96-163 Joel L. Lebowitz

Microscopic Reversibility and Macroscopic Behavior: Physical Explanations and Mathematical Derivations (57K, TeX) May 2, 96

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Abstract. The observed general time-asymmetric behavior of macroscopic systems---embodied in the second law of thermodynamics---arises naturally from time-symmetric microscopic laws due to the great disparity between macro and micro-scales. More specific features of macroscopic evolution depend on the nature of the microscopic dynamics. In particular, short range interactions with good mixing properties lead, for simple systems, to the quantitative description of such evolutions by means of autonomous hydrodynamic equations, e.g.\ the diffusion equation. These deterministic time-asymmetric equations accurately describe the observed behavior of {\it individual} macro systems. Derivations using ensembles (or probability distributions) must therefore, to be relevant, hold for almost all members of the ensemble, i.e.\ occur with probability close to one. Equating observed irreversible macroscopic behavior with the time evolution of ensembles describing systems having only a few degrees of freedom, where no such typicality holds, is misguided and misleading. \bigskip \bigskip

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