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Colligative Properties

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Presentation on theme: "Colligative Properties"— Presentation transcript:

1 Colligative Properties

2 Colligative Properties
Colligative Property: a property that depends only on the number of solute particles, and not the type of particle Examples: 1. Freezing Point Depression (lowering) 2. Boiling Point Elevation (raising) 3. Vapor Pressure Lowering We will focus on Freezing Point and Boiling Point.

3 Molality In order to work with colligative properties, we need to use a different type of concentration… Molality (m): the number of moles of solute per kilogram of solvent Units: m ex: 3.0 m is “3 molal”

4 Molality Example What is the molality of a solution of 16.8 grams of lithium sulfate dissolved in kg of water?

5 Molality Practice What is the molality of a solution of 47.3 grams of potassium iodide dissolved in kg of water?

6 Covalent compounds: will not dissociate → d.f. = 1
Dissociation Factor Dissociation factor: How many particles the solute will break into in solution Dissociation Factor Covalent compounds: will not dissociate → d.f. = 1 Ionic compounds: will dissociate into ions → d.f. = # of ions per molecule

7 Dissociation Factor Examples
What is the dissociation factor for each compound? 1. Determine if the compound is ionic or covalent 2. CIRCLE any polyatomic ions 3. Determine the dissociation factor AlPO4 N2O4 CaI2 PCl5 Pb(OH)4 XeF4 Cu2CO3

8 Dissociation Factor Practice
What is the dissociation factor for each compound? 1. Determine if it is ionic or covalent 2. CIRCLE any polyatomic ions 3. Determine the dissociation factor 1. NH4Cl 2. CO2 3. Ca3(PO4)2 4. CaCl2 5. Fe(NO3)2 6. NaOH 7. NaCl 8. Li2SO4 9. Mg3P2 10. CaC2O4

9 Freezing Point Depression
What happens when something freezes (for example, water)? Decrease in energy slows molecules/atoms down Intermolecular forces have more effect (atoms have less energy to fight them) Frozen water (ice) molecules are in an orderly pattern. What happens when you add a solute? Adding Solute The addition of another substance (a solute) disrupts and prevents water molecules from forming an orderly pattern.

10 Freezing Point Depression
Freezing Point Depression: adding a substance to a pure solvent lowers the freezing point To calculate the change in freezing point: ΔTf = (m)(kf)(df) Dissociation factor: how many particles the solute will break into in solution molality constant constant Dissociation Factor Covalent compounds: will not dissociate → d.f. = 1 Ionic compounds: will dissociate into ions → d.f. = # of ions per molecule

11 Freezing Point Depression Example
What is the freezing point of 10.2 grams of NaCl in 5.1 kg of water? kf = 1.86 oC/m for water ΔTf = (m)(kf)(df) To find the new freezing point, SUBTRACT your answer from the normal freezing point

12 Boiling Point Elevation
Solution containing nonvolatile solute Pure solvent Solute particles also get in the way of a solvent’s ability to boil, thereby increasing the boiling temperature.

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