(a) From the rate constant k1 = 3.66 x 10^-3 s^-1 compute the instantaneous rate (r1) of the first-order decomposition of 2.30 M H2O2 (aq).
(in mol L^-1 s^-1)
(b) From the rate constant k2 = 1.24 x 10^-2 L mol^-1 s^-1 compute the instantaneous rate (r2) of the second-order decomposition of 2.04 M C8H9O3 (l).
(in mol L^-1 s^-1)

Reaction Rates
(a) From the rate constant k1 = 3.66 x 10^-3 s^-1 compute the instantaneous rate (r1) of the first-order decomposition of 2.30 M H2O2 (aq).
(in ...

Solution Summary

Reactions and Rate Equation problems are solved with full working.

... Please see the attached file. It detemines the rate constant, rate of reaction, and the order of the reaction. The solution is detailed and has a '5/5' rating. ...

Rate Constant for a Second Order Reaction. The rate constant for the second-order reaction is 0.80/M*s at 10 degrees C. 2NOBr(g) goes to 2NO(g) + Br2 (g). ...

... This is called the rate equation, with the sum of the ... x and y referred to as the order of the reaction. ... level to kinetics, the order of the reactions chosen is ...

... since it only tells you about how quickly it can catalyze the reaction, and it omits ... From this simplified equation, what is the rate constant that describes ...

... PART ONE: What is the order of the reaction? ... 2) for zero order, first order, and second order reactions. ... o=concentration of X at time zero; k = rate constant. ...

... substances that are added to make reactions go faster ... the activation energy for this reaction and the ... that it would increase the rate constant and therefore ...

... are min -1 . 7. How do think the addition of a small amount of acid would affect your reaction rate? PART II:DETERMINING THE RATE CONSTANT FOR MUTAROTATION. ...