The course is intended particularly for students whose thesis will deal with thermodynamic behavior of fluids. It extends student?s knowledge of statistical physics to classical systems of interacting particles: - Intermolecular interactions; Models of simple and molecular fluids. - Real gas: Virial expansion and virial coefficients. - Theory of liquids: Basic concepts, distribution functions, BBGY hierarchy, integral equations, perturbation theories. Molecular-based equations of state. - Mixtures of non-electrolytes. - Electrolyte solutions: Primitive models, Debye-Hueckel theory. - Liquids at interface.
|
The course is intended particularly for students whose thesis will deal with thermodynamic behavior of fluids. It extends student?s knowledge of statistical physics to classical systems of interacting particles: - Intermolecular interactions; Models of simple and molecular fluids. - Real gas: Virial expansion and virial coefficients. - Theory of liquids: Basic concepts, distribution functions, BBGY hierarchy, integral equations, perturbation theories. Molecular-based equations of state. - Mixtures of non-electrolytes. - Electrolyte solutions: Primitive models, Debye-Hueckel theory. - Liquids at interface.
|