Respuesta :
Answer:
The molecular weight of the unknown compound = 389.65 g/mol
Explanation:
Vapor Pressure of solution, P = mole fraction of solvent × Vapor Pressure of pure solvent = X × Pₛₒₗᵥ
P = 169.68 mmHg
Pₛₒₗᵥ = 173.11 mmHg
X = ?
X = P/Pₛₒₗᵥ = 169.68/173.11 = 0.9802
X = (number of moles of Chloroform)/(total number of moles)
Number of moles of Chloroform = mass/molar mass = 150.9/119.40 = 1.264 moles
X = 0.9802 = 1.264/(total number of moles)
Total number of moles = 1.264/0.9802 = 1.289 moles
Number of moles of unknown compound = total number of moles - number of moles of Chloroform = 1.289 - 1.264 = 0.0253 moles
Molar mass of unknown compound = (mass of unknown compound)/(number of moles of unknown compound) = 9.877/0.0253 = 389.65 g/mol
Answer:
387.3 g/mol.
Explanation:
Vapor Pressure of solution, Pₛₒₗ = X × Pₛₒₗᵥ
Where,
X = mole fraction of the solvent
Pₛₒₗᵥ = pressure of the solvent
Pₛₒₗᵥ = 173.11 mmHg
X = Pₛₒₗ/Pₛₒₗᵥ
= 169.68/173.11
= 0.9802.
Mole fraction is defined as the ratio of the number of moles of the substance to the total number of moles in the solution.
Mathematically,
X = Xₛₒₗᵥ/Xₛₒₗ
Number of moles of Chloroform = mass/molar mass
= 150.9/119.40
= 1.2638 mol
Therefore,
Total number of moles = 1.2638/0.9802
= 1.2893 mol
Number of moles of the compound = total number of moles - number of moles of Chloroform
= 1.2893 - 1.2638
= 0.0255 mol.
Molar mass of the compound = mass/number of moles
= 9.877/0.0255
= 387.3 g/mol.
