The gases carbon-monoxide (CO) and nitrogen at the same temperature have kinetic energies `E_(1)` and `E_(2)` respectively. Then

Two reactions A rarr products and B rarr products have rate constants k_(a) and k_(b) respectively at temperature T and activation energies are E_(a) and E_(b) respectively. If k_(a) gt k_(b) and E_(a) lt E_(b) and assuming the freuency factor A in both the reactions are same then

Two different gases at the same temperature have the same average kinetic energy.

Two reaction : X rarr Products and Y rarr Products have rate constants k_(1) and k_(2) at temperature T and activation energies E_(1) and E_(2) , respectively. If k_(1) gt k_(2) and E_(1) lt E_(2) (assuming that the Arrhenius factor is same for both the Products), then (I) On increaisng the temperature, increase in k_(2) will be greater than increaisng in k_(1) . (II) On increaisng the temperature, increase in k_(1) will be greater than increase in k_(2) . (III) At higher temperature, k_(1) will be closer to k_(2) . (IV) At lower temperature, k_(1) lt k_(2)

Two bodies of masses m and 2m have same momentum. Their respective kinetic energies E_(1 ) and E_(2) are in the ratio

O_(2) is 16 times heavier that H _(2). If at same temperatue the O_(2) molecules have average kinetic energy E then at the same temperature the average kinetic energy of H _(2) molecules will be-