The inversion of cane sugar proceeds with half life of `500 min` at `pH 5` for any concentration of sugar. However, if `pH = 6`, if the half life changes to `50 min`. The rate law expression for the sugar inversion can be written as

The inverison of cane sugar proceeds with half life of 500 min at pH 5 for any concentration of sugar. However, if pH = 6 , if the half life changes to 50 min . The rate law expresison for the sugar inverison can be written as

When inversion of sucrose is studied at pH = 5, the half-life period is always found to be 500 minutes irrespective of any initial concentration but when it is studied at pH = 6, the half-life period is found to be 50 minutes. Derive the rate law expression for the inversion of sucrose.

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).

The rate constant of a zero order reaction is 1.5 times 10^–2 mol l^–1 min^–1 at 0.5 M concentration of the reactant. The half life of the reaction is

The rate constant for a first order reaction is 5.0×10^(−4)s^(−1) .If initial concentration of reactant is 0.080 M, what is the half life of reaction?

Calculate the half life of the reaction ArarrB , when the initial concentration of A is 0.01 "mol" L^(-1) and initial rate is 0.00352 "mol" L^(-1)"min"^(-1) . The reaction is of the first order

The inversion of a sugar follows first order rate equation which can be followed by noting the change in the rotation of the plane of polarization of light in the polarimeter. If r_(oo), r_(f) and r_(0) are the rotations at t = oo, t = t , and t = 0 , then the first order reaction can be written as

The inversion of a sugar follows first order rate equation which can be followed by noting the change in the rotation of the plane of polarization of light in the polarimeter. If r_(oo), r_(f) and r_(0) are the rotations at t = oo, t = t , and t = 0 , then the first order reaction can be written as (a) k = (1)/(t)log.(r_(1)-r_(oo))/(r_(o) -r_(oo)) (b) k = (1)/(t)ln.(r_(0)-r_(oo))/(r_(t)-r_(o)) (c) k = (1)/(t)ln.(r_(oo)-r_(o))/(r_(oo)-r_(t)) (d) k = (1)/(t)ln.(r_(oo)-r_(t))/(r_(oo)-r_(0))

The half-life periof of a substance is 50 min at a certain initial concentration. When the concentration is reduced to one-half of its initial concentration, the half-life periof is found to be 25 min . Calculate the order of reaction.

For the first order reaction given below select the set having correct statements 2N_(2)O_(5)(g) rarr 4NO_(2)(g) + O_(2)(g) (1) The concentration of the reactant decreases exponentially with time (2) the reaction proceeds to 99.6 % completion in eight half life duration (3) the half life of the reaction depends on the intial concentration of the reactant (4) the half life of the reaction decrease with increasing temperature