Thermodynamics

Thermodynamics is a branch of physics that studies the relationships among heat, work, temperature, and energy.

Contents:

• Bose—Einstein statistics
  • Single particle state distribution
    • occupancy_of_state
    • energy_of_state
    • total_chemical_potential
    • temperature
    • law
• Dielectric Thermodynamics
  • 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
  • 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
  • Van der Waals equation of state
    • Critical parameters
    • Reduced units
      • Critical molar volume
      • Critical pressure
      • Critical temperature
      • Dimensionless equation
      • Van der Waals equation
      • Molar internal energy
      • Reduced pressure
      • Reduced temperature
      • Reduced volume
      • Second virial coefficient
  • Dieterici equation
    • pressure
    • molar_volume
    • temperature
    • attractive_forces_parameter
    • excluded_volume_parameter
    • law
  • Ideal gas equation
    • pressure
    • volume
    • amount_of_substance
    • temperature
    • law
  • Virial equation
    • compressibility_factor
    • second_virial_coefficient
    • third_virial_coefficient
    • molar_density
    • law
• Euler relations
  • Enthalpy formula
    • 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
• Fermi—Dirac statistics
  • Single-particle state distribution
    • occupancy_of_state
    • energy_of_state
    • total_chemical_potential
    • temperature
    • law
• Heat transfer
  • Equation in homogeneous medium in one dimension
    • temperature
    • position
    • time
    • thermal_diffusivity
    • law
  • General equation in one dimension
    • temperature
    • medium_density
    • medium_specific_isobaric_heat_capacity
    • thermal_conductivity
    • heat_source_density
    • position
    • time
    • law
  • Solution with zero temperature boundaries
    • temperature
    • scaling_coefficient
    • thermal_diffusivity
    • mode_number
    • maximum_position
    • position
    • time
    • law
• Maxwell—Boltzmann statistics
  • Energy distribution
    • energy
    • energy_distribution_function
    • equilibrium_temperature
    • law
  • Most probable speed in Maxwell—Boltzmann statistics
    • most_probable_speed
    • equilibrium_temperature
    • molecular_mass
    • law
  • Discrete distribution
    • occupancy_of_state
    • particle_count
    • energy_of_state
    • equilibrium_temperature
    • single_particle_partition_function
    • law
  • Speed distribution
    • speed_distribution_function
    • particle_speed
    • particle_mass
    • equilibrium_temperature
    • law
  • Statistical weight of macrostate
    • statistical_weight
    • particle_count_in_state
    • law
  • Velocity component distribution
    • velocity_component_distribution
    • velocity_component
    • particle_mass
    • equilibrium_temperature
    • law
• Relativistic Thermodynamics
  • Maxwell—Jüttner distribution
    • distribution_function
    • lorentz_factor
    • reduced_temperature
    • law
  • Reduced temperature in Maxwell—Jüttner statistics
    • reduced_temperature
    • temperature
    • particle_mass
    • law
• Average kinetic energy of ideal gas from temperature
  • average_kinetic_energy
  • equilibrium_temperature
  • law
• Average speed in Maxwell—Boltzmann statistics
  • average_speed
  • equilibrium_temperature
  • molecular_mass
  • law
• Average square speed in Maxwell—Boltzmann statistics
  • average_square_speed
  • equilibrium_temperature
  • molecular_mass
  • law
• Canonical partition function of a classical discrete system
  • partition_function
  • boltzmann_factor
  • law
• 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 is Gibbs energy per particle
  • chemical_potential
  • gibbs_energy
  • particle_count
  • law
• 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
• Chemical potential of ideal gas
  • chemical_potential
  • temperature
  • concentration
  • thermal_wavelength
  • law
• Classical isochoric molar heat capacity of solids
  • isochoric_molar_heat_capacity
  • law
• Compressibility factor via intermolecular force potential
  • compressibility_factor
  • particle_count
  • volume
  • intermolecular_distance
  • intermolecular_force_potential
  • temperature
  • law
• Diffusion coefficient of spherical Brownian particles from temperature and dynamic viscosity
  • diffusion_coefficient
  • temperature
  • particle_radius
  • dynamic_viscosity
  • law
• Diffusion flux from diffusion coefficient and concentration gradient
  • position
  • diffusion_flux
  • diffusion_coefficient
  • concentration
  • law
• Dynamic viscosity of gas from temperature
  • dynamic_viscosity
  • reference_dynamic_viscosity
  • temperature
  • reference_temperature
  • sutherland_constant
  • law
• Efficiency of heat engine
  • heat_from_heater
  • heat_to_refrigerator
  • efficiency
  • law
• Enthalpy derivative via volume derivative
  • temperature
  • pressure
  • enthalpy
  • volume
  • law
• Enthalpy differential
  • enthalpy_change
  • temperature
  • entropy_change
  • volume
  • pressure_change
  • chemical_potential
  • particle_count_change
  • law
• Enthalpy is internal energy plus pressure energy
  • enthalpy
  • internal_energy
  • pressure
  • volume
  • law
• Enthalpy via Gibbs energy
  • enthalpy
  • temperature
  • pressure
  • gibbs_energy
  • law
• Entropy change in reversible process
  • entropy_change
  • heat
  • common_temperature
