(C) According to the law of equipartition of energy,the average energy associated with each degree of freedom is $\frac{1}{2} k_{B} T$.For a mono-atom

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(C) According to the law of equipartition of energy,the average energy associated with each degree of freedom is $\frac{1}{2} k_{B} T$.For a mono-atomic gas,the number of degrees of freedom $(f)$ is $3$ (all translational).Therefore,the average thermal energy $E = f \times \frac{1}{2} k_{B} T = 3 \times \frac{1}{2} k_{B} T = \frac{3}{2} k_{B} T$.

Class 11 Physics Kinetic Theory of Gases Degree of Freedom

Easy

The average thermal energy for a mono-atomic gas is: ($k_{B}$ is Boltzmann constant and $T$ is absolute temperature)

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A
$\frac{7}{2} k_{B} T$
B
$\frac{1}{2} k_{B} T$
C
$\frac{3}{2} k_{B} T$
D
$\frac{5}{2} k_{B} T$

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Degree of Freedom

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Match List-$I$ with List-$II$:

List-$I$ List-$II$

$(A)$ $3$ Translational degrees of freedom $(I)$ Monoatomic gases

$(B)$ $3$ Translational,$2$ rotational degrees of freedom $(III)$ Rigid diatomic gases

$(C)$ $3$ Translational,$2$ rotational and $1$ vibrational degrees of freedom $(IV)$ Non-rigid diatomic gases

$(D)$ $3$ Translational,$3$ rotational and more than one vibrational degrees of freedom $(II)$ Polyatomic gases

Choose the correct answer from the options given below:

List-$I$	List-$II$
$(A)$ $3$ Translational degrees of freedom	$(I)$ Monoatomic gases
$(B)$ $3$ Translational,$2$ rotational degrees of freedom	$(III)$ Rigid diatomic gases
$(C)$ $3$ Translational,$2$ rotational and $1$ vibrational degrees of freedom	$(IV)$ Non-rigid diatomic gases
$(D)$ $3$ Translational,$3$ rotational and more than one vibrational degrees of freedom	$(II)$ Polyatomic gases

MediumJEE MAIN 2023

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Write the degree of freedom for a diatomic rigid rotator.

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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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The average thermal energy for a mono-atomic gas is: ($k_{B}$ is Boltzmann constant and $T$ is absolute temperature)

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