Thermodynamics

Thermodynamics is a branch of physics related to temperature, heat, and work as well as energy, entropy and the physical properties of radiation and matter. It primarily works with measurable microscopic properties such as temperature, pressure, and volume, but can be linked to microscopic ones using Statistical Physics.

Links:

1. Wikipedia — Thermodynamics.

Contents:

• Chemical Thermodynamics
  • Isobaric potential from heat capacity
    • standard_molar_gibbs_energy_change
    • standard_molar_enthalpy_change
    • standard_molar_entropy_change
    • temperature
    • standard_molar_heat_capacity_change
    • law
  • Isobaric potential of temperature dependent heat capacity
    • molar_gibbs_energy_change
    • molar_enthalpy_change
    • molar_entropy
    • temperature
    • first_capacity_coefficient
    • second_capacity_coefficient
    • third_capacity_coefficient
    • law
  • Reaction equilibrium constant via standard Gibbs energy
    • equilibrium_constant
    • reaction_standard_gibbs_energy
    • temperature
    • law
• Conservation Laws (Thermodynamics)
  • Total energy transfer is zero in adiabatically isolated system
    • energy
    • law
• Continuum Thermodynamics
  • Dielectric Thermodynamics
    • Equation of state
      • electric_displacement
      • electric_field_strength
      • temperature
      • density
      • state_function
      • condition
    • Enthalpy change via entropy change and electric field change
      • enthalpy_density_change
      • temperature
      • entropy_density_change
      • electric_displacement
      • electric_field_change
      • law
    • Enthalpy of dielectrics
      • enthalpy_density
      • internal_energy_density
      • electric_field_strength
      • electric_displacement
      • law
    • Free energy change via temperature change and electric displacement change
      • free_energy_density_change
      • entropy_density
      • temperature_change
      • electric_field_strength
      • electric_displacement_change
      • law
    • Gibbs energy change via temperature change and electric displacement change
      • gibbs_energy_density_change
      • entropy_density
      • temperature_change
      • electric_displacement
      • electric_field_change
      • law
    • Gibbs energy of dielectrics
      • gibbs_energy_density
      • free_energy_density
      • electric_field_strength
      • electric_displacement
      • law
    • Internal energy change via heat and electric displacement change
      • internal_energy_density_change
      • heat_density
      • electric_field_strength
      • electric_displacement_change
      • law
• Equations of State
  • Compressibility Factor
    • Compressibility factor is deviation from ideal gas
      • compressibility_factor
      • pressure
      • volume
      • amount_of_substance
      • temperature
      • law
    • Compressibility factor via intermolecular force potential
      • compressibility_factor
      • particle_count
      • volume
      • intermolecular_distance
      • intermolecular_force_potential
      • temperature
      • law
  • Dieterici Model
    • Dieterici equation
      • pressure
      • molar_volume
      • temperature
      • attractive_forces_parameter
      • excluded_volume_parameter
      • law
  • Ideal Gas Model
    • Gas pressure change from temperature
      • pressure_change
      • initial_pressure
      • thermal_coefficient
      • final_temperature
      • law
    • Ideal gas equation
      • pressure
      • volume
      • amount_of_substance
      • temperature
      • law
    • Pressure and temperature in isochoric process
      • initial_pressure
      • final_pressure
      • initial_temperature
      • final_temperature
      • law
    • Pressure and volume in adiabatic process
      • adiabatic_index
      • initial_temperature
      • final_temperature
      • initial_volume
      • final_volume
      • initial_pressure
      • final_pressure
      • adiabatic_condition
    • Pressure and volume in isothermal process
      • initial_pressure
      • final_pressure
      • initial_volume
      • final_volume
      • law
    • Volume and temperature in isobaric process
      • initial_temperature
      • final_temperature
      • initial_volume
      • final_volume
      • law
  • Van der Waals Model
    • Critical van der Waals molar volume
      • critical_molar_volume
      • excluded_volume_parameter
      • law
    • Critical van der Waals pressure
      • critical_pressure
      • attractive_forces_parameter
      • excluded_volume_parameter
      • law
    • Critical van der Waals temperature
      • critical_temperature
      • attractive_forces_parameter
      • excluded_volume_parameter
      • law
    • Dimensionless van der Waals equation
      • reduced_pressure
      • reduced_volume
      • reduced_temperature
      • law
    • Reduced van der Waals pressure
      • reduced_pressure
      • pressure
      • critical_pressure
      • law
    • Reduced van der Waals temperature
      • reduced_temperature
      • temperature
      • critical_temperature
      • law
    • Reduced van der Waals volume
      • reduced_volume
      • volume
      • critical_volume
      • law
    • Van der Waals equation
      • pressure
