A chemical reaction was carried out at 300 K and 280 K. The rate constants were found to be `k_1` and `k_2` respectively. Then

Write down the Arrhenius equation relating the rate constant of a reaction with temp. If K_1 and K_2 be the rate constants of reaction at temperature t_1^@C and t_2^@C respectively, Find out the relation between K_1 , K_2 , t_1 and t_2 . Give that the activation energy (E_a) of the reaction remains unchnaged within the temp. range mentioned. The rate constants of a reaction at 400K and 500K are 0.02 S^-1 and 0.085 S^-1 respectively. Determine the activation energy (E_a) of the reaction.

If the rate constants of a reaction at a specific temperature in presence and absence of a catalyst are given by K_(1) and K_(2) respectively , then-

A hydrogenation reaction is carried out at 500K.If the same reaction is carried out in the presence of a catalyst at the same rate temperature required is 400K. Calculate the activation energy of the reaction if the catalyst lowers the activation barrier by 20"kJ.mol"^(-1)

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

Two reactions , R_(1) and R_(2) have identical pre-exponential factors . Activation energy of R_(1) exceeds that of R_(2) by 10"kJ.mol"^(-1) . If k_(1) and k_(2) are rate constants for reaction R_(1) and R_(2) respectively at 300K, then In (K_(2)//k_(1)) is equal to (R=8.314"J.mol"^(-1).k^(-1)) -

For the reaction X_2Y_4(l) to 2 XY_2(g) at 300 K the values of DeltaU and DeltaS are 2 kCal and 20 Cal K^-1 respectively. The value of DeltaG for the reaction is

Write down the Arrhenius equation relating the rate constant of reaction with temperature , mentioning what the terms indicate. If k_(1) and k_(2) be the rate constant of a reaction at temperature t_(1)^(@)C and t_(2)^(@)C , respectively, find out the relation between k_(1) ,k_(2) and t_(1) and t_(2) . Given that the activation energy (E_(a)) of the reaction remains unchanged within the temperature range mentioned. The rate constant of a reaction at 400K and 500K are 0.02s^(-1) and 0.08s^(-1) respectively . Determine the activation energy (E_(a)) of the reaction.