Subjects
Sections | |||
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Rate of Reaction | 11 mins | 0 completed | Learn Summary |
Average Rate of Reaction | 18 mins | 0 completed | Learn |
Arrhenius Equation | 16 mins | 0 completed | Learn Summary |
Rate Law | 38 mins | 0 completed | Learn Summary |
Integrated Rate Law | 52 mins | 0 completed | Learn Summary |
Collision Theory | 9 mins | 0 completed | Learn |
Additional Practice |
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Instantaneous Rate of Change |
Energy Diagram |
Catalyst |
Michaelis-Menten Equation |
Reaction Mechanism |
Identifying Reaction Order |
Consider the following reaction: A + B + C → D. The rate law for this reaction is as follows: Rate = k[A][C]2/[B]1/2
large{{
m{Rate}} = kfrac{{[{
m{A}}][{
m{C}}]^2 }}{{[{
m{B}}]^Suppose the rate of the reaction at certain initial concentrations of A, B, and C is 1.16 × 10−2 M/s.
What is the rate of the reaction if the concentrations of A and C are doubled and the concentration of B is tripled?