(D) Given,the difference between the two specific heats is $C_P - C_V = R = 4150 \ J/kg \ K$.The ratio of specific heats is given by $\gamma = \frac{C

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(D) Given,the difference between the two specific heats is $C_P - C_V = R = 4150 \ J/kg \ K$.The ratio of specific heats is given by $\gamma = \frac{C_P}{C_V} = 1.4$.We know that $C_P = \gamma C_V$.Substituting this into the first equation: $\gamma C_V - C_V = R$.$C_V(\gamma - 1) = R$.$C_V = \frac{R}{\gamma - 1}$.Substituting the values: $C_V = \frac{4150}{1.4 - 1} = \frac{4150}{0.4} = 10375 \ J/kg \ K$.

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

Medium

For a gas,the difference between the two specific heats is $4150 \ J/kg \ K$. What is the specific heat at constant volume of the gas if the ratio of specific heats is $1.4$ (in $J/kg \ K$)?

A
$8475$
B
$5186$
C
$1660$
D
$10375$

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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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For a gas,the difference between the two specific heats is $4150 \ J/kg \ K$. What is the specific heat at constant volume of the gas if the ratio of specific heats is $1.4$ (in $J/kg \ K$)?

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$A$ cylinder of fixed capacity of $44.8 \, L$ contains helium gas at standard temperature and pressure. The amount of heat needed to raise the temperature of the gas in the cylinder by $20.0^{\circ} C$ will be .............. $J$ (Given gas constant $R = 8.3 \, J \, K^{-1} \, mol^{-1}$).

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