Linked bibliography for the SEP article "Scientific Revolutions" by Thomas Nickles
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- Agazzi, E., 2008, Le rivoluzioni scientifiche e il mondo
moderno, Milan: Fondazione Achille e Giulia Boroli. (Scholar)
- Andersen, H., 2001, On Kuhn, Belmont, CA: Wadsworth. (Scholar)
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- Arthur, W. B., 2009, The Nature of Technology: What It Is and How It Evolves, New York: Free Press. (Scholar)
- Bachelard, G., 1934, Le nouvel esprit scientifique, Paris: PUF; translated as The New Scientific Spirit, A. Goldhammer (trans.), Boston: Beacon Press, 1984. (Scholar)
- Baird, D., 2004, Thing Knowledge: A Philosophy of Scientific Instruments, Berkeley: University of California Press. (Scholar)
- Baltas, A., K. Gavroglu, and V. Kindi, 2000, “A Discussion
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- Barabási, A-L., 2002, Linked: The New Science of
Networks, Cambridge, MA: Perseus. (Scholar)
- Barnes, B., 1982, T. S. Kuhn and Social Science, New York: Columbia University Press. (Scholar)
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Social Order in Science,” in Nickles (2003a), pp.
122–141. (Scholar)
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MA: Harvard Business School. (Scholar)
- Bellone, E., 1980, A World on Paper: Studies on the Second Scientific Revolution, Cambridge, MA: MIT Press. (Scholar)
- Bird, A., 2001, Thomas Kuhn, Princeton: Princeton University Press. (Scholar)
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- Bitbol, M., 1997, “En quoi consiste la
‘Révolution Quantique’?,” Revue
Internationale de Systématique 11: 215–239. (Scholar)
- Bowler, P., and I. Morus, 2005, Making Modern Science: A
Historical Survey, Chicago: University of Chicago Press. (Scholar)
- Brannigan, A., 1981, The Social Basis of Scientific Discoveries, Cambridge: Cambridge University Press. (Scholar)
- Brush, S., 1983, Statistical Physics and the Atomic Theory of
Matter, Princeton: Princeton University Press. (Scholar)
- Buchanan, M., 2002, Nexus: Small Worlds and the Groundbreaking
Science of Networks. New York: Norton. (Scholar)
- Burtt, E. A., 1924, The Metaphysical Foundations of Modern Physical Science: A Historical and Critical Essay, London: Kegan Paul, Trench, Trübner. (Scholar)
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1300–1800, London: Bell. (Scholar)
- Carnap, R., 1950, “Empiricism, Semantics, and Ontology,” Revue Internationale de Philosophie, 4: 20–40; reprinted, in Meaning and Necessity: A Study in Semantics and Modal Logic (Supplement), Chicago: University of Chicago Press, 1956. (Scholar)
- Carroll, S. B., 2005, Endless Forms Most Beautiful: The New
Science of Evo Devo, New York: Norton. (Scholar)
- –––, 2005, Endless Forms Most Beautiful: The
New Science of Evo Devo, New York: Norton. (Scholar)
- Christensen, C., 1997, The Innovator’s Dilemma: When New
Technologies Cause Great Firms to Fail, Cambridge, MA: Harvard
Business School Press. (Scholar)
- –––, and M. Raynor, 2003, The
Innovator’s Solution, Cambridge, MA: Harvard Business
School Press. (Scholar)
- Cohen, H. F., 1994, The Scientific Revolution: A
Historiographical Inquiry, Chicago: University of Chicago
Press. (Scholar)
