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24 - Thermodynamics and Gravity

Published online by Cambridge University Press:  19 January 2010

William C. Saslaw
Affiliation:
University of Cambridge
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Summary

I will not refrain from setting among these

precepts a new device for consideration which,

although it may appear trivial and almost

ludicrous, is nevertheless of great utility

in arousing the mind to various inventions.

Leonardo da Vinci

In the past, there has been a widely held mythology that thermodynamics and gravity are incompatible. The main arguments for that view were threefold. First, thermodynamics applies to equilibrium systems. But self-gravitating systems continually evolve toward more singular states, so they are never in equilibrium. Second, to obtain a thermodynamic or statistical mechanical description it must be possible to calculate the partition function for the relevant ensemble, as in (23.60). But self-gravitating systems contain states where two objects can move arbitrarily close and contribute infinite negative gravitational energy, making the partition function diverge. Third, the fundamental parameters of thermodynamics must be extensive quantities. But self-gravitating systems cannot localize their potential energy in an isolated cell; it belongs to the whole system.

All three of these arguments have a common basis in the long-range nature of the gravitational force and the fact that it does not saturate. By contrast, in the electrostatic case of a plasma, although the Coulomb forces are also long range, the positive and negative charges effectively cancel on scales larger than a Debye sphere where the plasma is essentially neutral, and its net interaction energy is zero. So one can describe plasmas thermodynamically (e.g., Landau & Lifshitz, 1969).

Type
Chapter
Information
The Distribution of the Galaxies
Gravitational Clustering in Cosmology
, pp. 301 - 305
Publisher: Cambridge University Press
Print publication year: 1999

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