English

The Gibbs Paradox

History and Philosophy of Physics 2018-08-07 v1 Atomic and Molecular Clusters Classical Physics

Abstract

The Gibbs Paradox is essentially a set of open questions as to how sameness of gases or fluids (or masses, more generally) are to be treated in thermodynamics and statistical mechanics. They have a variety of answers, some restricted to quantum theory (there is no classical solution), some to classical theory (the quantum case is different). The solution offered here applies to both in equal measure, and is based on the concept of particle indistinguishability (in the classical case, Gibbs' notion of 'generic phase'). Correctly understood, it is the elimination of sequence position as a labelling device, where sequences enter at the level of the tensor (or Cartesian) product of one-particle state spaces. In both cases it amounts to passing to the quotient space under permutations. 'Distinguishability', in the sense in which it is usually used in classical statistical mechanics, is a mathematically convenient, but physically muddled, fiction.

Keywords

Cite

@article{arxiv.1808.01953,
  title  = {The Gibbs Paradox},
  author = {Simon Saunders},
  journal= {arXiv preprint arXiv:1808.01953},
  year   = {2018}
}

Comments

Published in a special issue of Entropy on the Gibbs paradox, guest edited by the author and Dennis Deaks

R2 v1 2026-06-23T03:25:37.565Z