- Cohen, I. B., 1985, Revolution in Science, Cambridge:
Harvard University Press. (Scholar)
- Cohen, M. R., and E. Nagel, 1934, An Introduction to Logic and Scientific Method, New York: Harcourt, Brace & World. (Scholar)
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Metaphors, Models, and Reality, Cambridge, MA: Perseus
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- Crombie, A. C., 1959, Medieval and Early Modern Science,
Garden City, NY: Doubleday. (Scholar)
- –––, 1994, Styles of Scientific Thinking in
the European Tradition, 3 vols., London: Duckworth. (Scholar)
- De Langhe, R., 2012, “A Comparison of Two Models of
Scientific Progress,” Studies in History and Philosophy of
Science, 46: 94–99. (Scholar)
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- –––, 2014b, “To Specialize or to Innovate? An Internalist Account of Pluralistic Ignorance in Economics,” Synthese, 191: 2499–2511. (Scholar)
- –––, 2017, “Towards the Discovery of
Scientific Revolutions in Scientometric Data,”
Scientometrics, 110: 505–519. (Scholar)
- ––– (ed.), 2013, Topoi, 32 (1), special
issue on Kuhn after fifty years. (Scholar)
- Dear, P., 2001, Revolutionizing the Sciences: European Knowledge and Its Ambitions, 1500–1700, Princeton: Princeton University Press. (Scholar)
- Dijksterhuis, E. J., 1961, The Mechanization of the World Picture, Oxford: Oxford University Press. Original Dutch edition, 1950. (Scholar)
- DiSalle, R., 2002, “Reconsidering Kant, Friedman, Logical Positivism, and the Exact Sciences”, Philosophy of Science, 69: 191–211. (Scholar)
- Domski, M., and M. Dickson (eds.), 2010, Discourse on a New Method: Reinvigorating the Marriage of History and Philosophy of Science, Chicago: Open Court. (Scholar)
- Doppelt, G., 1978, “Kuhn’s Epistemological Relativism:
An Interpretation and Defense,” Inquiry 21:
33–86. (Scholar)
- Du Châtelet, É, 1740, Institutions de
Physique, translated as Foundations as Physics,
Paris. (Scholar)
- –––, and J. Zinnser (eds.), 2009, Selected
Philosophical and Scientific Writings, Chicago: University of
Chicago Press. (Scholar)
- Duhem, P., 1914, Théorie Physique: Son Objet, Sa
Structure, 2nd ed., Paris. Published in English translation as
The Aim and Structure of Physical Theory by Princeton
University Press, 1954. (Scholar)
- Feyerabend, P., 1962, “Explanation, Reduction, and Empiricism,” in Scientific Explanation, Space, and Time, H. Feigl and G. Maxwell (eds.), Minneapolis: University of Minnesota Press, pp. 28–97. (Scholar)
- –––, 1975, Against Method: Outline of an Anarchistic Theory of Knowledge, London: New Left Books. (Scholar)
- Fleck, L., 1935, Entstehung und Entwicklung einer
wissenschaftliche Tatsache: Einführung in die Lehre von Denkstil
und Denkkollecktiv, Basel: Benno Schwabe, translated as
Genesis and Development of a Scientific Fact, Chicago:
University of Chicago Press, 1979. (Scholar)
- Foucault, M., 1963, Naissance de la Clinique, Paris: Presses Universitaires de France, translated as The Birth of the Clinic, New York: Pantheon, 1973. (Scholar)
- –––, 1966, Les Mots et les Choses,
Paris: Gallimard, translated as The Order of Things, New
York: Vintage, 1973. (Scholar)
- –––, 1969, L’Archéologie du
Savoir, Paris: Gallimard, translated as The Archaeology of
Knowledge, New York: Harper and Row, 1972.
