The total pressure of the reaction mixture changes with time, as shown by the following data at 147.2°C: Time (min) Ptot (atm) Time (min) Ptot (atm) 0.2362 26 0.3322 0.2466 30 0.3449 6 0.2613 34 0.3570 10 0.2770 38 0.3687 14 0.2911 40 0.3749 18 0.3051 42 0.3801 20 0.3122 46 0.3909 22 0.3188 (a) Calculate the partial pressure of DTBP at each time from these data. Assume that at time 0, DTBP is the only gas present. (b) Are the data better described by a first-order or a second-order rate expression with respect to DTBP concentration?

The total pressure of the reaction mixture changes with time, as shown by the following data at 147.2°C: Time (min) Ptot (atm) Time (min) Ptot (atm) 0.2362 26 0.3322 0.2466 30 0.3449 6 0.2613 34 0.3570 10 0.2770 38 0.3687 14 0.2911 40 0.3749 18 0.3051 42 0.3801 20 0.3122 46 0.3909 22 0.3188 (a) Calculate the partial pressure of DTBP at each time from these data. Assume that at time 0, DTBP is the only gas present. (b) Are the data better described by a first-order or a second-order rate expression with respect to DTBP concentration?

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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