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(A) For a monatomic gas,the molar heat capacity at constant volume is $C_v = \frac{3}{2}R$ and at constant pressure is $C_p = \frac{5}{2}R$.When heat

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$60$

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(A) For a monatomic gas,the molar heat capacity at constant volume is $C_v = \frac{3}{2}R$ and at constant pressure is $C_p = \frac{5}{2}R$.When heat $Q$ is supplied at constant pressure,the total heat supplied is $Q = n C_p \Delta T$.The change in internal energy is $\Delta U = n C_v \Delta T$.The fraction of heat used for increasing internal energy is $\frac{\Delta U}{Q} = \frac{n C_v \Delta T}{n C_p \Delta T} = \frac{C_v}{C_p}$.Given $\gamma = \frac{C_p}{C_v} = \frac{5}{3}$,therefore $\frac{C_v}{C_p} = \frac{3}{5}$.Percentage of heat energy used = $\frac{3}{5} 	imes 100 = 60\%$.

When some amount of heat energy is supplied to a monatomic gas,the percentage of heat energy used for increasing the internal energy of the gas $(\gamma = 5/3)$ is

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