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Science Chemistry Chemistry with Access Code, Hybrid Edition

Two isomers (A and B) of a given compound dimerize as follows: 2A → k 1 A 2 2B → k 2 B 2 Both processes are known to be second order in reactant, and k 1 is known to be 0.250 L/mol · s at 25°C. In a particular experiment A and B were placed in separate containers at 25°C, where [A] 0 = 1.00 × 10 −2 M and [B] 0 = 2.50 × 10 −2 M . It was found that after each reaction had progressed for 3.00 min, [A] = 3.00[B]. In this case the rate laws are defined as Rate = − Δ [ A ] Δ t = k 1 [ A ] 2 R a t e = − Δ [ B ] Δ t = k 2 [ B ] 2 a. Calculate the concentration of A 2 after 3.00 min. b. Calculate the value of k 2 . c. Calculate the half-life for the experiment involving A.

Two isomers (A and B) of a given compound dimerize as follows: 2A → k 1 A 2 2B → k 2 B 2 Both processes are known to be second order in reactant, and k 1 is known to be 0.250 L/mol · s at 25°C. In a particular experiment A and B were placed in separate containers at 25°C, where [A] 0 = 1.00 × 10 −2 M and [B] 0 = 2.50 × 10 −2 M . It was found that after each reaction had progressed for 3.00 min, [A] = 3.00[B]. In this case the rate laws are defined as Rate = − Δ [ A ] Δ t = k 1 [ A ] 2 R a t e = − Δ [ B ] Δ t = k 2 [ B ] 2 a. Calculate the concentration of A 2 after 3.00 min. b. Calculate the value of k 2 . c. Calculate the half-life for the experiment involving A.

Solution Summary: The author explains that the concentration of the product is to be calculated corresponding to the given reactions and data. The rate constant for second order reaction is given by the equation.

Chemistry with Access Code, Hybrid Edition

Chemistry with Access Code, Hybrid Edition

9th Edition

ISBN: 9781285188492

Author: Steven S. Zumdahl

Publisher: CENGAGE L

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Chapter 12, Problem 104CP

Two isomers (A and B) of a given compound dimerize as follows:

2A → k 1 A 2 2B → k 2 B 2

Both processes are known to be second order in reactant, and k₁

is known to be 0.250 L/mol · s at 25°C. In a particular experiment A and B were placed in separate containers at 25°C, where [A]₀ = 1.00 × 10⁻²M and [B]₀ = 2.50 × 10⁻² M. It was found that after each reaction had progressed for 3.00 min, [A] = 3.00[B]. In this case the rate laws are defined as

Rate = − Δ [ A ] Δ t = k 1 [ A ] 2 R a t e = − Δ [ B ] Δ t = k 2 [ B ] 2

a. Calculate the concentration of A₂ after 3.00 min.

b. Calculate the value of k₂ .

c. Calculate the half-life for the experiment involving A.

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Chapter 12, Problem 103CP

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