Presentation is loading. Please wait.

Presentation is loading. Please wait.

Two Component Systems Limited to the mixtures two miscible liquids Graphs include: 1.Vapour pressure vs composition of mixture 2.Boiling point/temp. vs.

Published byBeverley Davidson Modified over 8 years ago

Similar presentations

Presentation on theme: "Two Component Systems Limited to the mixtures two miscible liquids Graphs include: 1.Vapour pressure vs composition of mixture 2.Boiling point/temp. vs."— Presentation transcript:

1

2 Two Component Systems Limited to the mixtures two miscible liquids Graphs include: 1.Vapour pressure vs composition of mixture 2.Boiling point/temp. vs composition of mixture Intermolecular interaction between the two components

3 Ideal Solutions Shows linear relationship between vapour pressure at constant temp. and composition. Obeys Raoult’s Law

4 Raoult’s Law The partial vapour pressure of a component of a mixture is equal to the vapour pressure of the pure component multiplied by its mole fraction in the mixture. For a two-component mixture of A and B, partial pressure of A P A = P A o x  A partial pressure of B P B = P B o x  B P total = P A + P B = P A o x  A + P B o x  B Read p.256 Example 22-1, 22-2 and TRY Check point 22-1.

5 Molecular Interaction in Ideal Solutions Intermolecular Intermolecular Intermolecular attraction between attraction between attraction between A and B  A and A  B and B (in mixture) (in pure A) (in pure B)  escape tendency of molecule A or B in the mixture equals to their respective escape tendency in pure A or pure B. **There would be no volume change and no enthalpy change when A and B are mixed to form an ideal solution.

6 Examples of Ideal Solutions Propan-1-ol and propan-2-ol bromomethane and iodomethane hexane and heptane Hydrogen bond Dipole-dipole attraction VDW forces

7 Phase diagram for ideal solutions Vapour pressure vs mole fraction (w. constant temperature)

8 Converting a vapour pressure/composition diagram (a) into a boiling point/composition diagram (b) for an ideal solution

9 Boiling point vs mole fraction (w. constant pressure)

10 Deviations from Raoult’s Law Many liquid mixtures are not ideal solution. Liquid mixtures do not obey Raoult’s Law (or they deviate from Raoult’s Law), are known as non-ideal solutions. Deviations from Raoult’s Law can be positive or negative.

11 Positive Deviation from Raoult’s Law *Vapour pressure of a liquid mixture is greater than that predicted by Raoult’s Law, i.e.P A > P A o x  A and P B > P B o x  B * intermolecular intermolecularintermolecular attraction between < attraction between +attraction between A and B A and AB and B (in mixture) (in pure A) (in pure B)

12 Example of non-ideal solution showing positive deviation Dipole-dipole attractionVDW forces Mixture of tetrachloromethane and ethanol Intermolecular attraction between CCl 4 molecules Intermolecular attraction between CCl 4 and C 2 H 5 OH Intermolecular attraction between C 2 H 5 OH molecules Hydrogen bond <+ ** Weakening of intermolecular attraction in mixture results in 1. volume expansion, 2. absorption of heat (i.e. temp. drop) when mixing.

13 Phase Diagram for Positive Deviation Weaker intermolecular attraction Easier for molecules to escape Higher vapour pressure

14 Weaker intermolecular attraction Lower boiling temperature

15 Negative Deviation from Raoult’s Law *Vapour pressure of a liquid mixture is smaller than that predicted by Raoult’s Law, i.e.P A < P A o x  A and P B < P B o x  B * intermolecular intermolecularintermolecular attraction between > attraction between +attraction between A and B A and AB and B (in mixture) (in pure A) (in pure B)

16 Example of non-ideal solution showing negative deviation Hydrogen bondDipole -dipole attraction Mixture of trichloromethane and ethoxyethane Intermolecular attraction between CHCl 3 molecules Intermolecular attraction between CHCl 3 and C 2 H 5 OC 2 H 5 Intermolecular attraction between C 2 H 5 OC 2 H 5 molecules Dipole-dipole attraction >+ ** Strengthening of intermolecular attraction in mixture results in 1. volume contraction, 2. evolution of heat (i.e. temp. rise) when mixing.

17 Phase Diagram for Negative Deviation Stronger intermolecular attraction More difficult for molecules to escape Lower vapour pressure

18 Stronger intermolecular attraction Higher boiling temperature

Download ppt "Two Component Systems Limited to the mixtures two miscible liquids Graphs include: 1.Vapour pressure vs composition of mixture 2.Boiling point/temp. vs."

