In the reaction,
`3BrO^(-)rarrBrO_(3)^(-)+2Br^(-)` (aqueous alkaline medium at `80^(@)C`) the vlaue of the rate constant in the rate law in terms of `--(d)/(dt)[BrO^(-)]` is `0.056 L "mol"^(-1)s^(-1)`. What will be the rate constant when the law is stated in terms of `(d)/(dt)[BrO^(-)]`?

For the reaction: aA + bB rarr cC+dD Rate = (dx)/(dt) = (-1)/(a)(d[A])/(dt) = (-1)/(b)(d[B])/(dt) = (1)/( c)(d[C])/(dt) = (1)/(d)(d[D])/(dt) For reaction 3BrO^(ɵ) rarr BrO_(3)^(ɵ) + 2Br^(ɵ) , the value of rate constant at 80^(@)C in the rate law for -(d[BrO^(ɵ)])/(dt) was found to be 0.054 L mol^(-1)s^(-1) . The rate constant (k) for the reaction in terms of (d[BrO_(3)^(ɵ)])/(dt) is

In the reaction A+2B to 3C + 2D , the rate of disappearance of B is 1 xx 10^(-2) mol L^(-1)s^(-1) . What will be the rate of the reaction and rate of change in concentration of A and C?

The rate law for the reaction 2A to products is given by : rate =9.0 xx10^(-5) A mol L^(-1) S^(-1) . What is the decompostion rate when A=0.250 mol / litre ?

In the reaction, A to B , the value of the rate constant was found to be 1.0 xx 10^(-2) mol^(-1) L s^(-1) . What is the order of the reaction? How will the catalyst affect of the value of the rate constant?

The rate of the first order Ararr Products, is 7.5xx0^(-4) "mol" L^(-1)s^(-1) , when the concentration of A is 0.2 mol L^(-1) . The rate constant of the reaction is :

The rate of the reaction A to Products is given by (dx)/(dt)=k[A]^(1//2) . The units of the rate constants are: