The ratio of work done by an ideal rigid diat | vedclass

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(B) For an ideal rigid diatomic gas,the molar heat capacity at constant pressure is $C_p = \frac{7}{2}R$ and at constant volume is $C_v = \frac{5}{2}R

Vedclass · Accepted Answer

$2$

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(B) For an ideal rigid diatomic gas,the molar heat capacity at constant pressure is $C_p = \frac{7}{2}R$ and at constant volume is $C_v = \frac{5}{2}R$.In an isobaric process,the heat supplied is $\Delta Q = n C_p \Delta T$ and the work done is $W = P \Delta V = n R \Delta T$.The ratio of work done to the heat supplied is given by:$\frac{W}{\Delta Q} = \frac{n R \Delta T}{n C_p \Delta T} = \frac{R}{C_p}$Substituting the value of $C_p$:$\frac{W}{\Delta Q} = \frac{R}{\frac{7}{2}R} = \frac{2}{7}$

The ratio of work done by an ideal rigid diatomic gas to the heat supplied to the gas in an isobaric process is (in $/7$)

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