Respuesta :
Answer:
VP (solution) = 171.56 mmHg
Explanation:
Vapor pressure of pure solvent(P°) - Vapor pressure of solution (P') = P° . Xm
Let's replace the data:
173.11 mmHg - P' = 173.11 mmHg . Xm
Let's determine the Xm (mole fraction for solute)
Mole fraction for solute = Moles of solute / Total moles
Total moles = Moles of solute + moles of solvent.
Let's determine the moles
Moles of solvent → 623.4 g / 119.4 g/mol = 5.22 moles
Moles of solute → 9.322 g / 180.1 g/mol = 0.052 moles
Total moles = 0.052 + 5.22 = 5.272 moles
Xm = 0.052 moles / 5.272 moles = 0.009 → 9/1000
173.11 mmHg - P' = 173.11 mmHg . 9/1000
P' = - (173.11 mmHg . 9/1000 - 173.11 mmHg)
P' = 171.56 mmHg
Answer:
The vapor pressure of the solution is 169.25 mm Hg
Explanation:
Step 1: Data given
Vapor pressure of pure chloroform at 25 °C = 173.11 mm Hg
Mass of aspirin = 9.322 grams
Molar mass of aspirin = 180.1 g/mol
Mass of chloroform = 263.4 grams
Molar mass chloroform = 119.40 g/mol
Step 2: Calculate moles of aspirin
Moles Aspirin = mass aspirin / molar mass aspirin
Moles aspirin = 9.322 grams / 180.1 g/mol
Moles aspirin = 0.05176 moles
Step 3: Calculate moles of chloroform
Moles chloroform = 263.4 grams / 119.40 g/mol
Moles chloroform = 2.206 moles
Step 4: Calculate mol fraction of chloroform
Mol fraction chloroform = moles chloroform / total moles
Mol fraction chloroform = 2.206 moles / (0.05176 + 2.206 )
Mol fraction chloroform = 0.9777
Mol fraction aspirin = 1 - 0.9777 = 0.0223
Step 5: Calculate the vapor pressure of the solution
Vapor pressure solution = Mol fraction chloroform * vapor pressure chloroform
Vapor pressure solution = 0.9777 * 173.11 mm Hg
Vapor pressure solution = 169.25 mm Hg
The vapor pressure of the solution is 169.25 mm Hg
