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Norton's Slippery Slope

Published online by Cambridge University Press:  01 January 2022

Abstract

In this article, I identify several issues that arise in trying to decide whether Newtonian particle mechanics qualifies as a deterministic theory. I also give a minitutorial on the geometry and dynamical properties of Norton's dome surface. The goal is to better understand how his example works and also to better appreciate just how wonderfully strange it is.

Type
The Vagaries of Determinism and Indeterminism
Copyright
Copyright © The Philosophy of Science Association

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Footnotes

I am grateful to Erik Curiel, John Earman, Stefan Hartmann, Peter Koellner, Pen Maddy, John Manchak, John Norton, and Mark Wilson for helpful comments.

References

Arnold, Vladimir (1992), Ordinary Differential Equations. Berlin: Springer.Google Scholar
Diacu, Florin, and Holmes, Philip (1996), Celestial Encounters. Princeton, NJ: Princeton University Press.Google Scholar
Norton, John (2003), “Causation as Folk Science”, Causation as Folk Science 3 (4), http://www.philosophersimprint.org/003004/.Google Scholar
Norton, John (2008), “The Dome: An Unexpectedly Simple Failure of Determinism”, The Dome: An Unexpectedly Simple Failure of Determinism 75, in this issue.Google Scholar
Saari, Donald, and Xia, Jeff (1995), “Off to Infinity in Finite Time”, Off to Infinity in Finite Time 42:538546.Google Scholar