At a particular temperature, the average kinetic energies of `SO_(2)` molecule and `H_(2)` molecule are_____.

At a given temperature, the average kinetic energy of H_(2) molecules is 3.742 kJ*mol^(-1) . Calculate root mean square velocity of H_(2) molecule at this temperature.

According to the kinetic theory of gases, the average kinetic energies of O_(2) and N_(2) molecules are the same at a particular temperature. State whether the rms velocities of the molecules of the two gases at a given temperature will be the same or not.

Molar mass of UF_(6) is 176 times as high as that of H_(2) , yet at a particular temperature the average kinetic enegy of both is found to be the same-why?

IF k is Boltzmann constant and T is temperature, the average kinetic energy of each molecule of a gas will be

At what temperature will the average velocity of O_(2) molecules be equal to that of H_(2) molecules at 20K?

At which temperature does the kinetic energy of gas molecules become zero?

At a given temperature, molar concentration of N_(2) is greater than that of H_(2) in a mixture of N_(2) and H_(2) gases present in a closed containerr. I the average kinetic enegies of N_(2) and H_(2) molecules are xJ and yJ respectively then,-

Write down the expansion for pressure of an ideal gas according to kinetic theory of gases. Given that at absolute temperature T, the average kinetic energy of a molecule of an ideal gas is 3/2(R/N)T , where R is the universal gas constant and N is the Avogadro number Determine the equation for ideal gases from his.

Explain the structure of SO_(3) molecule.

Which one of SO_(2) and SO_(3) molecules is polar? Why?