The specific reaction rates of a chemical reaction are `2.45xx10^(-5)sec^(-1)" at "273K` and `16.2 xx10^(-4) sec^(-1)` at 303 K. Calculate the activation energy.

For a reaction, E_(a)=0 and k=4.2xx10^(5)sec^(-1)" at "300K , the value of k at 310 K will be

Identify the reaction order from each of the following rate constant. (i)K= 2.3xx10^(-5)L mol^(-1) s^(-1) (ii)K= 3xx10^(-4) s^(-1)

Rate constant of a first order reaction is 0.45 sec^(-1) , calculate its half life.

The following values for the first order rate constant were obtained for a certain reaction : {:("Temp "(""^(@)C),kxx10^(-5)" sec"^(-1)),(25,3.46),(35,13.50):} Calculate the Arrhenius frequency factor and activation energy 'E_(a)' .

The rate constant of a reaction is 2xx10^(-3) min^(-1) at 300 K temperature .By increase in temperature by 10 K its value becomes doubl. Calculate energy of activation .Calculation the rate constant at 320 K.

The initial rate of a first order reaction is 5.2 xx 10^(-6)" mol.lit"^(-1).s^(-1) at 298 K. When the initial concentration of reactant is 2.6xx10^(-3)" mol.lit"^(-1) , calculate the first order rate constant of the reaction at the same temperature.

At 18^(@)C the mobilities of NH_(4)^(+) and CIO_(4)^(-) ions are 6.6 xx 10^(-4) and 5.7 xx 10^(-4)cm^(2)"volt"^(-1)sec^(-1) at infinite dilution. Calculate equivalent conductance of ammonium chlorate solution.

In I order reaction the initial concentration of the reactant as 0.05 mole/litre and the rate constant 1.5xx10^(-3)" min"^(-1) . What is the initial rate of the reaction.

The rate constant of a reaction is 2xx10^(-3)min^(-1) at 300 K temperature .By increase in temperature by 20K,its value becomes three time,then calculate the energy of activation of the reactuon .what will be its rate constant at 310 K temperature?