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Chapter 13 Solutions.

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Presentation on theme: "Chapter 13 Solutions."— Presentation transcript:

1 Chapter 13 Solutions

2 Sect. 13-1: Types of Mixtures
Solution – homogeneous mixture of 2 or more substances with small particle size Made up of solute (substance being dissolved) and solvent (substance doing the dissolving) Soluble – can be dissolved Suspension – a heterogeneous mixture of which the relatively large particles will settle out unless continually stirred Colloid – heterogeneous mixture with particle size between solutions and suspensions

3 Tyndall effect Used to distinguish between colloids and solutions
Particles in a colloid are large enough that they scatter light as it passes through

4 Electrolyte – substance that when dissolved in water to form a solution will conduct electricity
Non-electrolyte – substance that when dissolved in water to form a solution will not conduct electricity

5 Sect. 13-2: The Solution Process
Factors affecting rate of dissolving: Increasing surface area of solute Agitating solution Heating the solvent

6 Solution equilibrium – physical state in which the dissolving and crystallization of the solute occur in equal rates Saturated solution – contains maximum amount of solute Unsaturated solution – contains less than the saturated solution at a given set of conditions Supersaturated solution – contains more dissolved solute than a saturated solution contains under a given set of conditions

7 Solubility – the amount of a substance required to form a saturated solution with a specific amount of solvent at a specified temperature

8 Solute – Solvent Interactions
“like dissolves like” During dissolving of ionic compounds, ions are surrounded by the solvent particles and pulled away from the rest of the crystal Hydration – solution process with water as the solvent Hydrates have water molecules incorporated in their structures Ionic compounds are generally not soluble in non-polar solvents

9 Immiscible – liquid solute & solvent that are not soluble in each other
Miscible – liquids that are soluble in each other

10 An increase in pressure increases gas solubility
Henry’s law – solubility of a gas in liquid is directly proportional to the partial pressure of the gas on the surface of the liquid Effervescence – rapid escape of gas from liquid in which it was dissolved

11 Generally an increase in temperature causes an increase in solubility of a solid in a liquid
An increase in temperature causes a decrease in solubility of a gas in a liquid See graphs on pg. 408

12 When a solute particle is surround by solvent particles it is said to be Solvated
Heat of solution – the net amount of heat energy absorbed or released when a specific amount of solute dissolves in a solvent Negative value when heat is released Positive value when heat is absorbed

13 Sect. 13-3: Concentration of Solutions
Concentration – measure of the amount of solute in a given amount of solvent or solution Molarity – number of moles of solute dissolved in one liter of solution Molality – number of moles of solute dissolved per kilogram of solvent

14 Formulas… Molarity (M) = moles solute liters of solution
Molality (m) = moles solute kg of solvent


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