(D) According to Mayer's relation for an ideal gas,the difference between molar specific heat at constant pressure $(C_P)$ and constant volume $(C_V)$

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(D) According to Mayer's relation for an ideal gas,the difference between molar specific heat at constant pressure $(C_P)$ and constant volume $(C_V)$ is equal to the universal gas constant $(R)$:$C_P - C_V = R$We are also given the ratio of molar specific heats as $\gamma = \frac{C_P}{C_V}$,which implies $C_P = \gamma C_V$.Substituting the expression for $C_P$ into Mayer's relation:$\gamma C_V - C_V = R$$C_V(\gamma - 1) = R$Therefore,$C_V = \frac{R}{\gamma - 1}$.

Class 11 Physics Kinetic Theory of Gases Molar Specific Heat of gas and relation between them (Mayer's formula)

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The molar specific heat of an ideal gas at constant pressure and constant volume is $C_p$ and $C_v$ respectively. If $R$ is the universal gas constant and the ratio of $C_p$ to $C_v$ is $\gamma$,then $C_v=$

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A
$\frac{1-\gamma}{1+\gamma}$
B
$\frac{1+\gamma}{1-\gamma}$
C
$\frac{r-1}{R}$
D
$\frac{R}{\gamma-1}$

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Kinetic Theory of Gases

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Molar Specific Heat of gas and relation between them (Mayer's formula)

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The molar specific heat of an ideal gas at constant pressure and constant volume is $C_p$ and $C_v$ respectively. If $R$ is the universal gas constant and the ratio of $C_p$ to $C_v$ is $\gamma$,then $C_v=$

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$306 \ J$ of heat is required to raise the temperature of $2 \ moles$ of an ideal gas at constant pressure from $25^{\circ} C$ to $35^{\circ} C$. The amount of heat required to raise the temperature of the same gas through the same range at constant volume is (in $J$)

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