(A) According to Raoult's law and Dalton's law,the relationship between mole fraction in vapour phase $(Y_A)$ and liquid phase $(X_A)$ is given by: $Y

Name: Exam Paper Generator | JEE NEET Paper Generator | Vedclass
Brand: Vedclass
Rating: 5 (35 reviews)

(A) According to Raoult's law and Dalton's law,the relationship between mole fraction in vapour phase $(Y_A)$ and liquid phase $(X_A)$ is given by: $Y_A = \frac{P_A^0 X_A}{P_{total}}$ Since $P_{total} = P_A^0 X_A + P_B^0 X_B$,we have: $Y_A = \frac{P_A^0 X_A}{P_A^0 X_A + P_B^0 (1 - X_A)}$ Given $Y_A = 0.8$,$P_A^0 = 55$,and $P_B^0 = 15$: $0.8 = \frac{55 X_A}{55 X_A + 15(1 - X_A)}$ $0.8 = \frac{55 X_A}{40 X_A + 15}$ $32 X_A + 12 = 55 X_A$ $23 X_A = 12$ $X_A = \frac{12}{23} \approx 0.5217$

Class 12 Chemistry Solutions Ideal and Non-ideal solution

Difficult

Two liquids $A$ and $B$ form an ideal solution at temperature $T \ K$. At $T \ K$,the vapour pressures of pure $A$ and $B$ are $55 \ kNm^{-2}$ and $15 \ kNm^{-2}$ respectively. What is the mole fraction of $A$ in the solution of $A$ and $B$ in equilibrium with a vapour in which the mole fraction of $A$ is $0.8$?

JEE MAIN 2026 All JEE MAIN

A
$0.5217$
B
$0.480$
C
$0.663$
D
$0.340$

Explore More

Browse All

Question Bank

All Subjects

Class 12 Questions

Class 12

Chemistry Questions

Chapter

Solutions

Subtopic

Ideal and Non-ideal solution

Previous Year

JEE MAIN 2026 Paper All JEE MAIN years →

At a particular temperature,the vapour pressures of two liquids $A$ and $B$ are respectively $120 \, mm$ and $180 \, mm$ of mercury. If $2 \, moles$ of $A$ and $3 \, moles$ of $B$ are mixed to form an ideal solution,the vapour pressure of the solution at the same temperature will be (in $mm$ of mercury):

MediumAIIMS 2013

View Solution

At $363 \ K,$ the vapour pressure of $A$ is $21 \ kPa$ and that of $B$ is $18 \ kPa$. One mole of $A$ and $2 \ moles$ of $B$ are mixed. Assuming that this solution is ideal,the vapour pressure of the mixture is $....... \ kPa$. (Round off to the Nearest Integer).

MediumJEE MAIN 2021

View Solution

$A$ solution of two miscible liquids showing negative deviation from Raoult's law will have :

DifficultJEE MAIN 2024

View Solution

Solution $A$ contains acetone dissolved in chloroform and solution $B$ contains acetone dissolved in carbon disulphide. The type of deviations from Raoult's law shown by solutions $A$ and $B$,respectively,are:

EasyKCET 2019

View Solution

At $88\,^oC$,the vapor pressure of benzene is $900 \, \text{torr}$ and that of toluene is $360 \, \text{torr}$. What is the mole fraction of benzene in the mixture with toluene that will boil at $88\,^oC$ and $1 \, \text{atm}$ pressure,assuming it forms an ideal solution?

Medium

View Solution

Vedclass Products

For Students

Vedclass Test Series

Mock tests in real JEE/NEET style with performance analysis. 5-day free trial.

Start Free Trial

For Teachers

Exam Paper Generator

Generate Set A/B/C/D exam papers from 7.5L+ questions in 2 minutes. 3 chapters free.

Try Free

For Institutes

Online Exam Module

Live online exams with unlimited students, 360° analytics & white-label branding.

See Demo

Similar Questions

At $363 \ K,$ the vapour pressure of $A$ is $21 \ kPa$ and that of $B$ is $18 \ kPa$. One mole of $A$ and $2 \ moles$ of $B$ are mixed. Assuming that this solution is ideal,the vapour pressure of the mixture is $....... \ kPa$. (Round off to the Nearest Integer).

$A$ solution of two miscible liquids showing negative deviation from Raoult's law will have :

Solution $A$ contains acetone dissolved in chloroform and solution $B$ contains acetone dissolved in carbon disulphide. The type of deviations from Raoult's law shown by solutions $A$ and $B$,respectively,are:

At $88\,^oC$,the vapor pressure of benzene is $900 \, \text{torr}$ and that of toluene is $360 \, \text{torr}$. What is the mole fraction of benzene in the mixture with toluene that will boil at $88\,^oC$ and $1 \, \text{atm}$ pressure,assuming it forms an ideal solution?

Vedclass Test Series

Exam Paper Generator

Online Exam Module