Similar presentations

Physical Properties Of Solutions

Physical Properties Of Solutions
Vapor Pressure William Henry Francois Marie Raoult.

Vapor Pressure William Henry Francois Marie Raoult.
Ways of Expressing Concentrations of Solutions

Ways of Expressing Concentrations of Solutions
Phase Equilibrium II - Two Component System. How many components and phases in this system? 2 components and 1 liquid phase Method to separate ethanol.

Phase Equilibrium II - Two Component System. How many components and phases in this system? 2 components and 1 liquid phase Method to separate ethanol.
Chemistry.

Chemistry.
Chapter 12 Properties of Solutions. Liquids 2 Properties of Liquids A. Viscosity B. Surface Tension.

Chapter 12 Properties of Solutions. Liquids 2 Properties of Liquids A. Viscosity B. Surface Tension.
IM Forces Section 10.1. States of Matter Forces Between Particles in Solids and Liquids Ionic compounds –Attractive forces between oppositely charged.

IM Forces Section States of Matter Forces Between Particles in Solids and Liquids Ionic compounds –Attractive forces between oppositely charged.
Colligative Properties Vapour pressure Boiling point Freezing point Osmotic pressure.

Colligative Properties Vapour pressure Boiling point Freezing point Osmotic pressure.
The Solution Process Chapter 13 Brown-LeMay. I. Solution Forces Solution = Solvent + Solute Attractions exist between A. solvent and solute B. solute.

The Solution Process Chapter 13 Brown-LeMay. I. Solution Forces Solution = Solvent + Solute Attractions exist between A. solvent and solute B. solute.
Chapter 13 Set 2. Solute-Solvent Interaction Polar liquids tend to dissolve in polar solvents. Miscible liquids: mix in any proportions. Immiscible liquids:

Chapter 13 Set 2. Solute-Solvent Interaction Polar liquids tend to dissolve in polar solvents. Miscible liquids: mix in any proportions. Immiscible liquids:
Properties of Solutions

Properties of Solutions
Vapour Pressure and Heat Phase changes can be expressed as enthalpy changes at constant temperatures (Claussius-Clapeyron equation). What happens to a.

Vapour Pressure and Heat Phase changes can be expressed as enthalpy changes at constant temperatures (Claussius-Clapeyron equation). What happens to a.
Colligative Properties are those properties of a liquid that may be altered by the presence of a solute. Examples vapor pressure melting point boiling.

Colligative Properties are those properties of a liquid that may be altered by the presence of a solute. Examples vapor pressure melting point boiling.
Solutions. Occur in all phases u The solvent does the dissolving. u The solute is dissolved. u There are examples of all types of solvents dissolving.

Solutions. Occur in all phases u The solvent does the dissolving. u The solute is dissolved. u There are examples of all types of solvents dissolving.
To go with Chapter 13: Silberberg Principles of General Chemistry

To go with Chapter 13: Silberberg Principles of General Chemistry
A.P. Chemistry Chapter 11. 11.1 Solution Composition Solute- substance which is dissolved Solvent- substance that is doing the dissolving Molarity (M)-

A.P. Chemistry Chapter Solution Composition Solute- substance which is dissolved Solvent- substance that is doing the dissolving Molarity (M)-
Chapter 11 1 Ch 11 Page 467. STATES OF MATTER CH 11.4-7 CH 11.1-3 CH 5The internet? Phase Change- The transformation from one phase to another upon the.

Chapter 11 1 Ch 11 Page 467. STATES OF MATTER CH CH CH 5The internet? Phase Change- The transformation from one phase to another upon the.
Phase diagram of Carbon Allotropes: elemental substances that occur in more than one crystalline form.

Phase diagram of Carbon Allotropes: elemental substances that occur in more than one crystalline form.
1 CHEM 212 Chapter 5 Phases and Solutions Dr. A. Al-Saadi.

1 CHEM 212 Chapter 5 Phases and Solutions Dr. A. Al-Saadi.
PHASE EQUILIBRIUM (GROUP SECOND) 1) Muhammad Shafique 2) Noor Yussuf 3) Noor Nadia Syahira 4) Norfaizah 5)Nur Alya 6) Nur Azahariah 7) Wan Muhammad Hakimi.

PHASE EQUILIBRIUM (GROUP SECOND) 1) Muhammad Shafique 2) Noor Yussuf 3) Noor Nadia Syahira 4) Norfaizah 5)Nur Alya 6) Nur Azahariah 7) Wan Muhammad Hakimi.

Similar presentations

Ads by Google