      • molar_volume
      • temperature
      • attractive_forces_parameter
      • excluded_volume_parameter
      • law
    • Van der Waals molar internal energy
      • molar_internal_energy
      • temperature
      • isochoric_molar_heat_capacity
      • attractive_forces_parameter
      • molar_volume
      • law
    • Van der Waals second virial coefficient
      • second_virial_coefficient
      • attractive_forces_parameter
      • excluded_volume_parameter
      • temperature
      • law
  • Virial Expansion
    • Virial equation
      • compressibility_factor
      • second_virial_coefficient
      • third_virial_coefficient
      • molar_density
      • law
• Heat Engines
  • Efficiency of heat engine
    • heat_from_heater
    • heat_to_refrigerator
    • efficiency
    • law
• Heat Transfer
  • Heat Conduction
    • Rate of energy conduction through slab
      • energy_conduction_rate
      • thermal_conductivity
      • face_area
      • slab_thickness
      • temperature_difference
      • law
    • Thermal resistance to conduction
      • thermal_insulance
      • slab_thickness
      • thermal_conductivity
      • law
  • Heat Diffusion
    • Equation in homogeneous medium in one dimension
      • position
      • time
      • temperature
      • thermal_diffusivity
      • law
    • General heat equation in 3D
      • medium_density
      • medium_specific_isobaric_heat_capacity
      • position_vector
      • time
      • temperature
      • thermal_conductivity
      • heat_source_density
      • law
    • General equation in one dimension
      • position
      • time
      • temperature
      • medium_density
      • medium_specific_isobaric_heat_capacity
      • thermal_conductivity
      • heat_source_density
      • law
    • Solution with zero temperature boundaries
      • temperature
      • scaling_coefficient
      • thermal_diffusivity
      • mode_number
      • maximum_position
      • position
      • time
      • law
• Phase Transitions
  • Critical Point
    • Critical point is stationary inflection point of isotherm
      • volume
      • pressure
      • inflection_point_condition
      • flat_tangent_condition
  • Humidity
    • Relative humidity is ratio of vapor pressure
      • relative_humidity
      • actual_vapor_pressure
      • saturation_vapor_pressure
      • law
  • Latent Heat
    • Heat of combustion via mass
      • heat
      • mass
      • specific_heat_of_combustion
      • law
    • Heat of vaporization via mass
      • heat
      • mass
      • specific_heat_of_vaporization
      • law
    • Latent heat of fusion via mass
      • latent_heat
      • mass
      • specific_heat_of_fusion
      • law
• Thermodynamic Response Functions
  • Thermodynamic Compressibility
    • Thermodynamic compressibility
      • compressibility
      • pressure
      • parameters
      • volume
      • law
  • Heat Capacity
    • Heat capacity ratio
      • heat_capacity_ratio
      • isobaric_heat_capacity
      • isochoric_heat_capacity
      • law
    • Heat is heat capacity times temperature change
      • heat
      • heat_capacity
      • temperature_change
      • law
    • Isobaric molar heat capacity of ideal gas via adiabatic index
      • isobaric_molar_heat_capacity
      • adiabatic_index
      • law
    • Isochoric and isobaric heat capacities of homogeneous substance
      • isobaric_heat_capacity
      • isochoric_heat_capacity
      • volume
      • temperature
      • thermal_expansion_coefficient
      • isothermal_compressibility
      • law
    • Isochoric and isobaric heat capacities of ideal gas
      • isobaric_heat_capacity
      • isochoric_heat_capacity
      • amount_of_substance
      • law
    • Isochoric molar heat capacity of ideal gas via adiabatic index
      • isochoric_molar_heat_capacity
      • adiabatic_index
      • law
    • Isochoric molar heat capacity of ideal gas via degrees of freedom
      • isochoric_molar_heat_capacity
      • degrees_of_freedom
      • law
  • Thermal Expansion
    • Fractional volume change via small temperature change
      • fractional_volume_change
      • volumetric_expansion_coefficient
      • temperature_change
      • law
    • Linear coefficient of thermal expansion
      • linear_expansion_coefficient
      • temperature
      • pressure
      • length
      • law
    • Volumetric and linear expansion coefficients in isotropic materials
      • volumetric_expansion_coefficient
      • linear_expansion_coefficient
      • law
    • Volumetric coefficient of thermal expansion
      • volumetric_expansion_coefficient
      • temperature
      • parameters
      • volume
      • law
    • Volumetric expansion coefficient of ideal gas
      • volumetric_expansion_coefficient
      • temperature
      • law
• Thermodynamic Potentials
  • Definitions (Thermodynamic Potentials)
    • Chemical potential is particle count derivative of enthalpy
      • chemical_potential
      • entropy
      • pressure
      • particle_count
      • enthalpy
      • law
    • Chemical potential is particle count derivative of free energy
      • chemical_potential
      • temperature
      • volume
      • particle_count
      • free_energy
      • law
    • Chemical potential is particle count derivative of Gibbs energy
