MHT CET · Physics · Thermodynamics
Initial pressure and volume of a gas are ' \(P\) ' and ' \(V\) ' respectively. First its volume is expanded to ' 4 V ' by isothermal process and then again its volume is reduced to ' V ' by adiabatic process then its final pressure if \(\left(\gamma=\frac{3}{2}\right)\)
- A P
- B \(\quad 2 \mathrm{P}\)
- C 3 P
- D 4 P
Answer & Solution
Correct Answer
(B) \(\quad 2 \mathrm{P}\)
Step-by-step Solution
Detailed explanation
After isothermal expansion,
\(\begin{aligned}
& P_1 V_1=P_2 V_2 \\
& P V=P_2 \times 4 V \\
\therefore \quad & P_2=\frac{P}{4}
\end{aligned}\)
After adiabatic compression,
\(\begin{array}{lll}
& P_2 V_2^\gamma=P_3 V_3^\gamma & \\
& \frac{P}{4}(4 V)^\gamma=P_3(V)^\gamma & \ldots\left(\text { given } V_3=\dot{V}\right) \\
\therefore \quad & P_3=\frac{P}{4} 4^\gamma=\frac{P}{4} 4^{3 / 2} & \ldots\left(\text { given }, \gamma=\frac{3}{2}\right) \\
\therefore \quad & P_3=\frac{P}{4} \times 8=2 P &
\end{array}\)
\(\begin{aligned}
& P_1 V_1=P_2 V_2 \\
& P V=P_2 \times 4 V \\
\therefore \quad & P_2=\frac{P}{4}
\end{aligned}\)
After adiabatic compression,
\(\begin{array}{lll}
& P_2 V_2^\gamma=P_3 V_3^\gamma & \\
& \frac{P}{4}(4 V)^\gamma=P_3(V)^\gamma & \ldots\left(\text { given } V_3=\dot{V}\right) \\
\therefore \quad & P_3=\frac{P}{4} 4^\gamma=\frac{P}{4} 4^{3 / 2} & \ldots\left(\text { given }, \gamma=\frac{3}{2}\right) \\
\therefore \quad & P_3=\frac{P}{4} \times 8=2 P &
\end{array}\)
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