RunReactantsTemperature (Celsius)Initial Rate (kPa/s) 110 ml 3% H2O2 = 5ml 0.5M KI23.00.079825ml 3% H2O2 = 5ml 0.5 M KI23.00.039135ml 3% H2O2 + 10ml 0.5 M KI23.00.0794 RunInitial Rate (mol/L*s)[H2O2] after mixing[I-] after mixing13.24 x 10^-50.147 M0.0417 M21.59 x 10^-50.0733 M0.417 M33.23 x 10^-50.0733 M0.0833 M Calculate the rate law for the reaction

We have to find the rate law for the reaction, fir which we need to calculate order for individual…

Run Initial Rate (mol/L*s) [H2O2] after mixing [I-] after mixing 1 3.24 x 10^-5 0.147 M 0.0417 M 2 1.59 x 10^-5 0.0733 M 0.417 M 3 3.23 x 10^-5 0.0733 M 0.0833 M Calculate the rate law for the reaction

Run Initial Rate (mol/L*s) [H2O2] after mixing [I-] after mixing 1 3.24 x 10^-5 0.147 M 0.0417 M 2 1.59 x 10^-5 0.0733 M 0.417 M 3 3.23 x 10^-5 0.0733 M 0.0833 M Calculate the rate law for the reaction

Chemistry & Chemical Reactivity

10th Edition

ISBN:9781337399074

Author:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel

Publisher:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel

Chapter11: Intermolecular Forces And Liquids

Section11.6: Properties Of Liquids

Problem 1.2ACP

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Question

Run	Reactants	Temperature (Celsius)	Initial Rate (kPa/s)
1	10 ml 3% H2O2 = 5ml 0.5M KI	23.0	0.0798
2	5ml 3% H2O2 = 5ml 0.5 M KI	23.0	0.0391
3	5ml 3% H2O2 + 10ml 0.5 M KI	23.0	0.0794

Run	Initial Rate (mol/L*s)	[H2O2] after mixing	[I-] after mixing
1	3.24 x 10^-5	0.147 M	0.0417 M
2	1.59 x 10^-5	0.0733 M	0.417 M
3	3.23 x 10^-5	0.0733 M	0.0833 M

Calculate the rate law for the reaction

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