- –––, 1975, Surveiller et Punir, Paris:
Gallimard, translated as Discipline and Punish, New York:
Pantheon, 1977. (Scholar)
- Frank, P., 1957, Philosophy of Science: The Link between Science and Philosophy, Englewood Cliffs, NJ: Prentice-Hall. (Scholar)
- Friedman, M., 2001, Dynamics of Reason, Stanford: CSLI Publications. (Scholar)
- –––, 2003, “Kuhn and Logical
Empiricism,” in Nickles (2003a), pp. 19–44. (Scholar)
- –––, 2010, “Synthetic History Reconsidered,” in Domski and Dickson (2010), pp. 571–813. (Scholar)
- Fuller, S., 2000, Thomas Kuhn: A Philosophical History for Our Times. Chicago: University of Chicago Press. (Scholar)
- Galison, P., 1987, How Experiments End, Chicago:
University of Chicago Press. (Scholar)
- –––, 1997, Image and Logic: A Material Culture of Microphysics. Chicago: University of Chicago Press. (Scholar)
- Gattei, S., 2008, Thomas Kuhn’s “Linguistic
Turn” and the Legacy of Logical Empiricism: Incommensurability,
Rationality and the Search for Truth, Aldershot, UK:
Ashgate. (Scholar)
- Giere, R., 1988, Explaining Science: A Cognitive
Approach, Chicago: University of Chicago Press. (Scholar)
- Gillispie, C., 1960, The Edge of Objectivity, Princeton: Princeton University Press. (Scholar)
- Gladwell, M., 2000, The Tipping Point: How Little Things Can
Make a Big Difference, New York: Little Brown. (Scholar)
- Gleick, J., 1987, Chaos: Making a New Science, New York:
Viking Penguin. (Scholar)
- Godfrey-Smith, P. 2007, “Is It a Revolution?” (essay review of E. Jablonka and M. Lamb, Evolution in Four Dimensions), Biology and Philosophy 22 (3): 429–437. (Scholar)
- González, W. J. (ed.), 2004, Análisis de Thomas
Kuhn: Las Revoluciones Cientificas, Madrid, Trotta. (Scholar)
- Goodwin, B., 1994, How the Leopard Changed Its Spots: The
Evolution of Complexity, New York: Charles Scribner’s
Sons. (Scholar)
- Gould, S. J., 1997, “Evolution: The Pleasures of Pluralism,” New York Review of Books 44 (11, 26 June): 47–52. (Scholar)
- –––, and R. Lewontin, 1979, “The Spandrels
of San Marco and the Panglossian Paradigm,” Proceedings of
the Royal Society of London 205: 281–288. (Scholar)
- –––, and N. Eldredge, 1992, “Punctuated
Equilibria: An Alternative to Phyletic Gradualism,” in
Models in Paleobiology, T. Schopf (ed.), San Francisco:
Freeman-Cooper, pp. 82–115. (Scholar)
- Gutting, G., 2001, French Philosophy in the Twentieth Century, Cambridge: Cambridge University Press. (Scholar)
- –––, 2003, “Thomas Kuhn and French
Philosophy of Science,” in Nickles (2003a), pp.
45–64. (Scholar)
- Hacking, I., 1975, The Emergence of Probability, Cambridge: Cambridge University Press. (Scholar)
- –––, 1990, The Taming of Chance, Cambridge: Cambridge University Press. (Scholar)
- –––, 1995, Rewriting the Soul, Princeton: Princeton University Press. (Scholar)
- –––, 2002, Historical Ontology, Cambridge, MA: Harvard University Press. (Scholar)
- –––, 2012, “‘Language, Truth and
Reason’ 30 Years Later,” Studies in History and
Philosophy of Science A 43: 599–609. [This issue of the
journal is devoted to critical articles on Hacking’s styles of
reasoning project.] (Scholar)
- Hanson, N. R., 1958, Patterns of Discovery, Cambridge: Cambridge University Press. (Scholar)
- Harris, R. A. (ed.), 2005, Rhetoric and
Incommensurability, West Lafayette, IN: Parlor Press. (Scholar)
- Holmes, O. W., Jr., 1861, Letter to Felton, quoted by L. Menand,
The Metaphysical Club, New York: Farrar, Straus and Giroux,
