`K_(p)` for a reaction at `25^(@)C` is `10` atm. The activation energy for forward and reverse reactions are `12` and `20 kJ mol^(-1)` respectively. The `K_(c)` for the reaction at `40^(@)C` will be:

A reaction having equal energies of activation for forward and reverse reactions has

A reaction having equal energies of activation for forward and reverse reactions has

The activation energies of the forward and backward reactions in the case of a chemical reaction are 30.5 and 45.4kJ/mol respectively. The reaction is:

The activation energies of the forward and backward reactions in the case of a chemical reaction are 37.5 and 51.3 kJ/mole respectively The reaction is

For the reaction A+B hArr C , the rate constants for the forward and the reverse reactions are 4xx10^(2) and 2xx10^(2) respectively. The value of equilibrium constant K for the reaction would be

In a hypothetical reaction X to Y , the activation energy for the forward backward reactions are 15 and 9 kJ mol^(-1) respectively. The potential energy of X is 10 kJ mol^(-1) . Which of the following statement is/are correct? (i) The threshold energy of the reaction is 25 kJ mol^(-1) (ii) The potential energy of Y is 16 kJ mol^(-1) (iii) Heat of reaction is 6 kJ mol^(-1) The reaction is endothermic.

For the reversible reaction, A+BhArrC , the specific reaction rates for forward and reverse reactions are 1.25xx10^(3) "and" 2.75xx10^(4) respectively. The equilibrium constant for the reaction is:

The activation energy for the forward reaction X rarr Y is 60 kJ mol^(-1) and Delta H is -20 kJ mol^(-1) . The activation energy for the reverse reaction is

If the activation energies of the forward and backward reactions of a reversible reaction are E_(a)(f) and E_(a)(b) , respectively. The DeltaE of the reaction is ………..

A colliison between reactant molecules must occur with a certain minimum energy before it is effective in yielding Product molecules. This minimum energy is called activation energy E_(a) Large the value of activation energy, smaller the value of rate constant k . Larger is the value of activation energy, greater is the effect of temperature rise on rate constant k . E_(f) = Activation energy of forward reaction E_(b) = Activation energy of backward reaction Delta H = E_(f) - E_(b) E_(f) = threshold energy The activation eneries for forward and backward reactions in a chemical reaction are 30.5 and 45.4 kJ mol^(-1) respectively. The reaction is