      • chemical_potential
      • temperature
      • pressure
      • particle_count
      • gibbs_energy
      • law
    • Chemical potential is particle count derivative of internal energy
      • chemical_potential
      • entropy
      • volume
      • particle_count
      • internal_energy
      • law
    • Enthalpy is internal energy plus pressure energy
      • enthalpy
      • internal_energy
      • pressure
      • volume
      • law
    • Gibbs energy via enthalpy
      • gibbs_energy
      • enthalpy
      • entropy
      • temperature
      • law
    • Helmholtz free energy via internal energy
      • helmholtz_free_energy
      • internal_energy
      • temperature
      • entropy
      • law
  • Differentials (Thermodynamic Potentials)
    • Enthalpy differential
      • enthalpy_change
      • temperature
      • entropy_change
      • volume
      • pressure_change
      • chemical_potential
      • particle_count_change
      • law
    • Free energy differential
      • free_energy_change
      • entropy
      • temperature_change
      • pressure
      • volume_change
      • chemical_potential
      • particle_count_change
      • law
    • Gibbs energy differential
      • gibbs_energy_change
      • entropy
      • temperature_change
      • volume
      • pressure_change
      • chemical_potential
      • particle_count_change
      • law
    • Internal energy differential
      • internal_energy_change
      • temperature
      • entropy_change
      • pressure
      • volume_change
      • chemical_potential
      • particle_count_change
      • law
  • Euler Relations
    • Euler relation for enthalpy
      • enthalpy
      • temperature
      • entropy
      • chemical_potential
      • particle_count
      • law
    • Gibbs energy formula
      • gibbs_energy
      • chemical_potential
      • particle_count
      • law
    • Internal energy formula
      • internal_energy
      • temperature
      • entropy
      • pressure
      • volume
      • chemical_potential
      • particle_count
      • law
  • Ideal Gas (Thermodynamic Potentials)
    • Change in entropy of ideal gas from volume and temperature
      • entropy_change
      • mass
      • molar_mass
      • molar_isochoric_heat_capacity
      • final_temperature
      • initial_temperature
      • final_volume
      • initial_volume
      • law
    • Chemical potential of ideal gas
      • chemical_potential
      • temperature
      • concentration
      • thermal_wavelength
      • law
  • Identities (Thermodynamic Potentials)
    • Chemical potential is Gibbs energy per particle
      • chemical_potential
      • gibbs_energy
      • particle_count
      • law
    • Entropy is derivative of free energy
      • entropy
      • temperature
      • volume
      • particle_count
      • free_energy
      • law
    • Entropy is derivative of Gibbs energy
      • entropy
      • temperature
      • pressure
      • particle_count
      • gibbs_energy
      • law
    • Intensive parameters relation
      • entropy
      • temperature_change
      • volume
      • pressure_change
      • particle_count
      • chemical_potential_change
      • law
    • Temperature derivative via volume derivative
      • pressure
      • enthalpy
      • temperature
      • volume
      • isobaric_heat_capacity
      • law
    • Temperature is derivative of internal energy
      • temperature
      • entropy
      • volume
      • particle_count
      • internal_energy
      • law
  • Legendre Transformation (Thermodynamic Potentials)
    • Enthalpy via Gibbs energy
      • enthalpy
      • temperature
      • pressure
      • gibbs_energy
      • law
    • Internal energy via Helmholtz free energy
      • internal_energy
      • temperature
      • volume
      • free_energy
      • law
  • Maxwell Relations
    • Enthalpy derivative via volume derivative
      • temperature
      • pressure
      • enthalpy
      • volume
      • law
    • Entropy derivative via volume derivative
      • temperature
      • pressure
      • entropy
      • volume
      • law
  • Properties (Thermodynamic Potentials)
    • Entropy change in reversible process
      • entropy_change
      • heat_supplied_to_system
      • common_temperature
      • law
    • Entropy of independent subsystems is sum of their entropies
      • total_entropy
      • subsystem_entropy
      • law
    • Internal energy is first order homogeneous function
      • entropy
      • volume
      • particle_count
      • internal_energy
      • factor
      • homogeneity_condition
• Work and Heat
  • Infinitesimal work in quasistatic process
    • work_done_by_system
    • pressure
    • volume_change
    • law
  • Internal energy change via heat and work
    • internal_energy_change
    • heat_supplied_to_system
    • work_done_by_system
    • law
  • Work is integral of pressure over volume
    • work
    • volume
    • pressure
    • initial_volume
    • final_volume
    • law
  • Work of ideal gas in isobaric process
    • work
    • pressure
    • initial_volume
    • final_volume
    • law
  • Work of ideal gas in isothermal process
    • work
    • amount_of_substance
    • initial_volume
    • final_volume
    • temperature
    • law