MHT CET · Physics · Kinetic Theory of Gases
If \(\mathrm{C}_{\mathrm{p}}\) and \(\mathrm{C}_{\mathrm{v}}\) are molar specific heats of an ideal gas at constant pressure and volume respectively and ' \(\gamma\) ' is \(\mathrm{C}_{\mathrm{p}} / \mathrm{C}_{\mathrm{v}}\) then \(\mathrm{C}_{\mathrm{p}}=\)
( \(\mathrm{R}=\) universal gas constant)
- A \(\frac{\gamma \mathrm{R}}{\gamma-1}\)
- B \(\gamma \mathrm{R}\)
- C \(\frac{1+\gamma}{1-\gamma}\)
- D \(\frac{\mathrm{R}}{\gamma-1}\)
Answer & Solution
Correct Answer
(A) \(\frac{\gamma \mathrm{R}}{\gamma-1}\)
Step-by-step Solution
Detailed explanation
Given, \(\gamma=\frac{\mathrm{C}_{\mathrm{P}}}{\mathrm{C}_{\mathrm{V}}}\).
\(\begin{aligned}
\therefore \quad & \frac{C_v}{C_p}=\frac{1}{\gamma} \\
& \frac{C_v-C_P}{C_p}=\frac{1-\gamma}{\gamma} \\
& \frac{-\left(C_P-C_v\right)}{C_P}=\frac{1-\gamma}{\gamma} \\
& \frac{-R}{C_p}=\frac{1-\gamma}{\gamma} \\
\therefore \quad & \frac{R}{C_p}=\frac{\gamma-1}{\gamma} \\
\therefore \quad & C_P=\frac{\gamma R}{\gamma-1}
\end{aligned}\)
\(\ldots\left(\because C_p-C_v=R\right)\)
\(\begin{aligned}
\therefore \quad & \frac{C_v}{C_p}=\frac{1}{\gamma} \\
& \frac{C_v-C_P}{C_p}=\frac{1-\gamma}{\gamma} \\
& \frac{-\left(C_P-C_v\right)}{C_P}=\frac{1-\gamma}{\gamma} \\
& \frac{-R}{C_p}=\frac{1-\gamma}{\gamma} \\
\therefore \quad & \frac{R}{C_p}=\frac{\gamma-1}{\gamma} \\
\therefore \quad & C_P=\frac{\gamma R}{\gamma-1}
\end{aligned}\)
\(\ldots\left(\because C_p-C_v=R\right)\)
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