Thermodynamics: An Introduction to the Physical Theories of Equilibrium Thermostatics and Irreversible Thermodynamics |
Contents
2 | 25 |
Processes and Thermodynamic Engines | 59 |
Alternative Formulations and Legendre Transformations | 85 |
Copyright | |
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adiabatic analogous assume atomic Carnot cycle chemical potential components composite system compression condition consequently consider convenient coordinates curve defined dependence diagram diathermal differential electric enthalpy entropy equal equilibrium extensive parameters fluctuations flux fundamental equation fundamental relation gases Gibbs function Gibbs-Duhem relation given H₂ heat reservoir Helmholtz potential ideal gas independent intensive isothermal Legendre transform liquid macroscopic matrix maximum Maxwell relations microstates molar volume molecules monatomic N₁ N₂ obtained P₁ partial derivatives particular phase transition physical piston postulate principle problem Problems-Section properties quadratic form quantity quasi-static reaction region representation reversible heat source reversible work source shown in Figure simple system single-component system solid specific heat statistical mechanics subsystem T₁ temperature and pressure theorem theory thermal thermo thermodynamic system values vanishes variables wall whence X₁ zero temperature ат ӘР др ду дх