`CO _(2) (O-C-O)` is a triatomic gas. Mean kinetic energy of one gram gas will be –
(If N - Avogadro number, k - Boltzmann constant and molecular weight of` CO_(2) =44)-`

Calculate for hydrogen at 27^(@)C kinetic energy of one gram gas and

The mean transitional kinetic energy of a perfect gas molecule at absolute temperature T is ( k is the Boltzmann constant)

Mean kinetic energy of a perfect gas per gram at the temperature T K is

The kinetic energy of one gram molecule of a gas at normal temperature and pressure is (R=8.31J//mol-K)

The temperature at which the mean kinetic energy of the molecules of gas is one-third of the mean kinetic energy of its molecules at 180^(@)C is

Average K.E. of CO_(2) at 27^(@)C is E. the average kinetic energy of N_(2) at the same temperature will be

The density of hydrogen gas at STP is 0.9 kg m^(-3) The mean kinetic energy of one gram molecule of hydrogen gas is approx

A certain gas possessess 3 degree of freedom corresponding to the translational motion and 2 degrees of freedom corresponding to rotational motion. (i) What is the kinetic energy of translational motion of one such molecule of gas at 300 K ? (ii) If the temperature is raised by 1^(@)C , what energy must be supplied to the one molecule of the gas. Given Avogadro's number N = 6.023 xx 10^(23) mol^(-1) and Boltzmann'a constant k_(B)=1.38xx10^(-23)J molecule ^(-1)K^(-1) .