Answer :
Answer:
56.06 g/mol is the molar mass
Explanation:
Vapor pressure lowering → P° - P' = P° . Xm
Where P° is vapor pressure of pure solvent
P' is vapor pressure of solution
Xm is the mole fraction (moles of solute / total moles)
Total moles = moles of solute + moles of solvent
Let's replace the data.
100 Torr - 87.7 Torr = 100 Torr . Xm
12.3 Torr = 100 Torr . Xm
0.123 = Xm
We know the moles of solvent because we know the molar mass from benzene and its mass in the solution. (mass / molar mass)
100 g / 78 g/mol = 1.28 moles
Let's build the equation where the unknown is the moles of solute
0.123 = moles of solute / moles of solute + 1.28 moles
0.123 (moles of solute + 1.28 moles) = moles of solute
0.123 moles of solute + 0.158 moles = moles of solute
0.158 = 1moles of solute - 0.123moles of solute
0.158 moles = 0.877 moles of solute
0.158 / 0.877 = moles of solute → 0.180
These moles corresponds to 10.1 g of the unknown, non volatile and non electrolyte X compound so:
molar mass (g/mol) → 10.1 g / 0.180 mol = 56.06 g/mol