Hydrogen is heated in a vessel to a temperature of 10,000K. Let each molecule posses an average energy `E_(1)`. A few molecules escape into the atmosphere at 300 K. Due to collisions, their energy changes to `E_(2)`. Calculate ratio `E_(1)//E_(2)`.

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) .

How average K.E. of a gas molecule is related to the temperature ?

The average K.E of a molecule.

What is the average K.E. of gas molecules depends on ?

The average kinetic energy of H_(2) molecules at 300 K is E at the same temperature the average kinetic energy of O_(2) molecules is :

The gases are at absolute temperature 300K and 350 K respetivily. The ratio of average kinetic energy of their molecules is :

What is the relationship between the average K.E. of the gas molecules with the temperature ?

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

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