A flask contains Hydrogen and Argon in the ratio 2:1 by mass. The temperature of the mixture is 30°C. The ratio of average kinetic energy per molecule of the two gases (K argon/K hydrogen) is:
(Given: Atomic Weight of Ar = 39.9)
(Given: Atomic Weight of Ar = 39.9)
Show Hint
The kinetic energy of a gas molecule is proportional to the temperature, and the kinetic energy per molecule of different gases is the same at the same temperature.
- \(\frac{39.9}{2}\)
- 1
- 39.9
- 2
The Correct Option is B
Solution and Explanation
Solution:
The kinetic energy per molecule is given by:
\( K = \frac{3}{2} k_B T \)
Thus, the ratio of kinetic energy per molecule of Argon and Hydrogen is:
\( \frac{K_{\text{argon}}}{K_{\text{hydrogen}}} = \frac{\frac{3}{2} k_B T_{\text{argon}}}{\frac{3}{2} k_B T_{\text{hydrogen}}} = \frac{T_{\text{argon}}}{T_{\text{hydrogen}}} \)
Since the temperature is the same for both gases, the ratio is 1. Hence, the correct answer is \( 1 \).
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