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Causal Explanations in Classical and Statistical Thermodynamics

Published online by Cambridge University Press:  01 April 2022

Jeffrey S. Wicken
Jeffrey S. Wicken*
Affiliation:
Behrend College of Pennsylvania State University
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Abstract

This paper considers the problem of causal explanation in classical and statistical thermodynamics. It is argued that the irreversibility of macroscopic processes is explained in both formulations of thermodynamics in a teleological way that appeals to entropic or probabilistic consequences rather than to efficient-causal, antecedental conditions. This explanatory structure of thermodynamics is not taken to imply a teleological orientation to macroscopic processes themselves, but to reflect simply the epistemological limitations of this science, wherein consequences of heat-work asymmetries are either macroscopically measurable (entropy) or calculable (probabilities), while efficient-causal relationships are obscure or indeterminable.

Type
Research Article
Information
Philosophy of Science , Volume 48 , Issue 1 , March 1981 , pp. 65 - 77
Copyright
Copyright © 1981 by the Philosophy of Science Association

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References

Aristotle (1935), Metaphysics, Book I. Translated by Tredennick, H. Cambridge: Harvard University Press.Google Scholar
Aristotle (1938), On the Soul, Book III. Translated by Hett, W. Cambridge: Harvard University Press.Google Scholar
Bergson, H. (1944), Creative Evolution. Translated by Mitchell, A. New York: The Modern Library.Google Scholar
Burtt, E. A. (1932), The Metaphysical Foundations of Modern Science. Garden City: Doubleday & Co.Google Scholar
Capek, M. (1961), The Philosophical Impact of Contemporary Physics. New York: Van Rostrand-Reinhold Co.Google Scholar
Davies, P. C. W. (1975), “Cosmological Aspects of Irreversibility”, in Entropy and Information in Science and Philosophy. Edited by Kubat, L. and Zeman, J. New York: American Elsevier.Google Scholar
Denbigh, K. (1964), The Principles of Chemical Equilibrium, 4th edition. Cambridge: The University Press.Google Scholar
Descartes, R. (1968), “Principles of Philosophy” in The Philosophic Works of Descartes. Translated by Haldane, E. and Ross, G. Cambridge: The University Press.Google Scholar
Kearney, H. (1971), Science and Change: 1500–1700. New York & Toronto: World University Library.Google Scholar
Margenau, H. (1950), The Nature of Physical Reality. New York: McGraw-Hill.Google Scholar
Nagel, E. (1970), “Teleological Explanations and Teleological Systems” in Readings in the Philosophy of Science. Edited by Brody, B. Englewood Cliffs: Prentice-Hall.Google Scholar
Ross, W. D. (ed.) (1955), Aristotle Selections. New York: Charles Scribners Sons.Google Scholar
Russell, B. (1959), Wisdom of the West. New York: Crescent Books.Google Scholar
Wicken, J. (1979), “The Generation of Complexity in Evolution: A Thermodynamic and Information-Theoretical Discussion”, Journal of Theoretical Biology 77: 349365.CrossRefGoogle ScholarPubMed