, in turn, is essential for understanding the emergence and development of life on Earth. Topics include the new biotechnology of applied molecular evolution, with its important implications for developing new drugs and vaccines; the balance between order and chaos observed in many naturally occurring systems; new insights concerning the predictive power of statistical mechanics in biology; and other major issues. Indeed, the approaches investigated here may prove to be the new center around which biological science itself will evolve. The work is written for all those interested in the cutting edge of research in the life sciences.