Tuesday, March 17, 2020
Boiling Point Elevation Example Problem
Boiling Point Elevation Example Problem This example problem demonstrates how to calculate boiling point elevation caused by adding salt to water. When salt is added to water, the sodium chloride separates into sodium ions and chloride ions. The premise of boiling point elevation is that the added particles raise the temperature needed to bring water to its boiling point. The extra particles interfere with the interactions between solvent molecules (water, in this case). Boiling Point Elevation Problem 31.65 g of sodium chloride is added to 220.0 mL of water at 34 à °C. How will this affect the boiling point of the water?Assume the sodium chloride completely dissociates in the water.Given: density of water at 35 à °C 0.994 g/mLKb water 0.51 à °C kg/molSolution:To find the temperature change elevation of a solvent by a solute, use the equation:ÃâT iKbmwhereÃâT Change in temperature in à °Ci van t Hoff factorKb molal boiling point elevation constant in à °C kg/molm molality of the solute in mol solute/kg solvent.Step 1 Calculate the molality of the NaClmolality (m) of NaCl moles of NaCl/kg waterFrom the periodic tableatomic mass Na 22.99atomic mass Cl 35.45moles of NaCl 31.65 g x 1 mol/(22.99 35.45)moles of NaCl 31.65 g x 1 mol/58.44 gmoles of NaCl 0.542 molkg water density x volumekg water 0.994 g/mL x 220 mL x 1 kg/1000 gkg water 0.219 kgmNaCl moles of NaCl/kg watermNaCl 0.542 mol/0.219 kgmNaCl 2.477 mol/kgStep 2 Determine the van t Hoff factorThe van t Hoff factor, i, is a constant associated with the amount of dissociation of the solute in the solvent. For substances which do not dissociate in water, such as sugar, i 1. For solutes that completely dissociate into two ions, i 2. For this example NaCl completely dissociates into the two ions, Na and Cl-. Therefore, i 2 for this example.Step 3 Find ÃâTÃâT iKbmÃâT 2 x 0.51 à °C kg/mol x 2.477 mol/kgÃâT 2.53 à °CAnswer:Adding 31.65 g of NaCl to 220.0 mL of water will raise the boiling point 2.53 à °C. Boiling point elevation is a colligative property of matter. That is, it depends on the number of particles in a solution and not their chemical identity. Another important colligative property is freezing point depression.
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