Abstract
The pessimistic meta-induction attempts to make a case for the lack of ontological continuity with theory change; in contrast, its rival the optimistic meta-induction makes a case for considerable ontological continuity. The optimistic meta-induction is argued for in the case of the origin, and continuity, of our talk of electrons (even though the term “electron” was not initially used). The case is made by setting the history of identifying reference to electrons in the context of a generalised version of Russell’s theory of descriptions, Ramsey’s theory of theoretical terms and a development of these ideas by David Lewis.
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Achinstein, P. (1991) Particles and Waves: Historical Essays in the Philosophy of Science. Oxford: Oxford University Press.
Arabatzis, T. (2001) The Zeeman Effect and the Discovery of Electrons. In Buchwald and Warwick (eds.), pp. 171–194.
Arabatzis, T. (2006) Representing Electrons. Chicago, IL: The University of Chicago Press.
Bain, J. and Norton, J. (2001) What Should Philosophers of Science Learn from the History of the Electron? In Buchwald and Warwick (eds.), pp. 451–465.
Bishop, M. and Stich, S. (1998) The Fight to Reference, or How Not to Make Progress in the Philosophy of Science. Philosophy of Science, 65, 33–49.
Buchwald, J. and Warwick, A. (eds.) (2001) Histories of the Electron. Cambridge, MA: MIT.
Cartwright, N. (1983) How the Laws of Physics Lie. Oxford: Clarendon.
Chakravartty, A. (1998) Semirealism, Studies in the History and Philosophy of Science, 29, 391–408.
Dahl, Per F. (1997) Flash of the Cathode Rays: A History of J. J. Thompson‘s Electron. Bristol/Philadelphia, PA: Institute of Physics Publishing.
Demopoulos, W. (2003) On the Rational Reconstruction of our Knowledge. British Journal for the Philosophy of Science, 54, 371–403.
Demopoulos, W. and Friedman, M. (1985) Critical Notice: Bertrand Russell‘s “The Analysis of Matter”: Its Historical Context and Contemporary Interest. Philosophy of Science, 52, 621–639.
Devitt, M. (1997) Realism and Truth, 2nd ed. Princeton, NJ: Princeton University Press.
Devitt, M. (2005) Scientific Realism. In F. Jackson and M. Smith (eds.) The Oxford Handbook of Contemporary Philosophy,chapter 26, Oxford: Oxford University Press.
Falconer, I. (1987) Corpuscles, Electrons and Cathode Rays: J. J. Thomson and the Discovery of the Electron. British Journal for the History of Science, 20, 241–276.
Falconer, I. (2001) Corpuscles to Electrons. In Buchwald and Warwick (eds.), pp. 77–100.
Field, H. (1973) Theory Change and Indeterminacy of Reference. Journal of Philosophy, 70, 462–481.
Fitzgerald, G. (May 1897) Dissociation of Atoms. The Electrician, 39, 103–104.
Garber, E., Brush, S., and Everitt, C. (eds.) (1986) Maxwell on Molecules and Gases. Cambridge, MA: MIT.
Gooday, G. (2001) The Questionable Matter of Electricity: The Reception of J. J. Thomson‘s “Corpuscle” Among Theorists and Technologists. In Buchwald and Warwick (eds.), pp. 101–134.
Hacking, I. (1983) Representing and Intervening. Cambridge: Cambridge University Press.
Harman, P. (1982) Energy, Force and Matter: The Conceptual Development of Nineteenth Century Physics, Cambridge: Cambridge University Press.
Kragh, H. (2001) The Electron, The Protyle, and the Unity of Matter. In Buchwald and Warwick (eds.), pp. 195–226.
Kripke, S. (1980) Naming and Necessity. Oxford: Blackwell.
Larmor, J. (1900) Aether and Matter: A Development of the Dynamical relations of the Aether to Material Systems. Cambridge: Cambridge University Press.
Laudan, L. (1981) A Confutation of Convergent Realism. Philosophy of Science, 48, 19–49.
Lewis, D. (1983) How to Define Theoretical Terms. In Philosophical Papers Volume I. Oxford: Oxford University Press.
Lewis, D. (1999) Papers in Metaphysics and Epistemology. Cambridge: Cambridge University Press.
Lewis, P. (2001) Why the Pessimistic Induction is a Fallacy. Syntheses, 129, 371–380.
Magie, W. (1935) A Source Book in Physics. New York: McGraw-Hill.
Maxwell, G. (1970) Structural Realism and the Meaning of Theoretical Terms. In M. Radner and S. Winokur (eds.) Analyses of Theories and Methods of Physics and Psychology: Minnesota Studies in the Philosophy of Science Volume IV. Minneapolis, MN: University of Minnesota Press, pp. 181–192.
Millikan, R. A. (1965) The Electron and the Light-Quant from the Experimental Point of View. Nobel Lectures: Physics: 1922–41. Amsterdam: Elsevier, pp. 54–66.
Newman, M. (1928) Mr. Russell‘s “Causal Theory of Perception”. Mind, 37, 137–148.
Papineau, D. (1996) Theory-Dependent Terms. Philosophy of Science, 63, 1–20.
Plücker, J. (1858) On the Action of the Magnet upon the Electric Discharge in Gases. Philosophical Magazine, 16, 119–135 and 408–418; translation by F. Guthrie of a paper of 1858 in German.
Putnam, H. (1978) Meaning and the Moral Sciences. London: Routledge.
Russell, B. (1927) The Analysis of Matter. London: George Allen and Unwin.
Russell, B. (1956) Logic and Knowledge. In R. C. Marsh (ed.) London: George Allen and Unwin.
Russell, B. (1959) The Problems of Philosophy. Oxford: Oxford University Press.
Shiers, G. (1974) Ferdinand Braun and the Cathode Ray Tube. Scientific American, 230(3), 92–101.
Silliman, R. (1963) William Thomson: Smoke Rings and Nineteenth Century Atomism, Isis, 54, 461–474.
Smith, G. (2001) J. J. Thomson and the Electron, 1897–1899. In Buchwald and Warwick (eds.), pp. 21–76.
Stark, J. (1964) Structural and Spectral Changes of Chemical Atoms. Nobel Lectures: Physics: 1901–21, Amsterdam: Elsevier, pp. 427–435.
Thomson, J. J. (1883) A Treatise on the Motion of Vortex Rings. London: Macmillan.
Thomson, J. J. (May 1897) Cathode Rays, Discourse Delivered at the Royal Institution, April 30. The Electrician, 39, 104–109.
Thomson, J. J. (October 1897) Cathode Rays. Philosophical Magazine, 44, 293–316.
Thomson, J. J. (1911) Electricity and Matter. London: Constable and Company.
Thomson, J. J. (1967) Carriers of Negative Electricity. Nobel Lectures: Physics: 1922–41, Amsterdam: Elsevier, pp. 145–153.
Thomson, J. and Thomson, G. (1933) Conduction of Electricity Through Gases, Vol. II. Cambridge: Cambridge University Press, 3rd edition (of 1903 first edition in one volume).
Weinberg, S. (1990) The Discovery of Subatomic Particles. New York: Freeman.
Whittaker, E. (1951) A History of Theories of Aether and Electricity Volume 1. London: Thomas Nelson.
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Nola, R. (2008). The Optimistic Meta-Induction and Ontological Continuity: the Case of the Electron. In: Soler, L., Sankey, H., Hoyningen-Huene, P. (eds) Rethinking Scientific Change and Theory Comparison. Boston Studies in the Philosophy of Science, vol 255. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-6279-7_12
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