A cubical box with porous walls containing an equal number of ${O_2}$ and $H_2$ molecules is placed in a large evacuated chamber. The entire system is maintained at constant temperature $T.$ The ratio of ${v_{rms}}$ of ${O_2}$ molecules to that of the ${v_{rms}}$ of $H_2$ molecules, found in the chamber outside the box after a short interval is

Q: A cubical box with porous walls containing an equal number of ${O_2}$ and $H_2$ molecules is placed in a large evacuated chamber. The entire system is maintained at constant temperature $T.$ The ratio of ${v_{rms}}$ of ${O_2}$ molecules to that of the ${v_{rms}}$ of $H_2$ molecules, found in the chamber outside the box after a short interval is

b temperature is fixed so, ${v_{rms}} \propto \frac{1}{{\sqrt M }}$ $\Rightarrow$ $\frac{{{v_{{O_2}}}}}{{{v_{{H_2}}}}} = \sqrt {\frac{{{M_{{H_2}}}}}{{{M_{{O_2}}}}}} = \sqrt {\frac{1}{{16}}} = \frac{1}{4}$

Question

A$\frac{1}{{2\sqrt 2 }}$
B$\frac{1}{4}$
C$\frac{1}{{\sqrt 2 }}$
D$\sqrt 2 $

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