For a 1st order reaction, half life is 14 sec. The time required for the initial concentration to reduce to `(1)(8)` of its value is

For a first order reaction half life period t(1/2) is independent of initial concentration of its reacting species. What is meant by half life period of a reaction?

The rate constant for a first order reaction is 60 (s)^(-1) .How much time will it take to reduce the initial concentration of the reactant to its 1 / 16th value?

For a first order reaction half life period t(1/2) is independent of initial concentration of its reacting species. By deriving the equation for t(1/2) of first order reaction, prove that t_(1/2) is independent of initial concentration of its reacting species.

For first order reaction half-life period Is Independent of initial concentration and Inversely proportional to the rate constant.Give relation for the above In the case of zero order reaction.

The half life of a reaction is halved as the intial concentration of the rectant is doubled. The order of the reaction is

For first order reaction half-life period Is Independent of initial concentration and Inversely proportional to the rate constant. The slope of the line in a graph of logK Vs 1/T for a reaction is -5841. Calculate energy of activation for this reaction. [R=8.314JK^-1mol^-1] .

In a particular reaction the time required to complete half of the reaction was found to increase 16 times when the initial concentration of the reactant was reduced to one fourth what is the order of the reaction

A first order reaction takes 5 minutes for the initial concentration of 0.6 (mol) (L)^(-1) to become 0.4 (mol) (L)^(-1) . How long will it take for the initial concentration to become 0.3 (mol) (L)^(-1) ?

Show that for a first order reaction the time required for 99.9% of the reaction to take place is ten times that required for half of the reaction