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 flask contains argon and chlorine in the ratio 2:1 by mass. The temperature of the mixture is 27^(@)C . 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.

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

Two perfect gases at absolute temperature T_(1) and T_(2) are mixed. There is no loss of energy. The masses of the molecules are m_(1) and m_(2) . The number of molecules in the gases are n_(1) and n_(2) . The temperature of the mixture is

If two gases X and Y have their molecules travelling at the velocities in the ratio of 3 : 1 . The ration of their molecular mass M_(x)//M_(y) will be

Two different gases at the same temperature have equal root mean square velocities?

A flask contains hydrogen and helium in the ratio 2:1 by mass. The temperature of the mixture is 27^(@)C . Obtin the ratio of rms speeds of the molecules of the two gases. Atomic mass of hydrogen =2, molecular mass of helium =4

Find the centre of mass of the CO molecule. .Given that the atoms are 1.13 xx 10^(-10) m apart and the ratio of the masses of the two atoms m_(0)//m_( c) = 1.33

Two perfect gases (1) and (2) are at temperatures T_(1) and T_(2) . If the number of molecules of the two gases are n_(1) and n_(2) and the masses of the molecules m_(1) and m_(2) , find the resulting temperature when the two gases are mixed. Assume that there is no loss of energy on mixing the two gases.