Question:
Consider \( N_i \) number of ideal gas particles enclosed in a volume \( V_1 \). If the volume is changed to \( V_2 \) and the number of particles is reduced by half, the mean free path becomes four times of its initial value. The ratio \( \frac{V_1}{V_2} \) is ........... (Round off to one decimal place).
Consider \( N_i \) number of ideal gas particles enclosed in a volume \( V_1 \). If the volume is changed to \( V_2 \) and the number of particles is reduced by half, the mean free path becomes four times of its initial value. The ratio \( \frac{V_1}{V_2} \) is ........... (Round off to one decimal place).
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The mean free path depends on the number of particles and the volume; changing these parameters can significantly affect the path length.
Updated On: Dec 6, 2025
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Correct Answer: 0.5
Solution and Explanation
The mean free path \( \lambda \) is inversely proportional to the number of particles and the volume. The mean free path for the initial state is \( \lambda_1 \), and after the change, it becomes \( 4\lambda_1 \). Thus, we have:
\[
\lambda_1 \propto \frac{V_1}{N_i}.
\]
After halving the number of particles,
\[
\lambda_2 \propto \frac{V_2}{\frac{N_i}{2}} = \frac{2V_2}{N_i}.
\]
Using the given condition that \( \lambda_2 = 4 \lambda_1 \), we get:
\[
\frac{2V_2}{N_i} = 4 \times \frac{V_1}{N_i} \Rightarrow 2V_2 = 4V_1 \Rightarrow V_2 = 2V_1.
\]
Final Answer: The ratio \( \frac{V_1}{V_2} \) is \( 0.5 \).
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