Principles of ThermodynamicsFor a second course in classical thermodynamics at the senior or first year graduate level. |
Contents
Fundamentals | 1 |
General Thermodynamic Relationships | 45 |
Relations for Entropy Internal Energy and Enthalpy | 58 |
Copyright | |
14 other sections not shown
Common terms and phrases
absolute zero applied C₂ Calculate Carnot Carnot cycles chemical coefficient composition constant temperature critical field critical point Curie's equation curve cycle defined denote density derivatives diagram differential elastic electric enthalpy entropy equilibrium EXAMPLE expression fluid follows fugacity function of temperature gases Gibbs function h₁ H₂ heat transfer ideal gas equation internal energy isothermal Joule-Thomson joules/g liquid helium magnetic field Maxwell relations mixture molal molal volume mole fraction mole percent mole)(K N₂ nitrogen normal obtain p₁ paramagnetic preceding equation psia pure component Raoult's law reaction relation reversible adiabatic process reversible process reversibly second law shown in Fig simple compressible system solid specific heat substance superconducting superfluid surface T₁ T₂ third law transition type I superconductor unit mass V₁ values vapor phase vapor pressure variables Waals equation X₁ әт др მა