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.

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.

A flask contains argon and chlorine in the ratio of 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 v_("rms") of the molecules of the two gases. Atomic mass of argon =39.9 u, Molecular mass of chlorine = 70.9 u.

A flask contains argon and chlorine in the ratio of 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 v_("rms") of the molecules of the two gases. Atomic mass of argon =39.9 u, Molecular mass of chlorine = 70.9 u.

A flask contains Argon and chloring in the ratio of 2:1 by mass. The temperature of the mixture is 27^@C Obtain the ratio of averagae kinetic energy per molecule and root mean square speed v_(rms) of the molecules of the two gases. Given atomic mass of argon=39.9 u and molarcular mass of chlorine.=70.9 u.

A flask contains argon and chlorine in the ratio of 2:1 by mass. The temperature of the mixture is 27^(@)C . The ratio of average kinetic energies of two gases per molecule is

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