2001, p. 33. (Scholar)
- Hooker, C., 2011, “Introduction to Philosophy of Complex
Systems: Parts A and B,” in Hooker (ed.), Philosophy of
Complex Systems (Volume 10, Handbook of the Philosophy of
Science), Amsterdam: North-Holland, pp. 3–90 and
841–909. (Scholar)
- Hoyningen-Huene, P., 1993, Reconstructing Scientific Revolutions: Thomas S. Kuhn’s Philosophy of Science, Chicago: University of Chicago Press. (Scholar)
- –––, and H. Sankey (eds.), 2001, Incommensurability and Related Matters, Dordrecht: Kluwer. (Scholar)
- Hull, D., 1988, Science as a Process: An Evolutionary Account of the Social and Conceptual Development of Science, Chicago: University of Chicago Press. (Scholar)
- Jablonka, E., and M. Lamb, 2005, Evolution in Four Dimensions: Genetic, Epigenetic, Behavioral, and Symbolic Variation in the History of Life, Cambridge, MA: MIT Press. (Scholar)
- Kant, I., 1781, Critique of Pure Reason, German original, Kritik der reinen Vernunft, Riga. (Scholar)
- –––, 1798, Anthropology from a Pragmatic
Point of View, trans. R. Louden, Cambridge: Cambridge University
Press, 2006. (Scholar)
- Kauffman, S., 1993, The Origins of Order: Self-Organization and Selection in Evolution, Oxford: Oxford University Press. (Scholar)
- Kellert, S., 1993, “A Philosophical Evaluation of the Chaos
Theory ‘Revolution,’” in PSA 1992, vol. 2,
D. Hull, M. Forbes, and K. Okruhlik (eds.), East Lansing, MI:
Philosophy of Science Association, pp. 33–49. (Scholar)
- –––, 2008, Borrowed Knowledge: Chaos Theory and the Challenge of Learning across Disciplines, Chicago: University of Chicago Press. (Scholar)
- Keynes, J. M., 1947, “Newton, the Man,”
Proceedings of the Royal Society Newton Tercentenary
Celebrations, 15–19 July 1946, Cambridge, Cambridge
University Press. (Scholar)
- Kindi, V., 2005, “The Relation of History of Science to
Philosophy of Science in The Structure of Scientific
Revolutions and Kuhn’s Later Philosophical Work,”
Perspectives on Science, 13: 495–530. (Scholar)
- –––, 2010, “Novelty and Revolution in Art
and Science: The Influence of Kuhn on Cavell,” Perspectives
on Science, 18: 284–310. (Scholar)
- –––, and T. Arabatzis (eds.), 2012,
Kuhn’s The Structure of Scientific Revolutions
Revisited, Chicago: University of Chicago Press. (Scholar)
- Klein, M. 1983, “Einstein’s First Paper on
Quanta,” The Natural Philosopher 2: 59–86. (Scholar)
- Koyré, A., 1939, Études Galiléenes, Paris: Hermann, translated as Galileo Studies, Atlantic Highlands, NJ: Humanities Press, 1978. (Scholar)
- Krajewski, W., 1977, Correspondence Principle and Growth of Science, Dordrecht: Reidel. (Scholar)
- Kuhn, T. S., 1957, The Copernican Revolution, Cambridge, MA: Harvard University Press. (Scholar)
- –––, 1959, “The Essential Tension:
Tradition and Innovation in Scientific Research,” reprinted in
Kuhn (1977a), pp. 225–239. (Scholar)
- –––, 1962, The Structure of Scientific Revolutions, Chicago: University of Chicago Press, 2nd ed., enlarged with “Postscript–1969,” 1970; fiftieth anniversary edition with introduction by Ian Hacking, 2012. (Page references are to the 2nd edition.) (Scholar)
- –––, 1970, “Logic of Discovery or Psychology of Research?”, in I. Lakatos and A. Musgrave (eds.), Criticism and the Growth of Knowledge, Cambridge: Cambridge University Press, pp. 1–22. Reprinted in Kuhn (1977a), pp. 266–292. (Scholar)
- –––, 1974, “Second Thoughts on
Paradigms,” in Suppe (1974). Reprinted in Kuhn (1977a), pp.
