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Consider the hypothetical reaction A+B+ 2C 2D + 3E where the rate law is Δ[Α] At = Rate = = An experiment is carried out where [A]o 1.0 × 10-² M, [B]o 3.0 M, and [C]o = 2.0 M. The reaction is started, and after 6.0 seconds, the concentration of A is -3 3.8 × 10-³ a. M. = k[A][B]² = k= Calculate the value of k for this reaction. L² mol 2S-1 b. Calculate the half-life for this experiment. Half-life = S c. Calculate the concentration of A after 19.0 seconds. Concentration = M d. Calculate the concentration of C after 19 seconds. Concentration = M

Consider the hypothetical reaction A+B+ 2C 2D + 3E where the rate law is Δ[Α] At = Rate = = An experiment is carried out where [A]o 1.0 × 10-² M, [B]o 3.0 M, and [C]o = 2.0 M. The reaction is started, and after 6.0 seconds, the concentration of A is -3 3.8 × 10-³ a. M. = k[A][B]² = k= Calculate the value of k for this reaction. L² mol 2S-1 b. Calculate the half-life for this experiment. Half-life = S c. Calculate the concentration of A after 19.0 seconds. Concentration = M d. Calculate the concentration of C after 19 seconds. Concentration = M

Chemistry by OpenStax (2015-05-04)
Chemistry by OpenStax (2015-05-04)
1st Edition
ISBN:9781938168390
Author:Klaus Theopold, Richard H Langley, Paul Flowers, William R. Robinson, Mark Blaser
Publisher:Klaus Theopold, Richard H Langley, Paul Flowers, William R. Robinson, Mark Blaser
Chapter12: Kinetics
Section: Chapter Questions
Problem 25E: Nitrogen monoxide reacts with chlorine according to the equation: 2NOCI(g)2NOCI(g) The following...
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Consider the hypothetical reaction A + B + 2C 2D + 3E where the rate law is Δ[Α] At Rate = = k[A] [B]² An experiment is carried out where [A] = 1.0 × 10-² M, = -3 3.8 × 10-³ M. = [Blo 3.0 M, and [C]o = 2.0 M. The reaction is started, and after 6.0 seconds, the concentration of A is k= a. Calculate the value of k for this reaction. -2 L² mol s b. Calculate the half-life for this experiment. Half-life = S c. Calculate the concentration of A after 19.0 seconds. Concentration = M d. Calculate the concentration of C after 19 seconds. Concentration = M
Transcribed Image Text:Consider the hypothetical reaction A + B + 2C 2D + 3E where the rate law is Δ[Α] At Rate = = k[A] [B]² An experiment is carried out where [A] = 1.0 × 10-² M, = -3 3.8 × 10-³ M. = [Blo 3.0 M, and [C]o = 2.0 M. The reaction is started, and after 6.0 seconds, the concentration of A is k= a. Calculate the value of k for this reaction. -2 L² mol s b. Calculate the half-life for this experiment. Half-life = S c. Calculate the concentration of A after 19.0 seconds. Concentration = M d. Calculate the concentration of C after 19 seconds. Concentration = M
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