  • law
• Entropy derivative via volume derivative
  • temperature
  • pressure
  • entropy
  • volume
  • law
• Entropy from statistical weight
  • entropy
  • statistical_weight
  • 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
• Entropy of independent subsystems is sum of their entropies
  • total_entropy
  • subsystem_entropy
  • law
• Fractional volume change via small temperature change
  • fractional_volume_change
  • volumetric_expansion_coefficient
  • temperature_change
  • law
• Free energy differential
  • free_energy_change
  • entropy
  • temperature_change
  • pressure
  • volume_change
  • chemical_potential
  • particle_count_change
  • law
• Gas mixture pressure from partial pressures
  • total_pressure
  • partial_pressure
  • law
• Gas pressure change from temperature
  • pressure_change
  • initial_pressure
  • thermal_coefficient
  • final_temperature
  • law
• Gibbs energy differential
  • gibbs_energy_change
  • entropy
  • temperature_change
  • volume
  • pressure_change
  • chemical_potential
  • particle_count_change
  • law
• Gibbs energy via enthalpy
  • gibbs_energy
  • enthalpy
  • entropy
  • temperature
  • law
• Grashof number
  • grashof_number
  • volumetric_expansion_coefficient
  • surface_temperature
  • bulk_temperature
  • characteristic_length
  • kinematic_viscosity
  • law
• Heat is heat capacity times temperature change
  • heat
  • heat_capacity
  • temperature_change
  • law
• Heat of combustion via mass
  • heat
  • mass
  • specific_heat_of_combustion
  • law
• Heat of vaporization via mass
  • heat
  • mass
  • specific_heat_of_vaporization
  • law
• Helmholtz free energy via internal energy
  • helmholtz_free_energy
  • internal_energy
  • temperature
  • entropy
  • law
• Infinitesimal work in quasistatic process
  • infinitesimal_work_done
  • pressure
  • infinitesimal_volume_change
  • law
• Intensive parameters relation
  • entropy
  • temperature_change
  • volume
  • pressure_change
  • particle_count
  • chemical_potential_change
  • law
• Internal energy change of ideal gas via temperature
  • internal_energy_change
  • isochoric_heat_capacity
  • temperature_change
  • law
• Internal energy change via heat and work
  • internal_energy_change
  • heat_supplied_to_system
  • work_done_by_system
  • law
• Internal energy differential
  • internal_energy_change
  • temperature
  • entropy_change
  • pressure
  • volume_change
  • chemical_potential
  • particle_count_change
  • law
• Internal energy of ideal gas via temperature
  • internal_energy
  • mass
  • temperature
  • molar_mass
  • law
• Internal energy via Helmholtz free energy
  • internal_energy
  • temperature
  • volume
  • free_energy
  • law
• Isentropic speed of sound
  • speed_of_sound
  • density
  • entropy
  • pressure
  • 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
• Laplace pressure of spherical shapes
  • laplace_pressure
  • surface_tension
  • radius_of_curvature
  • law
• Latent heat of fusion via mass
  • latent_heat
  • mass
  • specific_heat_of_fusion
  • law
• Mean free path of random motion
  • mean_free_path
  • molecular_diameter
  • number_density
  • law
• Prandtl number via dynamic viscosity and thermal conductivity
  • isobaric_specific_heat_capacity
  • dynamic_viscosity
  • thermal_conductivity
  • prandtl_number
  • law
• Pressure and temperature in isochoric process
  • initial_pressure
  • final_pressure
  • initial_temperature
  • final_temperature
  • law
• Adiabatic process equation via pressure and volume
  • 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
• Pressure from number density and kinetic energy
  • average_kinetic_energy
  • number_density
  • pressure
  • law
• Pressure of ideal gas from height and temperature
  • final_pressure
  • initial_pressure
  • molecular_mass
  • height_change
  • temperature
  • law
• Probability of finding ideal gas molecules in volume
  • probability
  • total_volume
  • partial_volume
  • particle_count
  • law
• Probability of ideal gas macrostate
  • macrostate_probability
  • statistical_weight
  • particle_in_cell_probability
  • particle_count_in_cell
  • law
• Quantum isochoric molar heat capacity of solids
  • isochoric_molar_heat_capacity
  • reduced_photon_energy
  • law
• Radiation power via temperature
  • radiation_power
  • emissivity
  • surface_area
  • temperature
  • law
• Rate of energy conduction through slab
  • energy_conduction_rate
  • thermal_conductivity
  • face_area
  • slab_thickness
  • temperature_difference
  • law
• Relative humidity is ratio of vapor pressure
  • relative_humidity
  • actual_vapor_pressure
  • saturation_vapor_pressure
  • law
• Speed of sound in ideal gas
  • speed_of_sound
  • temperature
  • heat_capacity_ratio
  • molar_mass
  • 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
• Total energy transfer is zero in adiabatically isolated system
  • amount_of_energy
  • law
• Total particle count is sum of occupancies
  • total_particle_count
  • occupancy
  • law
• Volume and temperature in isobaric process
  • initial_temperature
  • final_temperature
  • initial_volume
  • final_volume
  • law
• Volumetric and linear expansion coefficients in isotropic materials
  • volumetric_expansion_coefficient
  • linear_expansion_coefficient
  • law
• Volumetric expansion coefficient of ideal gas
  • volumetric_expansion_coefficient
  • temperature
  • 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