Lecture 8
... the initial and final states and not on the reaction pathway) or kinetic ones (very dependent on the reaction pathway). Both factors depend on the conditions, and on the possibility of different routes to decomposition or reaction. ...
... the initial and final states and not on the reaction pathway) or kinetic ones (very dependent on the reaction pathway). Both factors depend on the conditions, and on the possibility of different routes to decomposition or reaction. ...
Physical Chemistry
... Ideal gas, Boyle, and Charles law Intensive and extensive properties Equation of state (brief review) Ideal gas properties Gas Mixtures: Dalton’s law and Partial Pressure Condensed phase Properties of liquid Thermal compressibility and volume expansivity Vapor pressure Thermodynamic terms Heat and w ...
... Ideal gas, Boyle, and Charles law Intensive and extensive properties Equation of state (brief review) Ideal gas properties Gas Mixtures: Dalton’s law and Partial Pressure Condensed phase Properties of liquid Thermal compressibility and volume expansivity Vapor pressure Thermodynamic terms Heat and w ...
Lecture 5 - Thermodynamics II
... (randomness) of a system. The higher the entropy of the system, the more disordered it is. • The second law states that the universe always becomes more disordered in any real process. • The entropy (order) of a system can decrease, but in order for this to happen, the entropy (disorder) of the surr ...
... (randomness) of a system. The higher the entropy of the system, the more disordered it is. • The second law states that the universe always becomes more disordered in any real process. • The entropy (order) of a system can decrease, but in order for this to happen, the entropy (disorder) of the surr ...
Thermodynamics: Spontaneity, Entropy and Free energy
... • 3rd Law: the entropy of a pure crystalline substance at absolute zero is zero (S =0) ...
... • 3rd Law: the entropy of a pure crystalline substance at absolute zero is zero (S =0) ...