| 1. Thermodynamic Variables | | | |
| (1) | | Internal Energy, Internal Energy Variation |
| (2) | | Work, Work Variation |
| (3) | | Entropy, Entropy Variation |
| (4) | | Volume, Volume Variation |
| (5) | | Heat |
| (6) | | Temperature, Temperature Variation |
| (7) | | Pressure, Pressure Variation |
| 2. Thermodynamic Laws | | | |
| (1) | | First Law of Thermodynamics |
| (2) | | Second Law of Thermodynamics |
| (3) | | Third Law of Thermodynamics |
| 3. Ideal Gas State Equation | | | |
| (1) | | Boltzmann Constant |
| (2) | | Avogadro Number |
| (3) | | Universal Gas Constant |
| (4) | | Mass of the Gas |
| (5) | | Mol Mass of the Gas |
| (6) | | Number of moles |
| (7) | | Specific Gas Constant |
| (8) | | Ideal Gas State Equation |
| 4. Special Cases | | | |
| (1) | | Isotherm case: Boyle-Mariotte Law |
| (2) | | Isobar case: Gay Lussac (I) Law |
| (3) | | Isochore case: Gay Lussac (II) Law |
| 5. Specific Heat | | | |
| (1) | | Specific Heat at constant Volume |
| (2) | | Specific Heat at constant Pressure |
| (3) | | Specific Heat Relation (I) |
| (4) | | Specific Heat Relation (II) |
| 6. Adiabatic State Equation | | | |
| (1) | | Poisson Adiabatic State Equation (I) |
| (2) | | Poisson Adiabatic State Equation (II) |
| (3) | | Poisson Adiabatic State Equation (II) |
| 7. Thermal Engine | | | |
| (1) | | Work done isothermal condition |
| (2) | | Work done adiabatic condition |
| (3) | | Efficiency of the thermal Engine |
| 8. Heat Diffusion | | | |
| (1) | | Heat Conductivity |
| (2) | | Cross section |
| (3) | | Heat Conductivity Equation |
| (4) | | Heat Transfer |
| (5) | | Border Temperature Difference |
| (6) | | Heat Transfer Equation |
| (7) | | Head Diffusion Equation |
| 9. Radiation | | | |
| (1) | | Transmission |
| (2) | | Reflection |
| (3) | | Absorption |
| (4) | | Radiation Conservation |
| (5) | | Stefan-Boltzmann Constant |
| (6) | | Emission Coefficient |
| (7) | | Stefan-Boltzmann Law |
| (8) | | Wien's displacement Law |
| 10. Internal Energy | | | |
| (1) | | Internal Energy, S and V independent |
| (2) | | Internal Energy, Variation |
| (3) | | Internal Energy, Coefficient (I) |
| (4) | | Internal Energy, Coefficient (II) |
| (5) | | Internal Energy, Maxwell Relation |
| 11. Enthalpy | | | |
| (1) | | Enthalpy, S and P independent |
| (2) | | Enthalpy, Variation |
| (3) | | Enthalpy, Coefficient (I) |
| (4) | | Enthalpy, Coefficient (II) |
| (5) | | Enthalpy, Maxwell Relation |
| 12. Helmholtz Free Energy | | | |
| (1) | | Helmholtz Free Energy, V and T independent |
| (2) | | Helmholtz Free Energy, Variation |
| (3) | | Helmholtz Free Energy, Coefficient (I) |
| (4) | | Helmholtz Free Energy, Coefficient (II) |
| (5) | | Helmholtz Free Energy, Maxwell Relation |
| 13. Gibbs Free Energy | | | |
| (1) | | Gibbs Free Energy, P and T independent |
| (2) | | Gibbs Free Energy, Variation |
| (3) | | Gibbs Free Energy, Coefficient (I) |
| (4) | | Gibbs Free Energy, Coefficient (II) |
| (5) | | Gibbs Free Energy, Maxwell Relation |
| 14. Thermal Relations | | | |
| (1) | | Thermal Expansion |
| (2) | | Compressibility |
| (3) | | Heat Capacity at constant Volume |
| (4) | | Heat Capacity at constant Pressure |
| (5) | | Heat Capacity Relation |
| (6) | | Heat Capacity dependence on Volume |
Thermodynamics
