A container contains `CO` and `H_(2)` in equal molar concentrations at the same temperature. What is the ratio of the average molar kinetic energy of the two gases ?

Two different gases at the same temperature have the same average kinetic energy.

Compare the average molar kinetic energies of He and Ar at 300 K.

When two gases having volumes 1 litres and 2 liters are at the same temperature, then the ratio of the average kinetic energy of the molecules in the two gases

A jar contains He and H_(2) in the molar ratio 1:5 The ration of mean translational kinetic energy is in the ration at the same temperature is .

Two ideal diatomic gases have their molar masses in the ratio 1:16 and temperature in the ratio 1 : 4. The average kinetic energy per molecule in the two cases will be in the ratio:

Two monoatomic gases are at absolute temperatures 300 K and 350 K respectively. Ratio of average kinetic energy of their molecules is

Two containers are filled, each with a different gas. Two containers are at the same temperature. Suppose that the molecules weights of the two gases are M_(A) and M_(B) . Then the average momenta (in magnitude) of the molecules are related as

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.