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(B) For a mixture of gases,the ratio of specific heats is given by $\frac{C_{P, 	ext{mix}}}{C_{V, 	ext{mix}}} = \frac{n_1 C_{P1} + n_2 C_{P2}}{n_1 C

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$\frac{19}{13}$

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(B) For a mixture of gases,the ratio of specific heats is given by $\frac{C_{P, 	ext{mix}}}{C_{V, 	ext{mix}}} = \frac{n_1 C_{P1} + n_2 C_{P2}}{n_1 C_{V1} + n_2 C_{V2}}$.Helium is a monoatomic gas,so $C_{V1} = \frac{3R}{2}$ and $C_{P1} = \frac{5R}{2}$.Oxygen is a diatomic rigid gas,so $C_{V2} = \frac{5R}{2}$ and $C_{P2} = \frac{7R}{2}$.Given $n_1 = n$ and $n_2 = 2n$.Substituting these values:$\frac{C_{P, 	ext{mix}}}{C_{V, 	ext{mix}}} = \frac{n(\frac{5R}{2}) + 2n(\frac{7R}{2})}{n(\frac{3R}{2}) + 2n(\frac{5R}{2})}$$= \frac{\frac{5nR}{2} + \frac{14nR}{2}}{\frac{3nR}{2} + \frac{10nR}{2}} = \frac{19nR/2}{13nR/2} = \frac{19}{13}$.

Consider a mixture of $n$ moles of helium gas and $2n$ moles of oxygen gas (molecules taken to be rigid) as an ideal gas. Its $\frac{C_{P}}{C_{V}}$ value will be

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