Concept explainers
What happens to the rate of an
a.
b. