TS EAMCET · Physics · Thermodynamics
The pressure and density of a given mass of a diatomic gas \(\left(\gamma=\frac{7}{5}\right)\) change adiabatically from \((P, d)\) to \(\left(P^{\prime}, d^{\prime}\right)\). If \(\frac{d^{\prime}}{d}=32\), then \(\frac{P^{\prime}}{P}\) is ( \(\gamma=\) ratio of specific heats \()\)
- A \(\frac{1}{128}\)
- B \(\frac{1}{64}\)
- C \(64\)
- D \(128\)
Answer & Solution
Correct Answer
(D) \(128\)
Step-by-step Solution
Detailed explanation
\(\begin{aligned} & p V^\gamma=\frac{p}{\rho^\gamma}=\text { constant } \\ & \therefore \quad \frac{p^{\prime}}{p}=\left(\frac{\rho^{\prime}}{\rho}\right)=(32)^{7 / 5} \\ & =32 \times 4=128 \\ & \end{aligned}\)
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