On a Self-Consistency Thermodynamical Criterion for Equations of the State of Gases in Relativistic Frames

Gonzalo Ares de Parga; Adriana Ávalos Vargas; Benjamín López-Carrera

doi:10.3390/e15041271

On a Self-Consistency Thermodynamical Criterion for Equations of the State of Gases in Relativistic Frames

Gonzalo Ares de Parga, Adriana Ávalos Vargas, Benjamín López-Carrera

Escuela Superior de Cómputo (ESCOM)

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

More than three decades ago, Tykodi and Hummel proposed a procedure to investigate the self-consistency thermodynamical criterion for equations of the state of gases. The main criterion used by these authors consists of requiring that an equation of state must not be inconsistent with certain thermodynamical identities from the first and second laws of thermodynamics. This paper explores the possibility of another self-consistency method based on relativistic transformations of the thermodynamical variables. It is shown that the virial coefficients have to be corrected by a relativistic factor if the equation of state is considered in a moving relativistic reference frame. Some relativistic and non-relativistic equations of state are analyzed.

Original language	English
Pages (from-to)	1271-1288
Number of pages	18
Journal	Entropy
Volume	15
Issue number	4
DOIs	https://doi.org/10.3390/e15041271
State	Published - Apr 2013

Keywords

Equation of state
Relativistic transformation of temperature
Virial coefficients

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abstract = "More than three decades ago, Tykodi and Hummel proposed a procedure to investigate the self-consistency thermodynamical criterion for equations of the state of gases. The main criterion used by these authors consists of requiring that an equation of state must not be inconsistent with certain thermodynamical identities from the first and second laws of thermodynamics. This paper explores the possibility of another self-consistency method based on relativistic transformations of the thermodynamical variables. It is shown that the virial coefficients have to be corrected by a relativistic factor if the equation of state is considered in a moving relativistic reference frame. Some relativistic and non-relativistic equations of state are analyzed.",

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AU - Vargas, Adriana Ávalos

AU - López-Carrera, Benjamín

PY - 2013/4

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N2 - More than three decades ago, Tykodi and Hummel proposed a procedure to investigate the self-consistency thermodynamical criterion for equations of the state of gases. The main criterion used by these authors consists of requiring that an equation of state must not be inconsistent with certain thermodynamical identities from the first and second laws of thermodynamics. This paper explores the possibility of another self-consistency method based on relativistic transformations of the thermodynamical variables. It is shown that the virial coefficients have to be corrected by a relativistic factor if the equation of state is considered in a moving relativistic reference frame. Some relativistic and non-relativistic equations of state are analyzed.

AB - More than three decades ago, Tykodi and Hummel proposed a procedure to investigate the self-consistency thermodynamical criterion for equations of the state of gases. The main criterion used by these authors consists of requiring that an equation of state must not be inconsistent with certain thermodynamical identities from the first and second laws of thermodynamics. This paper explores the possibility of another self-consistency method based on relativistic transformations of the thermodynamical variables. It is shown that the virial coefficients have to be corrected by a relativistic factor if the equation of state is considered in a moving relativistic reference frame. Some relativistic and non-relativistic equations of state are analyzed.

KW - Equation of state

KW - Relativistic transformation of temperature

KW - Virial coefficients

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JO - Entropy

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ER -

On a Self-Consistency Thermodynamical Criterion for Equations of the State of Gases in Relativistic Frames

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Keywords

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