293–319. (Scholar)
- –––, 1977a, The Essential Tension,
Chicago: University of Chicago Press. (Scholar)
- –––, 1977b, “Objectivity, Value Judgment,
and Theory Choice,” in Kuhn (1977a), pp. 320–339. (Scholar)
- –––, 1978, Black-Body Theory and the Quantum
Discontinuity, 1894–1912, Oxford: Clarendon Press,
1978. (Scholar)
- –––, 1993, “Afterwords,” in P. Horwich (ed.), World Changes: Thomas Kuhn and the Nature of Science, Cambridge, MA: MIT Press, pp. 311–341. Reprinted in Kuhn (2000a), pp. 224–252. (Scholar)
- –––, 2000a, The Road Since Structure, J. Conant and J. Haugeland (eds.), Chicago: University of Chicago Press (a collection of Kuhn’s last philosophical essays). (Scholar)
- –––, 2000b, “What Are Scientific
Revolutions?,” in Kuhn (2000a), pp. 13–32, originally
published in 1987. (Scholar)
- –––, 2000c, “The Road since Structure,” in Kuhn (2000a), pp. 90–120). (Scholar)
- Kusch, M., 2010, “Hacking’s Historical Epistemology: A
Critique of Styles of Reasoning”, Studies in History and
Philosophy of Science, 41: 158–173. (Scholar)
- Kuukkanen, J-M., 2012, “Revolution as Evolution: The Concept
of Evolution in Kuhn’s Philosophy,” in Kindi and Arabatzis
(2012), pp. 134–152. (Scholar)
- Lakatos, I., 1970, “Falsification and the Methodology of Scientific Research Programmes,” in Lakatos and Musgrave (1970), pp. 91–195. (Scholar)
- –––, and Musgrave, A. (eds.), 1970, Criticism and the Growth of Knowledge. Cambridge: Cambridge University Press. (Scholar)
- Laudan, L., 1977, Progress and Its Problems, Berkeley: University of California Press. (Scholar)
- –––, 1980, “Why Was the Logic of Discovery
Abandoned?,” in T. Nickles (ed.), Scientific Discovery,
Logic, and Rationality, Dordrecht: Reidel, pp.
173–183. (Scholar)
- –––, 1984, Science and Values, Berkeley: University of California Press. (Scholar)
- Lewis, C. I., 1929, Mind and the World Order, New York: Scribners. (Scholar)
- Marcum, J., 2015, Thomas Kuhn’s Revolutions: A
Historical and Evolutionary Philosophy of Science?, London:
Bloomsbury Academic. (Scholar)
- Margolis, H., 1993, Paradigms and Barriers: How Habits of Mind Govern Scientific Beliefs, Chicago: University of Chicago Press. (Scholar)
- Meyerson, É., 1908, Identité et Realité, Paris: Alcan. Translated as Identity and Reality, London: Allen and Unwin, 1930. (Scholar)
- Nagel, E., 1961, The Structure of Science: Problems in the Logic of Explanation, New York: Harcourt, Brace & World. (Scholar)
- Nersessian, N., 2003, “Kuhn, Conceptual Change, and
Cognitive Science,” in Nickles (2003a), pp. 178–211. (Scholar)
- –––, 2008, Creating Scientific Concepts, Cambridge, MA: MIT Press. (Scholar)
- Newman, M., 2001, “The Structure of Scientific Collaboration
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- Nickles, T. (ed.), 2003a, Thomas Kuhn, Cambridge: Cambridge University Press. (Scholar)
- –––, 2003b, “Normal Science: From Logic to
Case-Based and Model-Based Reasoning,” in Nickles (2003a), pp.
142–177. (Scholar)
- –––, 2006, “Scientific Revolutions,”
in The Philosophy of Science: An Encyclopedia, vol. 2, S.
Sarkar and J. Pfeifer (eds.), New York: Routledge, pp.
754–765. (Scholar)
- –––, 2008, “Disruptive Scientific
Change,” in Soler et al. (2008), pp. 349–377. (Scholar)
- –––, 2009, “The Strange Story of
Scientific Method,” in J. Meheus and T. Nickles (eds.),
Models of Discovery and Creativity, Dordrecht: Springer, pp.
