`4.0 g` of a gas occupies `22.4` litres at NTP. The specific heat capacity of the gas at constant volume is `5.0 JK^(-1)mol^(-1)`. If the speed of sound in this gas at NTP is `952 ms^(-1)`. Then the heat capacity at constant pressure isA. `8.5 JK^(-1)mol^(-1)`B. `8.0 JK^(-1)mol^(-1)`C. `7.5 JK^(-1)mol^(-1)`D. `7.0 JK^(-1)mol^(-1)`

`4.0 g` of a gas occupies `22.4` litres at NTP. The specific heat capa

1.	`4.0 g` of a gas occupies `22.4` litres at NTP. The specific heat capacity of the gas at constant volume is `5.0 JK^(-1)mol^(-1)`. If the speed of sound in this gas at NTP is `952 ms^(-1)`. Then the heat capacity at constant pressure isA. `8.5 JK^(-1)mol^(-1)`B. `8.0 JK^(-1)mol^(-1)`C. `7.5 JK^(-1)mol^(-1)`D. `7.0 JK^(-1)mol^(-1)`
Answer» Correct Answer - A Here, `C_(upsilon)=5.0JK^(-1)mol^(-1), upsilon=952ms^(-1)` As `4.0g` of gas occupies `22.4` litres at `N.T.P.,` hence molar mass of gas, `m=4g//mol` Velocity of sound, `upsilon=sqrt((gamma P)/(rho))=sqrt((gammaP)/(m//V))=sqrt((gammaPV)/(m))=sqrt((gammaRT)/(m))` ,brgt or `upsilon^(2)=(gammaRT)/(m)` or `gamma=(upsilon^(2)m)/(RT)=((952)^(2)xx(4xx10^(-3)))/(8.3xx273)=1.6` `gamma=(C_(p))/(C_(v))` or `C_(p)=gammaC_(v)=1.6xx5` `=8.0JK^(-1)mol^(-1)`

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