Find the average momentum of molecules of hydrogen gas in a container at temperature `300K`.

If the average kinetic energy of a molecule of hydrogen gas at 300 K is E , then the average kinetic energy of a molecule of nitrogen gas at the same temperature is

The average momentum of a molecule in a sample of an ideal gas depends on

At what temperature, the average speed of gas molecules be double of that at temperature, 27^(@)C ?

Each molecule of nitrogen gas heated in a vessel to a temperature of 5000K has an average energy E_(1) . Some molecule of the gas escape into atmosphere at 300K. Due to collision with air molecules, average kinetic energy of the nitrogen molecule changes to E_(2) . Find the radio E_(1)//E_(2) .

Consider a sample fo oxygen at 300K. Find the average time taken by a molecule to travel a distance equal to the diameter of the earth.

The temperature at which the average speed of the gas molecules is double to that at a temperature of 27^(@)C is

The evrage kinetic energy of molecules in a gas at temperature T is 1.5 KT find the temperature at which the average kinetic energy of the molecules of hydrogen equals the binding energy of its atoms will hydrogen remain in molecles form at this temperature ? Take h = 8.62xx 10^(-6) eVK^(-1)

Find the rms speed of hydrogen molecules at room temperature ( = 300 K) .

Find the temperature at which the average kinetic energy of the molecule of hydrogen equals the binding energy of its electron in ground state, assuming average kinetic energy of hydrogen gas molecule =(3)/(2) kT .