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Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3
22

Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Dec 14, 2015

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Rosalyn Hicks
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Page 1: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Solution ChemistryPacket #4Chapter 13

Sections 1 & 3

Page 2: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Introduction

Solutions are homogenous (everywhere the same) mixtures of substances that combine to form a single phase (generally liquid). Recall that a mixture is a physical blend of two or

more substances. Mixtures may not be always a liquid

Example Smoke in air

Page 3: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Solutions vs. Suspensions

A suspension is a temporary heterogeneous mixture. A type of mixture in which the different parts

spontaneously separate over time. Clay and water

Over time, the clay eventually settles to the bottom.

Page 4: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Solutions vs. Suspensions

Solutions stay “uniform” over time and the substances do not separate.

Page 5: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Parts of a Solution

Page 6: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Parts of a Solution

There are two general parts of a solution Solvent

The primary ingredient Present in large amounts

Solute The other ingredients found in much smaller portions

Page 7: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

The Water Connection

Water is the most common solvent.

Furthermore, any solution that contains water, as the solvent, is an aqueous solution.

Page 8: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Colloids

Page 9: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Introduction

Colloids are stable heterogeneous mixtures that resemble homogenous mixtures. Colloid is derived from a Greek word meaning glue-

like. Milk is a colloid that contains globules of fat and

small lumps of protein casein. Mayonnaise is a colloid that contains water droplets

in oil.

Page 10: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Separation of Mixtures

Page 11: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Separation of Mixtures

There are multiple ways of separating mixtures.

Page 12: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Separation of Mixtures II

Separation of Mixtures at Home Using a filter to make coffee Evaporation that occurs when cooking

Leading to the burning of one’s food

Page 13: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Separation of Mixtures III

Separating Mixtures in a Lab Centrifugation

The use of a centrifuge, spinning up to 80,000 revolutions per minute and increasing the force of gravity up to ** times what is seen on earth, can separate substances found in mixtures based upon the different sizes of the molecules.

Page 14: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Separation of Mixtures IV

Chromatography Separation is based on

how quickly the components in the mixture is dissolved in a mobile phase solvent.

Paper chromatography is is a useful technique for separating components of a solution.

Page 15: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Separation of Mixtures V

Distillation Separates components

based on the boiling points One component

reaches its boiling point faster than the other(s). Is this how salt is

obtained from the ocean?

Page 16: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Solubility

Page 17: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Definition

The solubility of a substance is the maximum amount of that substance that can be dissolved in a particular solvent at a particular temperature.

Page 18: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Solubility II

Glucose, a type of sugar, will dissolve in 100ml of H2O until a maximum amount has been added (83g)

Once the maximum has been achieved, the solution is said to be in equilibrium and is saturated.

Page 19: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Solubility III

A solution that is below the saturation point is described as undersaturated solution.

A solution that is above the saturation point, where added substance precipitates at the bottom is described as a supersaturated solution. Concentrated Solution.

Page 20: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

Dissolving Gases in Liquids

Page 21: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

The Soda Bottle

CO2 resides above the liquid before the bottle is opened and is in equilibrium with the gas in the liquid. The solution is at the point of saturation.

When the bottle is opened, the CO2 is no longer in equilibrium with the CO2 in the air and escapes the bottle/liquid in an attempt to reach that equilibrium point.

Page 22: Solution Chemistry Packet #4 Chapter 13 Sections 1 & 3.

The Soda Bottle II

Henry’s Law At a constant temperature, the solubility of a gas in

a liquid is directly proportional to the partial pressure of the gas on the surface of the liquid.