FOR NTH ORDER OF REACTION

Acidic Hydrolysis OF Ester || Inversion OF Cane Sugar || nth Order OF Reaction

Second Order Reaction || nth Order Reaction

Characteristics OF First Order Reaction || kinetics OF Second Order Reaction || kinetics OF nth Order Reaction

Kinetics OF Second Order Reactions and nth Order Reactions||Calculation OF First Order Rate Constant in terms OF Pressure

The order of reaction is an experimentally determined quanity. It may be zero, poistive, negative, or fractional. The kinetic equation of nth order reaction is k xx t = (1)/((n-1))[(1)/((a-x)^(n-1)) - (1)/(a^(n-1))] …(i) Half life of nth order reaction depends on the initial concentration according to the following relation: t_(1//2) prop (1)/(a^(n-1)) ...(ii) The unit of the rate constant varies with the order but general relation for the unit of nth order reaction is Units of k = [(1)/(Conc)]^(n-1) xx "Time"^(-1) ...(iii) The differential rate law for nth order reaction may be given as: (dx)/(dt) = k[A]^(n) ...(iv) where A denotes the reactant. For a reaction: I^(ɵ) + OCl^(ɵ) rarr IO^(ɵ) + Cl^(ɵ) in an aqueous medium, the rate of the reaction is given by (d[IO^(ɵ)])/(dt) = k([I^(ɵ)][OCl^(ɵ)])/([overset(ɵ)(OH)]) The overall order of the reaction is

The order of reaction is an experimentally determined quanity. It may be zero, poistive, negative, or fractional. The kinetic equation of nth order reaction is k xx t = (1)/((n-1))[(1)/((a-x)^(n-1)) - (1)/(a^(n-1))] …(i) Half life of nth order reaction depends on the initial concentration according to the following relation: t_(1//2) prop (1)/(a^(n-1)) ...(ii) The unit of the rate constant varies with the order but general relation for the unit of nth order reaction is Units of k = [(1)/(Conc)]^(n-1) xx "Time"^(-1) ...(iii) The differential rate law for nth order reaction may be given as: (dx)/(dt) = k[A]^(n) ...(iv) where A denotes the reactant. For a reaction: I^(ɵ) + OCl^(ɵ) rarr IO^(ɵ) + Cl^(ɵ) in an aqueous medium, the rate of the reaction is given by (d[IO^(ɵ)])/(dt) = k([I^(ɵ)][OCl^(ɵ)])/([overset(ɵ)(OH)]) The overall order of the reaction is

Law Of Mass Action |Characteristics Of Rate Reaction|Difference Between Rate Of Reaction And Reaction Rate Constant|Rate Law Expression|Order Of Reaction|Example Of First Order Reaction|Example Of Second Order Reaction|Example Of Third Order Reaction|Reaction Of Fractional Order Reaction|Zero Order Reaction

Recap|Examples|Second Order Reaction|Nth Order Reaction|OMR

Questions|Reaction Time |Distance Travelled In nth Second

Class Illustrations with Short Tricks OF First Order Kinetic||Second Order Kinetics||nth Order Kinetics|| Discussion OF DPP 3