Akademik Dersler - İçerik

analyse equilibrium conditions between solid-liquid, liquid gasand solid gas phases in one-component systems.
calculate equilibrium conditions between solid phase-liquid phase by employing Clapeyron equation.
calculate equilibrium conditions between condensed phase-gas phase by employing Clausius-Clapeyron equation.
explain the basic definitions and terms of solution thermodynamics.
define the chemical potential.
define activity.
Distinguishes partial and integral properties.
define the basic solution types.
apply Raoult's and Henry's laws, and regular solution rules to open systems.
apply basic integral and differential rules to solution thermodynamics problems.
apply partial differential rules to solution thermodynamics problems.
express formation of a solution from its pure components.
calculate changes in volume, enthalpy,entropy and Gibbs free energy formation of Raoltian solutions.
apply Henry's law to dilute solutions.
Analyses regular solution behavior by introducing excess properties.
analyse the relationship between Gibbs free energy, thermodynamic activity and phase diagrams.
derive equations expressing equilibirium conditions in solutions.
derive criteria for phase stability in reglar solutions.
Draws equations expressing change in Gibbs free energy of mixing of liquid and solid solutions as a function of composition, and plot diagram showing these variations for a given standard state .
Draws equations expressing change inactivity of components as a function of composition, and plot diagram showing these variations for a given standard state.
Draws a schema which shows the variation of both Gibbs free energy of mixing and activity as a function of composition for a given temperature and binary phase diagram, .
Derives simple binary phase diagrams using given thermodynamic data in systems showing Raoultian behaviour,