Question:medium
Ten moles of an ideal monoatomic gas, initially in state \(a\) at atmospheric pressure and temperature \(T_a = 27^\circ\text{C}\), is enclosed in a metal cylinder of volume \(V_0\) fitted with a frictionless piston. The gas is suddenly compressed to state \(b\) with volume \(V_0/3\). Now, keeping the piston stationary, the cylinder is submerged in a water bath of temperature \(11^\circ\text{C}\) until the gas reaches the temperature of the water bath, which is denoted as state \(c\). Finally, while still in the water bath, the piston is brought slowly to its initial position, which is denoted as state \(f\). If \(R\) is the universal gas constant, then the correct option(s) is/are:
Given: \(9^{1/3} = 2.08\)
Ten moles of an ideal monoatomic gas, initially in state \(a\) at atmospheric pressure and temperature \(T_a = 27^\circ\text{C}\), is enclosed in a metal cylinder of volume \(V_0\) fitted with a frictionless piston. The gas is suddenly compressed to state \(b\) with volume \(V_0/3\). Now, keeping the piston stationary, the cylinder is submerged in a water bath of temperature \(11^\circ\text{C}\) until the gas reaches the temperature of the water bath, which is denoted as state \(c\). Finally, while still in the water bath, the piston is brought slowly to its initial position, which is denoted as state \(f\). If \(R\) is the universal gas constant, then the correct option(s) is/are:
Given: \(9^{1/3} = 2.08\)
Given: \(9^{1/3} = 2.08\)
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For adiabatic processes, remember that "sudden" implies no time for heat exchange. For monatomic gases, $\gamma = 1.67$, which is steeper on a P-V graph than the isothermal curve ($\gamma = 1$).
Updated On: May 20, 2026
- The schematic P-V diagram of the processes described above is:
- The change in internal energy in going from state $a$ to $b$ is $4860R$.
- The net change in the internal energy in the whole process is $-240R$.
- The pressure and temperature of the state $b$ are $2.08$ times the atmospheric pressure and $624 \text{ K}$, respectively.
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The Correct Option is A
Solution and Explanation
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