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11: Solutions I- Liquid-Liquid Solutions

Last updated

Sep 1, 2020
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- 10.4: The Clausius-Clapeyron Equation
- 11.1: Partial Molar Quantities in Solutions

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11.1: Partial Molar Quantities in Solutions
11.2: The Gibbs-Duhem Equation
The Gibbs-Duhem equation relates how the chemical potential can change for a given composition while the system maintains equilibrium. So for a binary system, consisting of components A and B (the two most often studied compounds in all of chemistry)
11.3: Chemical Potential of Each Component Has the Same Value in Each Phase in Which the Component Appears
11.4: Ideal Solutions obey Raoult's Law
Liquids tend to be volatile, and as such will enter the vapor phase when the temperature is increased to a high enough value (provided they do not decompose first!) A volatile liquid is one that has an appreciable vapor pressure at the specified temperature. An ideal mixture continuing at least one volatile liquid can be described using Raoult’s Law.
11.5: Most Solutions are Not Ideal
The Gibbs-Duhem equation relates how the chemical potential can change for a given composition while the system maintains equilibrium. So for a binary system, consisting of components A and B (the two most often studied compounds in all of chemistry)
11.6: Vapor Pressures of Volatile Binary Solutions
11.7: Activities of Nonideal Solutions
As seen before activities are a way to account for deviation from ideal behavior while still keeping the formulism for the ideal case intact.

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