1. Basic terms, thermodynamic system, thermodynamic process, state properties.
2. State behavior of gases, ideal gas equation. Real gas.
3. The first law of thermodynamics, internal energy, heat, work and their
calculation.
4. Enthalpy, heat of reaction, standard enthalpy of formation, Hess and
Kirchhoff´s law.
5. II. law of thermodynamics, entropy. Entropy processes.
6. Helmholtz and Gibbs energy, their significance. law of thermodynamics.
7. Chemical potential, activity, equilibrium, Gibbs phase law.
8. Phase equilibria in one-component systems, Clapeyron equation.
9. Equilibrium in multicomponent systems, phase diagrams.
10.The solubility of gases in liquids, equilibrium in condensed systems.
11.Chemical equilibria, influencing the chemical reaction equilibrium
composition.
12.The reaction in the liquid phase, the ionic equilibrium, the solubility of
salts in water.
13.Introduction to Electrochemistry, Faraday's law, a galvanic cell.
14.Basic concepts of chemical kinetics, reaction rate, rate equation.
2. State behavior of gases, ideal gas equation. Real gas.
3. The first law of thermodynamics, internal energy, heat, work and their
calculation.
4. Enthalpy, heat of reaction, standard enthalpy of formation, Hess and
Kirchhoff´s law.
5. II. law of thermodynamics, entropy. Entropy processes.
6. Helmholtz and Gibbs energy, their significance. law of thermodynamics.
7. Chemical potential, activity, equilibrium, Gibbs phase law.
8. Phase equilibria in one-component systems, Clapeyron equation.
9. Equilibrium in multicomponent systems, phase diagrams.
10.The solubility of gases in liquids, equilibrium in condensed systems.
11.Chemical equilibria, influencing the chemical reaction equilibrium
composition.
12.The reaction in the liquid phase, the ionic equilibrium, the solubility of
salts in water.
13.Introduction to Electrochemistry, Faraday's law, a galvanic cell.
14.Basic concepts of chemical kinetics, reaction rate, rate equation.