167–207. (Scholar)
- –––, 2012a, “Dynamic Robustness and Design
in Nature and Artifact,” in L. Soler, E. Trizio, T. Nickles, and
W. C. Wimsatt (eds.), Characterizing the Robustness of Science:
After the Practice Turn in Philosophy of Science, Dordrecht:
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- Nowak, L., 1980, The Structure of Idealization,
Dordrecht: Reidel. (Scholar)
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of Chicago Press. (Scholar)
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- Perrow, C., 1984, Normal Accidents: Living with High-Risk
Technologies, New York: Basic Books. (Scholar)
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- –––, 1995, The Mangle of Practice: Time, Agency and Science, Chicago: The University of Chicago Press. (Scholar)
- Polanyi, M., 1958, Personal Knowledge: Towards a Post-Critical Philosophy. Chicago: University of Chicago Press. (Scholar)
- Popper, K. R., 1957, “Philosophy of Science: A Personal Report,” in C. A. Mace (ed.), British Philosophy at Mid-Century, London: Allen & Unwin, pp. 155–191. Reprinted with the title “Science: Conjectures and Refutations” in Popper’s Conjectures and Refutations: The Growth of Scientific Knowledge, New York: Basic Books, 1963, pp. 33–65. (Scholar)
- –––, 1959, The Logic of Scientific Discovery, London: Hutchinson. Expanded translation of Logik der Forschung, 1934. (Scholar)
- –––, 1975, “The Rationality of Scientific
Revolutions” (Herbert Spencer Lecture), in R. Harré
(ed.), Problems of Scientific Revolution, Oxford: Oxford
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- Preston, J., 2008, Kuhn’s The Structure of Scientific
Revolutions: A Reader’s Guide, London: Continuum. (Scholar)
- Price, D., 1963, Big Science, Little Science, New York:
Columbia University Press. (Scholar)
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- –––, 1960, Word and Object, Cambridge, MA: MIT Press. (Scholar)
- Reichenbach, H., 1938, Experience and Prediction, Chicago: University of Chicago Press. (Scholar)
- –––, 1951, The Rise of Scientific Philosophy, Berkeley: University of California Press. (Scholar)
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- Rescher, N., 1978, Scientific Progress, Oxford:
Blackwell. (Scholar)
- –––, 2006, Epistemetrics, Cambridge: Cambridge University Press. (Scholar)
- Richards, R., and L. Daston (eds.), 2016, Kuhn’s
’Structure of Scientific Revolutions‘ at Fifty:
Reflections on a Science Classic, Chicago: University of Chicago
Press. (Scholar)
- Rouse, J., 2003, “Kuhn’s Philosophy of Scientific
Practice,” in Nickles (2003a), pp. 101–121. (Scholar)
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178.1: 1–169, special issue on stance and rationality. (Scholar)
- Ruelle, D., 1991, Chance and Chaos, Princeton: Princeton
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- Sankey, H., 1997, Rationality, Relativism and Incommensurability, Aldershot, UK: Ashgate. (Scholar)
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- Schumpeter, J., 1942, Capitalism, Socialism, and
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Style of Reasoning”, Erkenntnis, 82:
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- Shapin, S., 1996, The Scientific Revolution, Chicago:
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- Soler, L. (ed.), 2008, Studies in History and Philosophy of
Science A 39:221–264, special issue on contingency vs.
inevitability in science. (Scholar)
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- Thagard, P., 1992, Conceptual Revolutions, Princeton: Princeton University Press. (Scholar)
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- –––, 1961, Foresight and Understanding, Bloomington: Indiana University Press. (Scholar)
- –––, 1972, Human Understanding, vol. 1: The
Collective Use and Evolution of Concepts. Oxford: Clarendon
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- ––– and June Goodfield, 1961, The Fabric of
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- Weinberg, S., 2001, Facing Up: Science and its Cultural
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- Wittgenstein, L., 1922, Tractatus Logico-Philosophicus, London: Routledge & Kegan Paul. (Scholar)
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- Worrall, J., 2003, “Normal Science and Dogmatism, Paradigms
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- Wray, K. B., 2011, Kuhn’s Evolutionary Social
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- Zambelli, P., 2016, Alexandre Koyré in Incognito,
Firenze: Leo Olschki Editore. (Scholar)