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Molality and Colligative Properties’

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1 Molality and Colligative Properties’
Objective: Calculate molality (m) Define colligative property Calculate changes in freezing and boiling point Terms Molality (m) Colligative property Boiling-point elevation Freezing-point depression Freezing-point depression constant Water = 1.86 Boiling-point elevation constant Water = 0.51

2 Molality (m) [LOWER CASE EHMM)
Molality (m) is SIMILAR to (M) Molality = π‘€π‘œπ‘™π‘’π‘  π‘†π‘œπ‘™π‘’π‘‘π‘’ (π‘ƒπ‘œπ‘€π‘‘π‘’π‘Ÿ) 𝐾𝑔 π‘†π‘œπ‘™π‘£π‘’π‘›π‘‘ (π‘Šπ‘Žπ‘‘π‘’π‘Ÿ) 1) Given 200 grams of NaCl and 400 mL of water calculate the molality of the solution. (you may assume that 1mL = 1 gram) (NaCl = g/mol)

3 Colligative Property Boiling Point Elevation
A colligative property is a characteristic or trait that DOES NOT depend on what the substance is, rather the colligative property depends on the quantity of the substance. Boiling point elevation = The boiling point increases as you dissolve more solute. It doesn’t really matter what the solute (powder) is… all that matters is how much you dissolve. Why does this happen?

4 Colligative Property Freezing Point Depression
Freezing Point depression = Freezing point goes down as you dissolve more solute… why? Both Freezing Point depression and boiling point elevation can be calculated by almost the same formula i = # of particles a substance generates (NaCl = 2) Ξ”Boiling Point = (i)(Kb )(m) Kb = BP Elevation constant M = molality

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