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  1. (4 other versions)The Logic of Scientific Discovery.K. Popper - 1959 - British Journal for the Philosophy of Science 10 (37):55-57.
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  • A Function for Thought Experiments.T. Kuhn - 1981 - In David Zaret (ed.), Review of Thomas S. Kuhn The Essential Tension: Selected Studies in Scientific Tradition and Change. Duke University Press. pp. 240-265.
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  • Second thoughts on paradigms.Thomas Samuel Kuhn - 1981 - In David Zaret (ed.), Review of Thomas S. Kuhn The Essential Tension: Selected Studies in Scientific Tradition and Change. Duke University Press. pp. 293--319.
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  • Rationality, Relativism and Incommensurability.Howard Sankey - 1997 - Ashgate.
    This book concentrates on three topics: the problem of the semantic incommensurability of theories; the non-algorithmic character of rational scientific theory choice and naturalised accounts of the rationality of methodological change. The underlying aim is to show how the phenomenon of extensive conceptual and methodological variation in science need not give rise to a thorough-going epistemic or conceptual relativism.
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  • The Incommensurability Thesis.Howard Sankey - 1994 - Abingdon: Taylor and Francis.
    This book presents a critical analysis of the semantic incommensurability thesis of Thomas Kuhn and Paul Feyerabend. In putting forward the thesis of incommensurability, Kuhn and Feyerabend drew attention to complex issues concerning the phenomenon of conceptual change in science. They raised serious problems about the semantic and logical relations between the content of theories which deploy unlike systems of concepts. Yet few of the more extreme claims associated with incommensurability stand scrutiny. The argument of this book is as follows. (...)
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  • Genesis and development of a scientific fact.Ludwik Fleck - 1979 - Chicago: University of Chicago Press. Edited by T. J. Trenn & R. K. Merton.
    The sociological dimension of science is studied using the discovery of the Wasserman reaction and its accidental application as a test for syphilis as a basis, ...
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  • Science Teaching: The Role of History and Philosophy of Science.Michael R. Matthews - 1994 - Routledge.
    History, Philosophy and Science Teaching argues that science teaching and science teacher education can be improved if teachers know something of the history and philosophy of science and if these topics are included in the science curriculum. The history and philosophy of science have important roles in many of the theoretical issues that science educators need to address: the goals of science education; what constitutes an appropriate science curriculum for all students; how science should be taught in traditional cultures; what (...)
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  • (6 other versions)The Structure of Scientific Revolutions.Thomas S. Kuhn - 1962 - Chicago, IL: University of Chicago Press. Edited by Ian Hacking.
    Thomas S. Kuhn's classic book is now available with a new index.
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  • Thomas Kuhn‘s Latest Notion of Incommensurability.Xiang Chen - 1997 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 28 (2):257-273.
    To correct the misconception that incommensurability implies incomparability, Kuhn lately develops a new interpretation of incommensurability. This includes a linguistic theory of scientific revolutions (the theory of kinds), a cognitive exploration of the language learning process (the analogy of bilingualism), and an epistemological discussion on the rationality of scientific development (the evolutionary epistemology). My focus in this paper is to review Kuhn's effort in eliminating relativism, highlighting both the insights and the difficulties of his new version of incommensurability . Finally (...)
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  • A Neurocomputational Perspective: The Nature of Mind and the Structure of Science.Paul M. Churchland - 1989 - MIT Press.
    A Neurocomputationial Perspective illustrates the fertility of the concepts and data drawn from the study of the brain and of artificial networks that model the...
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  • The Function of Measurement in Modern Physical Science.Thomas S. Kuhn - 1961 - Isis 52 (2):161-193.
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  • Kuhn's theory of scientific revolutions and cognitive psychology.Xiang Chen, Hanne Andersen & Peter Barker - 1998 - Philosophical Psychology 11 (1):5 – 28.
    In a previous article we have shown that Kuhn's theory of concepts is independently supported by recent research in cognitive psychology. In this paper we propose a cognitive re-reading of Kuhn's cyclical model of scientific revolutions: all of the important features of the model may now be seen as consequences of a more fundamental account of the nature of concepts and their dynamics. We begin by examining incommensurability, the central theme of Kuhn's theory of scientific revolutions, according to two different (...)
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  • Taxonomic changes and the particle-wave debate in early nineteenth-century Britain.Xiang Chen - 1995 - Studies in History and Philosophy of Science Part A 26 (2):251-271.
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  • Categorization, anomalies and the discovery of nuclear fission.Hanne Andersen - 1996 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 27 (4):463-492.
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  • Learning by ostension: Thomas Kuhn on science education.Hanne Andersen - 2000 - Science & Education 9 (1-2):91-106.
    Significant claims about science education form an integral part of Thomas Kuhn's philosophy. Since the late 1950s, when Kuhn started wrestling with the ideas of ‘normal research’ and ‘convergent thought’, the nature of science education has played an important role in his argument. Hence, the nature of science education is an essential aspect of the phase-model of scientific development developed in his famous The Structure of Scientific Revolutions, just as his later work on categories and conceptual structures takes its starting (...)
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  • (4 other versions)The road since structure.Thomas S. Kuhn - 1991 - In A. Fine, M. Forbes & L. Wessels (eds.), Psa 1990. Philosophy of Science Association. pp. 3-13.
    A highly condensed account of the author's present view of some philosophical problems unresolved in The Structure of Scientific Revolutions. The concept of incommensurability, now considerably developed, remains at center stage, but the evolutionary metaphor, introduced in the final pages of the book, now also plays a principal role.
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  • (4 other versions)The Road since Structure.Thomas S. Kuhn - 1990 - PSA: Proceedings of the Biennial Meeting of the Philosophy of Science Association 1990:3-13.
    A highly condensed account of the author's present view of some philosophical problems unresolved in The Structure of Scientific Revolutions. The concept of incommensurability, now considerably developed, remains at center stage, but the evolutionary metaphor, introduced in the final pages of the book, now also plays a principal role.
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  • Reflections on my critics.Ts Khn - 1970 - In Imre Lakatos & Alan Musgrave (eds.), Criticism and the growth of knowledge. Cambridge [Eng.]: Cambridge University Press.
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  • Why Do Scientists Have Disagreements about Experiment?: Incommensurability in the Use of Goal-Derived Categories.Xiang Chen - 1994 - Perspectives on Science 2 (3):275-301.
    In this article I explain why scientists cannot always resolve their disagreements about experiments even if they do not hold conflicting theoretical assumptions, and how incommensurability in experiments can occur even if experiments are not deeply encumbered by theoretical assumptions. On the basis of recent discoveries in cognitive psychology and an extended analysis of a historical case, I explore a cognitive mechanism that may generate incommensurability in experiment appraisal. I find that, because of the involvement of goal-derived categories, incommensurability in (...)
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