The activation energy for most of the reactions is approximately `"50 kJ mol"^(-1)`. The value of temperature coefficient for such reactions is

The activation energy for most of the reaction is approximately 50 kJ mol^(-1) The value of temperature coefficient for such reaction will be

A catalyst lower the activation energy of a reaction from 200KJ "mol"^(-1) to 100 KJ "mol"^(-1) . The temperature at which the rate of uncatalysed reaction will be same as the rate of catalysed reaction at 25^(@)C is (assuming Arrheneous consant A to be same in both the case)

In an exothermic reaction X rarr Y , the activation energy is 100 kJ mol^(-1) of X . The enthalphy of the reaction is -140 kJ mol^(-1) . The activation energy of the reverse reaction Y rarr X is

Assuming the energy of activation for most of the reactions is 52 kJ, what conclusions you draw about the effect of temperature on the rate of a reaction?

A catalyst lowers the activation energy of a reaction form 20 kJ mol^(-1) to kJ mol^(-1) . The temperature at which the uncatalyzed reaction will have the same rate as that of the catalyzed at 27^(@)C is

The activation energy of exothermic reaction ArarrB is 80 kJ "mol"^(-1) . The heat of reaction is 200 kJ "mol"^(-1) . The activation energy for the reaction Brarra ( in kJ/mol) will be :

For A+B rarr C+D, DeltaH=-20 kJ mol^(-1) , the activation energy of the forward reaction is 85 kJ mol^(-1) . The activation energy for backward reaction is …… kJ mol^(-1) .