ThermodynamicsΒΆ
Contents:
- Chemical Thermodynamics
- Conservation Laws (Thermodynamics)
- Continuum Thermodynamics
- Dielectric Thermodynamics
- Equation of state
- Enthalpy change via entropy change and electric field change
- Enthalpy of dielectrics
- Free energy change via temperature change and electric displacement change
- Gibbs energy change via temperature change and electric displacement change
- Gibbs energy of dielectrics
- Internal energy change via heat and electric displacement change
- Dielectric Thermodynamics
- Equations of State
- Compressibility Factor
- Dietirici Model
- Ideal Gas Model
- Van der Waals Model
- Critical van der Waals molar volume
- Critical van der Waals pressure
- Critical van der Waals temperature
- Dimensionless van der Waals equation
- Reduced van der Waals pressure
- Reduced van der Waals temperature
- Reduced van der Waals volume
- Van der Waals equation
- Van der Waals molar internal energy
- Van der Waals second virial coefficient
- Virial Expansion
- Heat Engines
- Heat Transfer
- Phase Transitions
- Thermodynamic Response Functions
- Thermodynamic Compressibility
- Heat Capacity
- Heat capacity ratio
- Heat is heat capacity times temperature change
- Isobaric molar heat capacity of ideal gas via adiabatic index
- Isochoric and isobaric heat capacities of homogeneous substance
- Isochoric and isobaric heat capacities of ideal gas
- Isochoric molar heat capacity of ideal gas via adiabatic index
- Isochoric molar heat capacity of ideal gas via degrees of freedom
- Thermal Expansion
- Thermodynamic Potentials
- Definitions (Thermodynamic Potentials)
- Chemical potential is particle count derivative of enthalpy
- Chemical potential is particle count derivative of free energy
- Chemical potential is particle count derivative of Gibbs energy
- Chemical potential is particle count derivative of internal energy
- Enthalpy is internal energy plus pressure energy
- Gibbs energy via enthalpy
- Helmholtz free energy via internal energy
- Differentials (Thermodynamic Potentials)
- Euler Relations
- Ideal Gas (Thermodynamic Potentials)
- Identities (Thermodynamic Potentials)
- Legendre Transform (Thermodynamic Potentials)
- Maxwell Relations
- Properties (Thermodynamic Potentials)
- Definitions (Thermodynamic Potentials)
- Work and Heat