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 1.8xx10^3 min^(-1) . What is the order of the reaction?

For a fist order reaction specific reaction rate is 6.3xx10^(-4) sec^(-1) . If the initial concentration be 0.5 mole/lit then find the rate after 30 minute. For a second order reaction with initial concentration of reactant be 0.125 (M) and specific reaction rate 4.2xx10^(-3) mol^(-1) lit sec^(-1) . Then find half life of the reaction.

How long will it take for a zero order reaction to reach completion if the initial concentration of the reactant is 'a' and its rate constant is 'k' ? What is the half-life of this reaction?

The rate of a reaction is 1.2xx10^-3 L mol^-1s^-1 , What is the order of the reaction?

How does the initial concentration of the reactant in a first order reaction very with time ?

For a zero order reaction the initial concentration of the reactant is 1.386 mol L^(-1) . If the half life period of the same be 20S then what. Shall be the concentration of the reaction after 30S.

plot a graph of reaction -rate vs concentration of the reactant for a fist order reaction.

A first order reaction is found to have a rate constant, k=5.5xx10^(-14)s^(-1) . Find the half-life of the reaction.

The initial concentration of the reactant in a zero order reaction is 1.386 "mol.L"^(-1) The half-life of the reaction is 20s. Calculate: the rate constant

For a zero order reaction, the initial concentration of the reactant =[A]_(0) and after time 't' from the initiation of the reaction, the concentration =[A] . What will be the nature of the graph of '[A]' vs 't,