The translational kinetic energy of diatomic gas for one mole of the gas is equal to

Transitional kinetic energy of a gas molecule________

If the average translational kinetic energy of molecule in a gas is equal to the kinetic energy of an electron acceleration from rest through 10 V , then the temperature of the gas molecule is (Boltzmann constant = 1 . 38 xx 10^(-23) JK ^(-1) )

The mean translational kinetic energy of a molecule of an ideal gas at temperature T K is

The temperature at which the average translational kinetic energy of gas molecules, will be equal to that of an alpha- particle, accelerated through a potential difference of 1 volt, from rest is:

(A): According to the law of equipartition of energy, internal energy of an ideal gas at a given temperature, is equally distributed in translational and rotational kinetic energies. (R) : Rotational kinetic energy of a mono. atomic gas is equal to its translational kinetic energy

(A): Two gases with the same average translational kinetic energy have same temperature even if one has greater rotational kinetic energy than the other. (R): Only average translational kinetic energy of a gas contributes to its temperature.

Assertion (A): At 300 K, kinetic energy of 16g of methane is equal to the kinetic energy of 32 g of oxygen. Reason (R) : At constant temperature, kinetic energy of one mole of all gases is equal. The correct answer is

The kinetic energy per gm mol for a diatomic gas at room temperature is