In a zero-order reaction for every `10^@` rise of temperature, the rate is doubled. If the temperature is increased from `10^@ C` to `100^@C` , the rate of the reaction will become

Temperature coefficient of a reaction is ‘2. When temperature is increased from 30^@C to 90^@C , the rate of reaction is increased by

The rate of chemical reaction double for every 10^@С rise of temperature if the temperature is raised by 50^@C , the rate of the reaction increases by

The rate constant for the first order reactior becomes three times when the temperatur is raised from 20^@ C to 50^@ C. Calculate the energy of activation for the reaction.

The rate of chemical reaction becomes double for every 10^@ rise in temperature because of

The rate of a particular reaction triples, when temperature changes from 50^(@)C to 100^(@). Calculate the activation energy of the reaction.

The rate of particular reaction doubles when temperature changes from 27^(@)C to 37^(@)C. Calculate the energy of activation of such a reaction.

Arrhenius studies the effect of temperature on the rate of a reaction and postulted that rate constant varies with temperature exponentially as k=Ae^(E_(a)//RT) . Thuis method is generally used for finding the activation energy of a reaction. Keeping temperature constant, the effect of catalyst on the activation energy has also been studied. If the rate of reaction doubles for 10^(@)C rise of temperature form 290K to 300K, the activation energy of the reaction will be approximately: a) 40 Kcal mol^(-1) b) 12 Kcal mol^(-1) c) 60 Kcal mol^(-1) d) 70 Kcal mol^(-1)