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Solution Process  “Surround and Separate”  Particles of the solvent pull particles of solute into solution.

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Presentation on theme: "Solution Process  “Surround and Separate”  Particles of the solvent pull particles of solute into solution."— Presentation transcript:

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2 Solution Process  “Surround and Separate”  Particles of the solvent pull particles of solute into solution

3  Dissociation Dissociation  Another Look Another Look

4 Terminology  Solute – smaller amount that gets dissolved  Solvent- larger amount that dissolves the solute  Soluble-able to dissolve miscible  Insoluble- unable to dissolve immiscible  Precipitate-insoluble product of a double displacement reactions

5 Speeding Up Solutions  Agitation Stirring makes particles collide more often  Surface Area Grinding up a solute makes it easier to “surround and separate” them into solution  Temperature Heating a solution speeds up the particles, increasing the number of collisions NOTE: When dissolving a gas in a liquid, a colder liquid slows down the gas particles and dissolves more total gas

6 Which method of speeding up a solution explains why a powdered aspirin works faster than a tablet? 1. Agitation 2. Surface Area 3. Temperature

7 Which method of speeding up a solution explains why sugar dissolves better in fresh tea than iced tea? 1. Agitation 2. Surface Area 3. Temperature

8 Which method of speeding up a solution explains why Kool-Aid powder has to be stirred into water? 1. Agitation 2. Surface Area 3. Temperature

9 Which method of speeding up a solution explains why you can’t make “Cold Chocolate” out of “Hot Chocolate” powder? 1. Agitation 2. Surface Area 3. Temperature

10 Which method of speeding up a solution explains why soup mix dissolves faster than bouillon cubes? 1. Agitation 2. Surface Area 3. Temperature

11 Solubility  Describes how well a substance will dissolve in 100g of water at a given temperature  Differs with each substance and temperature

12 Amounts of Solute  Unsaturated Solution has not dissolved as much solute as it can hold More solute can be dissolved Any point below the saturation line  Saturated Solution has dissolved as much solute as it can hold No more solute can be dissolved Any point on the saturation line  Supersaturated Solution has dissolved more solute than it can hold A point above the saturation line Solute will come out of solution if disturbed until it reaches the Saturation Point

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14 What is the solubility of NaNO 3 at 10  C? 1. 72 g 2. 80 g 3. 96 g 4. 105 g

15 How much NH 4 Cl would precipitate from a saturated solution that cools from 90  C to 50  C? 1. 70 g 2. 50 g 3. 20 g 4. 120 g

16 How much more KClO 3 could be added to form a saturated solution that goes from 30  C to 90  C? 1. 50 g 2. 10 g 3. 40 g 4. 0 g

17 Solubility Curve Review Supersaturated unsaturated saturated

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