(D) The $Van \ der \ Waals$ equation for $n$ moles of a real gas is given by: $\left( P + \frac{n^2a}{V^2} \right) (V - nb) = nRT$. Here,$P$ is the pr

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

$nRT = \left( P + \frac{n^2a}{V^2} \right) (V - nb)$

(D) The $Van \ der \ Waals$ equation for $n$ moles of a real gas is given by: $\left( P + \frac{n^2a}{V^2} \right) (V - nb) = nRT$. Here,$P$ is the pressure,$V$ is the volume,$n$ is the number of moles,$R$ is the universal gas constant,$T$ is the temperature,and $a$ and $b$ are $Van \ der \ Waals$ constants.

Class 11 Chemistry States of Matter Real gases and Vander waal’s equation

Easy

Which of the following represents the $Van \ der \ Waals$ equation for $n$ moles of a real gas?

A
$nRT = \left( P + \frac{a}{V^2} \right) (V - b)$
B
$nRT = \left( P - \frac{a}{V^2} \right) (V - b)$
C
$nRT = \left( P + \frac{a}{V^2} \right) (V + b)$
D
$nRT = \left( P + \frac{n^2a}{V^2} \right) (V - nb)$

Explore More

Browse All

Question Bank

All Subjects

Class 11 Questions

Class 11

Chemistry Questions

Chapter

States of Matter

Subtopic

Real gases and Vander waal’s equation

In the given $pV \to V$ graph for gases at constant temperature,what kind of deviation will be observed for $H_2, He, CO, CH_4$?

Easy

View Solution

Consider the van der Waals constants,$a$ and $b$,for the following gases:

Gas $Ar$ $Ne$ $Kr$ $Xe$

$a / (atm \ dm^6 \ mol^{-2})$ $1.3$ $0.2$ $5.1$ $4.1$

$b / (10^{-2} \ dm^3 \ mol^{-1})$ $3.2$ $1.7$ $1.0$ $5.0$

Which gas is expected to have the highest critical temperature?

Gas	$Ar$	$Ne$	$Kr$	$Xe$
$a / (atm \ dm^6 \ mol^{-2})$	$1.3$	$0.2$	$5.1$	$4.1$
$b / (10^{-2} \ dm^3 \ mol^{-1})$	$3.2$	$1.7$	$1.0$	$5.0$

MediumAIIMS 2019

View Solution

Under what conditions do real gases behave as ideal gases?

Medium

View Solution

Which of the following statements is false based on the provided graph of compressibility factor $Z$ versus pressure $P$?

Difficult

View Solution

At $300 \ K$,one mole of a gas present in a $10 \ L$ flask exerted a pressure of $2.706 \ atm$. What is its compressibility factor $(Z)$? (Given $R=0.082 \ L \ atm \ mol^{-1} \ K^{-1}$).

MediumAP EAMCET 2023

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

Which of the following represents the $Van \ der \ Waals$ equation for $n$ moles of a real gas?

Similar Questions

In the given $pV \to V$ graph for gases at constant temperature,what kind of deviation will be observed for $H_2, He, CO, CH_4$?

Consider the van der Waals constants,$a$ and $b$,for the following gases: Gas $Ar$ $Ne$ $Kr$ $Xe$ $a / (atm \ dm^6 \ mol^{-2})$ $1.3$ $0.2$ $5.1$ $4.1$ $b / (10^{-2} \ dm^3 \ mol^{-1})$ $3.2$ $1.7$ $1.0$ $5.0$ Which gas is expected to have the highest critical temperature?

Under what conditions do real gases behave as ideal gases?

Which of the following statements is false based on the provided graph of compressibility factor $Z$ versus pressure $P$?

At $300 \ K$,one mole of a gas present in a $10 \ L$ flask exerted a pressure of $2.706 \ atm$. What is its compressibility factor $(Z)$? (Given $R=0.082 \ L \ atm \ mol^{-1} \ K^{-1}$).

Vedclass Test Series

Exam Paper Generator

Online Exam Module

Consider the van der Waals constants,$a$ and $b$,for the following gases:

Gas $Ar$ $Ne$ $Kr$ $Xe$

$a / (atm \ dm^6 \ mol^{-2})$ $1.3$ $0.2$ $5.1$ $4.1$

$b / (10^{-2} \ dm^3 \ mol^{-1})$ $3.2$ $1.7$ $1.0$ $5.0$

Which gas is expected to have the highest critical temperature?