II.1- Decomposition of hydrogen peroxide, a first-order kinetic? The kinetic study of the reaction of decomposition of hydrogen peroxide H2O2 in aqueous solution, into water and dioxygen, at 300 K, leads to the experimental results that have been assembled in the following table. t (min) 4 12 30 46.2 [H2O2] (mol L-') 1 0.887 0.698 0.407 0.250 Recall the differential expression of the rate law for a first-order kinetic. Deduce the expression of the integrated form of this equation (demonstrate the integrated rate law).

II.1- Decomposition of hydrogen peroxide, a first-order kinetic? The kinetic study of the reaction of decomposition of hydrogen peroxide H2O2 in aqueous solution, into water and dioxygen, at 300 K, leads to the experimental results that have been assembled in the following table. t (min) 4 12 30 46.2 [H2O2] (mol L-') 1 0.887 0.698 0.407 0.250 Recall the differential expression of the rate law for a first-order kinetic. Deduce the expression of the integrated form of this equation (demonstrate the integrated rate law).

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Question

II.1- Decomposition of hydrogen peroxide, a first-order kinetic?
The kinetic study of the reaction of decomposition of hydrogen peroxide H2O2
aqueous solution,
into water and dioxygen, at 300 K, leads to the experimental results that have been assembled in the
following table.
t (min)
4
12
30
46.2
[H2O2] (mol L'')
0.887
0.698
0.407
0.250
Recall the differential expression of the rate law for a first-order kinetic. Deduce the
expression of the integrated form of this equation (demonstrate the integrated rate law).

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