Calculate the time taken to reduce `1/16` th of the original amount if rate constant is given `60s^(-1)`

Calculate the half life of the first order reaction from their rate constant given as 100 s^(-1) (1) 100 s^(-1) (2) 6.93 xx 10^(-2)s (3) 0.693 xx 10^(-3)s (4) 6.93 xx 10^(-3) s (ii) Calculate the half life of the first order reaction from their rate constant given as 0.5 min^(-1) (1) 1.386 min, (2) 0.3465 min (3) 0.231 min, (4) 1.0395 min

Calculate the half life of the first order reaction from their rate constant given as a) 200s^(-) b) 2min^(-1) c) 4 "year"^(-1) .

The capacitance of a parallel plate capacitor is 16 mu F . When a glass slab is placed between the plates, the potential difference reduces to 1/8th of the original value. What is dielectric constant of glass ?

A reaction with respect to X is zero order till the concentration is reduced to half of initial concentration.Then this reaction become first order with respect to it.If the value of rate constants for the zero order and first order are equal to k (in magnitude), then find the time taken to reduce the concentration of X to 1/16th of its original concentration X_0 .

After 2 hr the radioactive substance becomes 1/16 th of original amount. The t_(1//2) in minutes is

After 2 hours the amount of a certain radioactive substance reduces to 1//16^(th) of the original amount (the decay process follows first-order kinetics). The half-life of the radioactive substance is

For given first order reaction, the reactant reduced to 1/4th its initial value in 10 min. The rate constant of the reaction is

60% of a first order reaction was completed in 60 min . The time taken for reactants to decompose to half of their original amount will be

A radioactive isotope decays to such a rate that after 96 min only 1/8th of the original amount remains. The value t_(1//2) of this nuclide is