Find the rate constant , at 298 K temperature of a chemical reaction with rate law, rate = `k[X][Y]^2`. The rate of reaction is found to be `0.40 M//s` and [X] = 0.6 M and [Y] = 0.39 M.

The rate law for the reaction A +2B to products is : rate = K [A] [B] ^(2) Rate of the reaction at 30 ^(@) C is found to be 0.125 M/s , when [A]=2.0 M and [B]=0.4 M . The rate constant k at this temperature is ________ M^(-2) s^(-1) .

The reaction F_2(g) + 2ClO_2(g) is first order in each of the reactants. The rate of the reaction in each of the reactants. The rate of the reaction is 4.88xx10^(-4) M//s when [F_2] = 0.015M and [ClO_2] = 0.025 M . Calculate the rate constant of the reaction.

Find the rate constant of the following first order reaction A rarr B , if the rate of reaction is 6.4xx10^(-4)Ms^(-1) and active mass of A is 0.20 M at room temperature.

The rate law for the reaction RCl + NaOH(aq) rarr ROH + NaCl is given by Rate = k[RCl] . The rate of the reaction will be

A chemical reaction was carried out at 300 K and 280 K. The rate constants were found to be K_(1) and K_(2) respectively. Then

The differential rate law of a reaction is given by (dx)/(dt)=k[A]^(1.5)[B]^(-0.5) The overall order of the reaction is?

The rate constant of a reaction is 2.1 xx 10^(-2) litre mol^(-1)s^(-1) . The order of reaction is

What is the order of a reaction which has a rate expression, i.e. rate = k[A]^(3//2)[B]^(-1) ?

The rate law for the reaction A+B rarr C is found to be rate = k [A]^2 [B] . The rate constant of the reaction at 25^@C is 6.25 M^(-2)S^(-1) . What is the rate of reaction, When [A] = 0.1 mol.dm^(-3) and [B] = 0.2 mol.dm^(-3) ?

For a reaction A+2B rarr C , the rate law is, rate= kxx[A]xx[B]^2 . If the rate constant of the reaction is 3.74xx10^(-2) M^(-2)s^(-1) , calculate the rate of the reaction when the concentrations of A and B are 0.126 M and 0.142 M respectively.