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In this book, David Stump traces alternative conceptions of the a priori in the philosophy of science and defends a unique position in the current debates over conceptual change and the constitutive elements in science. Stump emphasizes the unique epistemological status of the constitutive elements of scientific theories, constitutive elements being the necessary preconditions that must be assumed in order to conduct a particular scientific inquiry. These constitutive elements, such as logic, mathematics, and even some fundamental laws of nature, were once taken to be a priori knowledge but can change, thus leading to a dynamic or relative a priori. Stump critically examines developments in thinking about constitutive elements in science as a priori knowledge, from Kant’s fixed and absolute a priori to Quine’s holistic empiricism. By examining the relationship between conceptual change and the epistemological status of constitutive elements in science, Stump puts forward an argument that scientific revolutions can be explained and relativism can be avoided without resorting to universals or absolutes.
This volume collects some of the most significant papers of Arthur Pap. Pap’s work played an important role in the development of the analytic tradition. This goes beyond the merely historical fact of Pap’s influential views of dispositional and modal concepts. Pap's writings in philosophy of science, modality, and philosophy of mathematics provide insightful alternative perspectives on philosophical problems of current interest.
Novel conceptual analysis, fresh historical perspectives, and concrete physical examples illuminate one of the most thought-provoking topics in physics.
Robert J. Howell offers a new account of the relationship between conscious experience and the physical world, based on a neo-Cartesian notion of the physical and careful consideration of three anti-materialist arguments. His theory of subjective physicalism reconciles the data of consciousness with the advantages of a monistic, physical ontology.
The most influential rationalist model of scientific knowledge is arguably the one formulated recently by Michael Friedman. The central epistemic claim of the model concerns the character of its fundamental principles which are said to be independent from experience. Friedman’s position faces the modern empiricist challenge: he has to explain how the principles could still be a priori if they change under empirical pressure. This book provides a contemporary account of the epistemic character of the principles, addressing recent work on the a priori in modern analytic epistemology. Its main thesis is that at least some principles within natural science are not empirically but a priori revisable. A Priori Revisability in Science formulates a general notion of epistemic revisability and extracts two kinds of specific revisabilities: the traditional empirical one and the suggested novel a priori revisability. It presents the argument that the latter is as vital as the former and even so within natural science. To demonstrate this, the author analyzes two case studies – one from the history of geometry and one from the history of physics – and shows that the revisions were a priori. The result of this is two-fold. First, a genuine alternative of empirical revisability is developed, and not just for traditional a priori domains like mathematics, but for the natural sciences as well. Second, a new mechanism for the dynamics of science is suggested, the a priori dynamics, at the core of which the scientific knowledge sometimes evolves through non-empirical moves.
Written in the tradition of G. Ludwig’s groundbreaking works, this book aims to clarify and formulate more precisely the fundamental ideas of physical theories. By introducing a basic descriptive language of simple form, in which it is possible to formulate recorded facts, ambiguities of physical theories are avoided as much as possible. In this approach the field of physics that should be described by a theory is determined by basic concepts only, i.e. concepts that can be explained without a theory. In this context the authors introduce a new concept of idealization and review the process of discovering new concepts. They believe that, when the theories are formulated within an axiomatic basis, solutions can be found to many difficult problems such as the interpretation of physical theories, the relations between theories as well as the introduction of physical concepts. The book addresses both physicists and philosophers of science and should encourage the reader to contribute to the understanding of the lasting core of physical knowledge about the real structures of the world.
A comprehensive defence of the rationalist view that insight independent of experience is a genuine basis for knowledge.
This book provides a detailed and comprehensive account of the problem of a priori knowledge from a historical as well as a systematic perspective. The author explores Kant’s views in connection with the possibility of revision, something hardly, if at all, done in philosophical literature. Furthermore, the views of well-renowned philosophers such as Quine, Putnam, Kitcher, and Hale are discussed in detail and are put into a historical and systematic perspective. Finally, this book contains a glossary of important notions offering illuminating accounts of a priori knowledge and related notions and explains the relationship between a priori knowledge, fallibility and revision. The detailing of concepts such as ‘defeasibility’, ‘infallibility’, ‘falsifiability’ helps anyone reading philosophical literature to pin down the meaning of the terms and its implications in this context. The enriched and dual approach the author takes makes the book a very useful and lucid guide to the problem of a priori knowledge.