In a Arrhenius equation for a certain reaction, the values of `A and E_(a)` ( energy of activation)are `4xx10^(13)s^(-1)` and `98.6KJ mol^(-1)`, respectively. If the reaction of first order at, what temperature will its life periof be `10 min`.

In the Arrhenius equation for a centrain, the value of A and E_a (activation energy ) are 4 xx 10^(13)s^(-1) and 98.6 kJ mol^(51) respectively. If the reaction is of first order, at what termperature will its half-life preriod be 10 min ?

The rate constant for the first order decomposition of a certain reaction is described by the equation log k (s^(-1)) = 14.34 - (1.25 xx 10^(4)K)/(T) (a) What is the energy of activation for the reaction? (b) At what temperature will its half-life period be 256 min ?

The half-life periofs of a reaction at initial concentration 0.1 mol L^(-1) and 0.5 mol L^(-1) are 200s and 40 s , respectively. The order of the reaction is

For a certain reaction the values of Arrhenius factor and Activation energy are 4 x 10^13 collision/sec and 98.6KJ/mol at 303K. Calculate the rate constant if reaction is 1st order?( R=8.341mol^-1K^-1 )

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:

The rate constant, activation energy, and Arrphenius parameter of a chemical reaction are 3.0xx10^(-4)s^(-1), 104.4KJ mol^(-1) , and 6.0xx10^(14)s^(-1) , respectively. The value of rate constant as Trarroo is

The half life period for a reaction at initial concentration of 0.2 and 0.4 mol L ^(-1) are 100 s and 200 s respectively. The order of the reaction is

If a first order reaction has activation energy of 25000 cal and a frequency factor of 5 xx 10^(12) sec^(-1) , at what temperature will the reaction rate have a half-life of 1 minute