The specific heat of the mixture of two gases | vedclass

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(C) The specific heat at constant volume for a mixture is given by $C_{V, 	ext{mix}} = \frac{n_1 C_{V1} + n_2 C_{V2}}{n_1 + n_2}$.Given $n_1 : n_2 =

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$He, N_2$

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(C) The specific heat at constant volume for a mixture is given by $C_{V, 	ext{mix}} = \frac{n_1 C_{V1} + n_2 C_{V2}}{n_1 + n_2}$.Given $n_1 : n_2 = 1 : 2$,let $n_1 = 1$ and $n_2 = 2$.For a gas with $f$ degrees of freedom,$C_V = \frac{f}{2} R$.Substituting the values: $\frac{13}{6} R = \frac{1 \cdot (\frac{f_1}{2} R) + 2 \cdot (\frac{f_2}{2} R)}{1 + 2}$.$\frac{13}{6} R = \frac{\frac{f_1}{2} R + f_2 R}{3} = \frac{f_1 + 2f_2}{6} R$.Thus,$f_1 + 2f_2 = 13$.For $He$ (monatomic),$f = 3$. For $N_2$ (diatomic),$f = 5$.If $f_1 = 3$ $(He)$ and $f_2 = 5$ $(N_2)$,then $3 + 2(5) = 13$,which satisfies the equation.Therefore,the gases are $He$ and $N_2$.

The specific heat of the mixture of two gases at constant volume is $\frac{13}{6} R$. The ratio of the number of moles of the first gas to the second is $1:2$. The respective gases may be:

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