Determining rate law from time and concentration data. (Use the integrated rate laws andEXCEL graph to get the order).The rate of this rxn depends only on NO2:NO2 + CONO + CO2The following data were collected.[NO2] (mol/L)0.500Time (s)12000.44430000.38145000.34090000.250180000.174what is Order with respect to NO2:what is Rate law for this reactionwhat is [NO2] at 2.7 x 104 sec after the start of the rxn (Using the slop value).

We are given experimental data for the reaction. In order to find the order of reaction from…

Determining rate law from time and concentration data. (Use the integrated rate laws and EXCEL graph to get the order). The rate of this rxn depends only on NO2: NO2 + CO – NO + CO2 The following data were collected. Time (s) [NO2] (mol/L) 0.500 1200 0.444 3000 0.381 4500 0.340 9000 0.250 18000 0.174 what is Order with respect to NO2: what is Rate law for this reaction what is [NO2] at 2.7 x 104 sec after the start of the rxn (Using the slop value).

Determining rate law from time and concentration data. (Use the integrated rate laws and EXCEL graph to get the order). The rate of this rxn depends only on NO2: NO2 + CO – NO + CO2 The following data were collected. Time (s) [NO2] (mol/L) 0.500 1200 0.444 3000 0.381 4500 0.340 9000 0.250 18000 0.174 what is Order with respect to NO2: what is Rate law for this reaction what is [NO2] at 2.7 x 104 sec after the start of the rxn (Using the slop value).

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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