Half-life (`t_(1//2)`) and completion time (T) of the above reaction (`Ato2B`) are :

For the reaction AtoB , for which graph between half life (t_(1//2)) and initial concentration (a) of the rectant is given below Hence graph between -(d[A])/(dt) and time will be:

For a reaction R rarr P , half -life (t_(1//2)) is observed to be independent of the initial concentration of reactants. What is the order of reaction ?

For a partiocular reaction with initial conc. Of the rectents as a_(1) and a_(2) , the half-life period are t_(1) and t_(2) respectively. The order of the reaction (n) is given by :

For a first order reaction, time taken for half of the reaction to complete is t_(1)and 3/4 of the reaction to complete is t_(2) . How are t_(1)and t_(2) related?

For the homogenous gaseous reaction Ato3B , if pressure after time t was P_(t) and after completion of reaction, pressure was P_(oo) then select correct relation

Longer the reaction life time, faster is the reaction. T or F

The time t_1 and t_2 are time period for 1/3 rd and 2/3 rd completion of two first order reactions If the half lives are in the ratio 10:3. then the ratio of t_1 and t_2 will be

Half life ( t_1 ) of the first order reaction and half life ( t_2 ) of the 2 ""^(nd) order reaction are equal. If initial concentration of reactants in both reaction are same then ratio of the initial rate of the reaction

Nuclei of a radioactive element X are being produced at a constant rate K and this element decays to a stable nucleus Y with a decay constant lambda and half-life T_(1//2) . At the time t=0 , there are N_(0) nuclei of the element X . The number N_(X) of nuclei of X at time t=T_(1//2) is .

The relation between half - life period (t_(1//2)) and disintegration constant (lambda) is expressed as