1 Chapter Basic Laws of Thermodynamics

1. 1 thermodynamic equilibrium state of thermodynamic system

1.2 thermodynamic zero law temperature

1.3 equation of state

1.4 quasi-static process work

1.5 internal energy of the first law of thermodynamics

1.6 second law of thermodynamics

1.7 entropy and entropy increasing principle

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The second chapter is the thermodynamic characteristic function method and its application.

2. 1 characteristic function

2.2 Maxwell relation of characteristic function

2.3 Basic thermodynamic equations and thermodynamic formulas of open systems

2.4 Application of Characteristic Function Method

2.5 the principle of maximum contribution

2.6 the third law of thermodynamics

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Chapter III Phase Equilibrium and Chemical Equilibrium

3. 1 thermal balance criterion

3.2 Equilibrium Clapeyron Equation of Unit Two-phase System

3.3 the critical point of gas-liquid two-phase transition and the corresponding law of state

3.4 Erzenfest equation of second-order phase transition

3.5 Landau second-order phase transition theory

3.6 liquid Heⅱ and two-fluid model

3.7 Influence of Surface Effect on Phase Equilibrium of Droplets

3.8 Superconducting State-Normal State Phase Transition and Its Thermodynamic Theory

3.9 Critical Phenomenon and Critical Index

3. Equilibrium Conditions of Gibbs Phase Law of10 Multiphase System

Law of mass action under the condition of chemical reaction equilibrium

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Chapter IV Thermodynamics of Irreversible Processes

4. 1 Describe the method and local equilibrium conditions

4.2 Reaction-diffusion equation

4.3 Local entropy increase rate of entropy balance equation

4.4 Law of Linear Phenomenology Ansag Reciprocity Relation

4.5 Minimum Entropy Generation Theorem

4.6 Application

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Chapter 5 Fundamentals of Statistical Physics

5. 1 statistical regularity

5.2 Probability distribution

5.3 Statistical average

5.4 binomial distribution and its approximate expression

5.5 Equal probability principle

5.6 Description of motion state of nearly independent particles and microscopic state of the system

5.7 Macro-state Distribution and Micro-state Number of Nearly Independent Particle System

5.8 Most Possible Distribution of Almost Independent Particle Systems

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Chapter VI Ensemble Theory

6. Description of micro-state in R space of1system

6.2 statistical ensemble liouville theorem

6.3 Microcanonical Ensemble

6.4 canonical ensemble

6.5 Isothermal-Isobaric Ensemble

6.6 Thermodynamic Formula of Open System of Giant Canonical Ensemble

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Chapter 7 Ensemble Theory and Classical Thermodynamic System

Chapter VIII Quantum Statistics

Chapter 9 Fluctuation Theory and Fluctuation Dissipation Theorem

10 chapter non-equilibrium statistical theory

Reference books and documents

appendix

The answer to the exercise