The rate expression for the reaction between H2O2 and KI is: rate = k[H2O2] m [KI]n where: k = rate constant m = order of reaction with respect to H2O2 n = order of reaction with respect to KI Table 2: Molarity of H2O2 and KI and Reaction Rate Trial H2O2 Concentration, M KI Concentration, M Reaction Rate (Reciprocal Slope) 1 0.29 M 0.40 M 14.08 2 0.29 M 0.20M 25 3 0.023 M 0.40 M 20
The rate expression for the reaction between H2O2 and KI is: rate = k[H2O2] m [KI]n where: k = rate constant m = order of reaction with respect to H2O2 n = order of reaction with respect to KI Table 2: Molarity of H2O2 and KI and Reaction Rate Trial H2O2 Concentration, M KI Concentration, M Reaction Rate (Reciprocal Slope) 1 0.29 M 0.40 M 14.08 2 0.29 M 0.20M 25 3 0.023 M 0.40 M 20
Chemistry: Principles and Practice
3rd Edition
ISBN:9780534420123
Author:Daniel L. Reger, Scott R. Goode, David W. Ball, Edward Mercer
Publisher:Daniel L. Reger, Scott R. Goode, David W. Ball, Edward Mercer
Chapter13: Chemical Kinetics
Section: Chapter Questions
Problem 13.98QE
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The rate expression for the reaction between H2O2 and KI is:
rate = k[H2O2]
m [KI]n
where: k = rate constant
m = order of reaction with respect to H2O2
n = order of reaction with respect to KI
Table 2: Molarity of H2O2 and KI and Reaction Rate
Trial |
H2O2 Concentration, M |
KI Concentration, M |
Reaction Rate |
1 |
0.29 M |
0.40 M |
14.08 |
2 |
0.29 M |
0.20M |
25 |
3 |
0.023 M |
0.40 M |
20 |
please help me with this part and please show me all steps
- Order with respect to H2O2:
- Order with respect to KI:
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