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 :

When intitial concentration of a reactant is doubled in a reaction, its half -life period is not affected. The order of the reaction is

When initial concentration of the reactant is doubled, the half-life period of a zero order reaction

(A ) If in a zero order reaction, the concentration of the reactant is doubled, the half-life period is also doubled. (R ) For a zero order reaction, the rate of reaction is independent of initial concentration.

Half life periods for a reaction at initial concentration of 0.1 M and 0.01 M are 5 and 50 minutes respectively. Then the order of reaction is

A certain endothermic reaction: Ato Product, DeltaH=+ve proceeds ina sequence of three elementary steps with the rate constant K_(1),K_(2) and K_(3) and each one having energy of activation E_(1),E_(2) and E_(3) respectively at 25^(@)C . The observed rate constannt for the reaction is equal to K_(3)sqrt((K_(1))/(K_(2))) . A_(1),A_(2) and A_(3) are Arrhenius parameters respectively. The observed energy of activation for the reaction is

A certain endothermic reaction: Ato Product, DeltaH=+ve proceeds ina sequence of three elementary steps with the rate constant K_(1),K_(2) and K_(3) and each one having energy of activation E_(1),E_(2) and E_(3) respectively at 25^(@)C . The observed rate constannt for the reaction is equal to K_(3)sqrt((K_(1))/(K_(2))) . A_(1),A_(2) and A_(3) are Arrhenius parameters respectively. The observed Arrhebius parameter for the reaction is

The half life for a given reaction was doubled as the initial concentration of the reaction was doubled. The order of the reactio is