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  • Colligative Properties Depend on the concentration of solute particles, but not on chemical identity. In the case of a solute that does not ionize, “concentration
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  • Slide 1
  • Colligative Properties Depend on the concentration of solute particles, but not on chemical identity. In the case of a solute that does not ionize, concentration of solute particles has the same meaning as solute concentration.
  • Slide 2
  • Some Colligative Properties Vapor pressure lowering Boiling point elevation Freezing point depression Osmotic pressure
  • Slide 3
  • Why Vapor Pressure Lowering? Results when a non-volatile solute is dissolved in a volatile solvent. Only some of the surface molecules have the ability to vaporize, compared to all of the surface molecules in the case of a pure solvent. As a result, the vapor pressure of the solution is less than that of a pure solvent.
  • Slide 4
  • Molecular-Level Explanation for Vapor Pressure Lowering (image 1 of 3)
  • Slide 5
  • Molecular-Level Explanation for Vapor Pressure Lowering (image 2 of 3)
  • Slide 6
  • Molecular-Level Explanation for Vapor Pressure Lowering (image 3 of 3)
  • Slide 7
  • An Interesting Illustration of the Difference in Vapor Pressure Between Solvent and Solution
  • Slide 8
  • Raoults Law P = X. P o Obeyed exactly, only for ideal solutions For non-ideal solutions, Raoults law is more closely followed for dilute solutions
  • Slide 9
  • Slide 10
  • Raoults Law Applied to Both Solvent and Solute (when both are volatile) P = X. P o P = P + P = X. P o + X. P o = (1-X). P o + X. P o
  • Slide 11
  • Slide 12
  • Vapor Pressure Lowering Changes the Boiling and Freezing Points
  • Slide 13
  • Equations for Boiling Point Elevation and Freezing Point Depression T b = T b T o b and T b = K b. c m T f = T f T o f and T f = -K f. c m
  • Slide 14
  • Slide 15
  • Slide 16
  • Slide 17
  • Slide 18

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