For an elementary reaction , `X(g)toY(g)+Z(g)`
the half life period is 10 min. In what period of time would the concentration of X be reduced to 10% of original concentration?

The half life period of a zero order reaction is independent of initial concentration

The integrated rate equations can be fitted with kinetic data to determine the order of a reaction. The integrated rate equations for zero, first and second order reactions are : Zero order : [Al =-kt+ [A]_0 First order : log [A] = -(kt)/2.303 + log [A]_0 Second order : 1/([A])=kt+1/[A]_0 These equations can also be used to calculate the halt life periods of different reactions, which give the time during which the concentration of a reactant is reduced to half of its initial concentration, i.e, at time t_(1//2), [A] = [A]_0//2 Answer the following (1 to 5) question : The decomposition of nitrogen pentoxide : 2N_2O_5(g) rarr 4NO_2(g) + O_2(g) is a first order reaction. The plot of log [N_2O_5] vs time (min) has slope = - 0.01389. The rate constant k is

The integrated rate equations can be fitted with kinetic data to determine the order of a reaction. The integrated rate equations for zero, first and second order reactions are : Zero order : [Al =-kt+ [A]_0 First order : log [A] = -(kt)/2.303 + log [A]_0 Second order : 1/([A])=kt+1/[A]_0 These equations can also be used to calculate the halt life periods of different reactions, which give the time during which the concentration of a reactant is reduced to half of its initial concentration, i.e, at time t_(1//2), [A] = [A]_0//2 Answer the following (1 to 5) question : The rate for the first order reaction is 0.0069 mol L^-1 mi n^-1 and the initial concentration is 0.2 mol L^-1 . The half life period is

The half life period of a first order reaction is 3 minutes. Calculate the time taken to complete 75% of the initial concentration.

Show that half life period of a first order reaction does not depend upon the initial concentration of reactants.

For the first order reaction, the half life period is (if k is rate constant and a is initial concentration),

For any acid catalysed reaction, Aoverset(H^(+))rarrB half- life period is independent of concentration of A at given pH. At definite concentration of A half- time is 10min at pH=2 and half- time is 100 min at pH=3. If the rate law expression of reaction is r=k[A]^(x)[H^(+)]^(y) then calulate the value of (x+y).

If half life period of a first order reaction is 32 min, then the time taken for concentration to be reduced to 1/16 th is ............ .

Express the relation between the half life period of a reactant and its initial concentration for a reaction of nth order.

The half life period of a substance is 60 min at a certain initial concentration. When the concentration is reduced to one half of the initial concentration, the half life period is found to be 30 min. Calculate the order of the reaction.