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Bibliographic Details
Main Authors: Naplekov, D. M., Yanovsky, V. V.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.05056
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author Naplekov, D. M.
Yanovsky, V. V.
author_facet Naplekov, D. M.
Yanovsky, V. V.
contents We have considered a model of a small finite system with internal particles and surface degrees of freedom. All the main statistical distributions were explicitly obtained, on a pre thermodynamic limit basis. The concept of temperature or any thermodynamic equations was not used. The distribution of coordinates of a surface element allows the rigorous determination of the pressure exerted by the internal particles. In this way, we have derived the equation of state for a small system with surface. It relates the pressure to the numbers of bulk and surface degrees of freedom, their mean energies and the volume. The mean potential energy of the surface was found to be higher than the mean kinetic energy, per degree of freedom. The obtained equation of state accounts for the influence of this excessive surface energy. In the thermodynamic limit, the temperature appears and the obtained equation of state transfers to the usual ideal gas one.
format Preprint
id arxiv_https___arxiv_org_abs_2412_05056
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Equation of state of a small system with surface degrees of freedom
Naplekov, D. M.
Yanovsky, V. V.
Statistical Mechanics
We have considered a model of a small finite system with internal particles and surface degrees of freedom. All the main statistical distributions were explicitly obtained, on a pre thermodynamic limit basis. The concept of temperature or any thermodynamic equations was not used. The distribution of coordinates of a surface element allows the rigorous determination of the pressure exerted by the internal particles. In this way, we have derived the equation of state for a small system with surface. It relates the pressure to the numbers of bulk and surface degrees of freedom, their mean energies and the volume. The mean potential energy of the surface was found to be higher than the mean kinetic energy, per degree of freedom. The obtained equation of state accounts for the influence of this excessive surface energy. In the thermodynamic limit, the temperature appears and the obtained equation of state transfers to the usual ideal gas one.
title Equation of state of a small system with surface degrees of freedom
topic Statistical Mechanics
url https://arxiv.org/abs/2412.05056