The vapor pressure of pure benzene and methyl benzene at is given as and , respectively. The mole fraction of methyl benzene in the vapor phase, in equilibrium with an equimolar mixture of those two liquids (ideal solution) at the same temperature is _____ (nearest integer).
JEE Chemistry 2024 Question with Solution
Answer
Correct answer:23
Step-by-step solution
Standard Method
Given: Pure benzene has vapor pressure and pure methyl benzene has vapor pressure at . The liquid mixture is equimolar, so the liquid-phase mole fractions are and .
Find: The mole fraction of methyl benzene in the vapor phase in the form .
For an ideal solution, apply Raoult’s law to each component:
Substituting the given values:
Using Dalton’s law, total vapor pressure is:
Now the mole fraction of methyl benzene in the vapor phase is:
Expressing this as :
Rounding to the nearest integer gives . Therefore, the required numerical answer is 23.
Direct Ratio Method
Given: The mixture is equimolar, so both liquid-phase mole fractions are equal.
Find: Vapor-phase mole fraction of methyl benzene.
Because both components have the same liquid-phase mole fraction , that common factor cancels when forming the vapor-phase mole fraction:
Hence, the nearest integer is 23.
Common mistakes
Using the pure vapor pressure directly as the vapor-phase mole fraction is incorrect. That value is only the pure-component vapor pressure. First find the partial pressure in solution using Raoult’s law, then divide by total pressure.
Forgetting that the liquid mixture is equimolar leads to wrong partial pressures. Since the mixture is equimolar, both liquid mole fractions are , not .
Calculating partial pressures correctly but not summing them to get total pressure gives an incorrect vapor-phase mole fraction. Use Dalton’s law and take the ratio .
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