For the first order reaction `ArarrB+C` , carried out at `27^(@)C` if `3.8xx10^(-16)%` of the reactant molecules exists in the activated state, the `E_(a)` (activation energy) of the reaction is :

A first order reaction is 50% completed in 20 minutes at 27^(@) C. The energy of activation of the reaction is-

A first order reaction has very high value of activation energy. T or F

A first order reaction is 50% completed in 30 min at 27^(@)C and in 10 min at 47^(@)C . Calculate the reaction rate constants at 27^(@)C and the energy of activation of the reaction in kJ mol^(-1) .

The half time of a first order reaction is 6.93 xx 10^(-3) min at 27^(@)C . At this temeprature, 10^(-8)% of the reactant molecules are able to cross-over the energy barrier. The pre-exponential factor A in the Arrhenius equation is equal to

A reaction is carried out at 600 K . If the same reaction is carried out in the presence of catalyst at the same rate and same frequency factor, the temperature required is 500 K . What is the activation energy of the reaction, if the catalyst lowers the activation energy barrier by 20 KJ//mol ?

When a biochemical reaction is carried out in laboratory from outside of human body in the absence of enzyme, the rate of reaction obtained is 10^(-6) times, then activation energy of the reaction in the presence of enzyme is (a) (6)/(RT) (b)P is required (c)Different forms E_(a) obtained in laboratory (d)cannot say any things

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

A+B rarr C, DeltaH = +60 kJ/mol E_(a_f) is 150 kJ. What is the activation energy for the backward reaction ?

A first order reaction is 50% complete in 30 min at 27^(@)C . Calculate the rate constant of the reaction at 27^(@)C .

A first order reaction is 50% complete in 30 minutes at 27^@ C. Calculate the rate constant of the reaction at 27^@ C.