Hostname: page-component-78c5997874-m6dg7 Total loading time: 0 Render date: 2024-11-18T14:27:21.220Z Has data issue: false hasContentIssue false
  • English
  • Français

The Anticipation of Necessity: Kant on Kepler's Laws and Universal Gravitation

Published online by Cambridge University Press:  01 April 2022

Scott Tanona
Scott Tanona*
Affiliation:
Indiana University
Get access Rights & Permissions [Opens in a new window]

Abstract

Kant's views on the epistemological status of physical science provide an important example of how a philosophical system can be applied to understand the foundation of scientific theories. Michael Friedman has made considerable progress towards elucidating Kant's philosophy of science; in particular, he has argued that Kant viewed Newton's law of universal gravitation as necessary for the possibility of experiencing what Kant called true motion, which is more than the mere relative motion of appearances but is different from Newton's concept of absolute motion. In this context, Friedman has provided an account of how Kant must have viewed Newton's supposed derivation of universal gravitation from Kepler's laws, based on, among other things, Kant's claim that Newton really needed to make extra assumptions in order to derive universal gravitation. In this paper, I argue that Friedman's account is incomplete for three reasons. First, Friedman has overlooked an important aspect of how Newton's third law is applied in the relevant sections of the Principia; as a result, Friedman's account partially misconstrues the relation between the planetary phenomena and the theory of universal gravitation. Second, his account fails to account for Kant's apparent belief that Kepler's laws are only empirically-based rules, even though they seem to be necessary for the derivation of universal gravitation and hence also necessary for Kant's own definition of true motion. Third, Friedman has overlooked some remarks by Kant that indicate that Kant thought the crucial properties of universal gravitation could be known without reference to the empirically determined motions of the planets and hence seemingly without any help from Newton.

Type
Research Article
Information
Philosophy of Science , Volume 67 , Issue 3 , September 2000 , pp. 421 - 443
Copyright
Copyright © 2000 by the Philosophy of Science Association

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

Send requests for reprints to the author, Department of History and Philosophy of Science, Goodbody Hall 130, Indiana University, Bloomington, IN 47405.

My thanks to Michael Friedman for our extensive discussions about Kant and Newton. My thanks also to Michael Friedman, Michael Dickson, Narisara Murray, and Zack Jenkins for commenting on earlier drafts of this paper.

References

Kant, Immanuel ([1902] 1968) Kants Werke: Akedemie Textausgabe. Band IV. Reprint of Vol. IV of Kants gesammelte Schriften (Berlin: Königlichen Preuβischen Akedemie der Wissenschaften). Berlin: Walter de Gruyter, Inc.Google Scholar
Kant, Immanuel ([1783] 1997), Prolegomena to Any Future Metaphysics. Reprint. Translated by Gary Hatfield. Originally published as Prolegomena zu einer jeden künftigen Metaphysik, die als Wissenschaft wird auftreten können (Riga: J. F. Hartknoch). Cambridge: Cambridge University Press.Google Scholar
Kant, Immanuel ([1786] forthcoming), Metaphysical Foundations of Natural Science. Reprint. Translated by Michael Friedman in Henry Allison (ed.), Cambridge Edition of the Works of Immanuel Kant. Originally Published as Metaphisische Anfangsgrüde der Naturwissenschaft (Riga: J. F. Hartknoch). Cambridge: Cambridge University Press.Google Scholar
Friedman, Michael (1992a), “Causal Laws and the Foundations of Natural Science”, in Guyer, Paul, (ed.), The Cambridge Companion to Kant. Cambridge: Cambridge University Press, 161199.10.1017/CCOL0521365872.006CrossRefGoogle Scholar
Friedman, Michael (1992b), Kant and the Exact Sciences. Cambridge, Mass: Harvard University Press.Google Scholar
Newton, Isaac (1975), The Correspondence of Isaac Newton, vol. V: 17091713. Edited by Hall, A. Rupert and Tilling, Laura. Cambridge: Cambridge University Press, for the Royal Society.10.1017/9781108642453CrossRefGoogle Scholar
Newton, Isaac ([1726] 1934), Mathematical Principles of Natural Philosophy. Translated by Andrew Motte (1729), Revised Florian Cajori. Originally Published as Philosophiae Naturalis Principia Mathematica, third edition (London: Royal Society). Berkeley: University of California Press.Google Scholar
Stein, Howard (1967), “Newtonian Space-Time”, Texas Quarterly 10: 174200.Google Scholar
Wilson, Curtis (1989), Astronomy from Kepler to Newton: historical studies. London: Variorum Reprints.Google Scholar