(B) The kinetic energy $E$ per gram mole of an ideal gas is given by the formula $E = \frac{f}{2} RT$,where $f$ is the number of degrees of freedom.Fo

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(B) The kinetic energy $E$ per gram mole of an ideal gas is given by the formula $E = \frac{f}{2} RT$,where $f$ is the number of degrees of freedom.For a diatomic gas at room temperature,the molecule has $3$ translational and $2$ rotational degrees of freedom,so $f = 3 + 2 = 5$.Substituting $f = 5$ into the formula,we get $E = \frac{5}{2} RT$.

Class 11 Physics Kinetic Theory of Gases Degree of Freedom

Easy

The kinetic energy per gram mole for a diatomic gas at room temperature is:

A
$3 RT$
B
$\frac{5}{2} RT$
C
$\frac{3}{2} RT$
D
$\frac{1}{2} RT$

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Kinetic Theory of Gases

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Degree of Freedom

If the degrees of freedom of a gas molecule is $6$,then the total internal energy of the gas molecule at a temperature of $47^{\circ} C$ (in $eV$) is (Boltzmann constant $= 1.38 \times 10^{-23} \ J \ K^{-1}$)

MediumAP EAMCET 2025

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$A$ monoatomic gas molecule has

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Under standard conditions,the density of a gas is $\frac{1400}{1089} \ kg \ m^{-3}$ and the speed of sound propagation in it is $330 \ ms^{-1}$. The number of degrees of freedom of the gas molecules is:

EasyAP EAMCET 2019

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Supposing the distance between the atoms of a diatomic gas to be constant,its specific heat at constant volume per mole (gram mole) is

Medium

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The gases carbon monoxide $(CO)$ and nitrogen $(N_{2})$ at the same temperature have kinetic energies $E_{1}$ and $E_{2}$ respectively. Then

MediumMHT CET 2007

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The kinetic energy per gram mole for a diatomic gas at room temperature is:

Similar Questions

If the degrees of freedom of a gas molecule is $6$,then the total internal energy of the gas molecule at a temperature of $47^{\circ} C$ (in $eV$) is (Boltzmann constant $= 1.38 \times 10^{-23} \ J \ K^{-1}$)

$A$ monoatomic gas molecule has

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Supposing the distance between the atoms of a diatomic gas to be constant,its specific heat at constant volume per mole (gram mole) is

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