In a container, two gases neon and argon are filled. Find the ratio of the root mean square of the molecules of the two gases. `M_(Ne) = 20.0 mu` and `M_(Ar) = 39.9 mu.` The temperature of the system is `30^(@)C.`

Find the ratio of the mean speed of hydrogen molecules to the mean speed of nytrogen molecules in a sample containing a mixture of the two gases.

A mixture of two gases is contained in a vessel. The Gas 1 is monoatomic and gas 2 is diatomic and the ratio of root mean square speeds of the molecules of two gases is

If the molecular weight of two gases are M_(1) and M_(2) then at a temperature the ratio of rms velocity C_(1) and C_(2) will be

A flask contains argon and chlorine in the ratio 2:1 by mass. The temperature of the mixture is 27^(@) . Obtain the ratio of (i) average kinetic energy per molecule, and (ii) root mean square speed of the molecules of two gases. Atomic mass of argon = 39.9 u, Molecular mass of chlorine = 70.9 u.

Two tanks of equal volume contain equal masses of oxygen and nitrogen at 410 K. find the ratio of (i) the number of molecules of the gases (ii) the presesure exerted by the gases in the two tanks .

Find de-Broglie wavelength corresponding to the root-mean square velocity of hydrogen molecules at room temperature (20^@C) .

At a given temperature, ratio of root mean square velocities of two different gases of molecular weights M_(1) and M_(2) respectively is