An equilibrium reaction is endothermic if `K_(1)` and `K_(2)` are the equilibrium constants at `T_(1)` and `T_(2)` temperatures respectively and if `T_(2)` is greater than `T_(1)` then

If K _(1) and K_(2) are the rate constants at temperatures T _(1) and T_(2) respectively and E _(a) is the activatino energy, then :

If k_(1) and k_(2) are rate constants at temperatures T_(1) and T_(2) respectively then according to Arrhenius equation :

X_(1) and X_(2) are susceptbiltity of a paramagnetic material at temperature T_(1) K and T_(2)K respectively , then

Two spherical black bodies of radii r_(1) and r_(2) and with surface temperatures T_(1) and T_(2) respectively, radiate the same power. Then r_(1)//r_(2) must be equal to

For a reaction : A rarr B If k_(1) and k_-1 are the rate constants for the forward and the backard reactions respectively then equilibrium constant of the reaction is given as :

For endothermic equilibrium, increase in temperature changes the K_(eq) value as

If the equilibrium constants of following reactions are 2A hArr B is K_(1) and B hArr2A is K_(2) , then

The activation energies of two reactions are E_(1) and E_(2) (E_(1) gt E_(2)) . If the temperature of the system is increased from T_(1) to T_(2) , the rate constant of the reaction changes from k_(1) to k_(1) in the first reaction and k_(2) to k_(2) in second reaction predict which of the following expression is correct ?