A Componential Reduction to the Euler-Lagrange Equation Using Energy Structure Theory

Saeed Shahsavari, Pooya Torkaman
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Abstract

The Euler-Lagrange equation can be used for a variety of the thermal processes from microscopic and macroscopic points of view [1-3]. In this case, the main challenge is calculating the potential energy using the Lagrangian density. Since the energy structure equation has the effects of the second law of thermodynamics as its base, in this paper, this equation is used as potential energy for the Euler-Lagrange equation. Since the energy structure equation has been presented based on the energy components as well as independent and dependent energy components concepts, therefore, a componential reduction to the Euler-Lagrange equation will be extracted. The resultant equation will be satisfied for all independent components activated in the performed process. Also, the resultant equation can be used to investigate different paths whenever the same amount of energy is applied to the system in different conditions. Also, a quasi-static path is used as a reference path.
用能量结构理论对欧拉-拉格朗日方程进行成分化简
欧拉-拉格朗日方程可用于微观和宏观角度的各种热过程[1-3]。在这种情况下,主要的挑战是利用拉格朗日密度计算势能。由于能量结构方程以热力学第二定律的效应为基础,本文将该方程作为欧拉-拉格朗日方程的势能。由于能量结构方程是基于能量分量以及独立和依赖能量分量的概念提出的,因此,将提取欧拉-拉格朗日方程的分量化简。在所执行的过程中激活的所有独立分量都满足所得到的方程。此外,所得方程可用于研究在不同条件下,当相同的能量施加到系统时的不同路径。此外,准静态路径用作参考路径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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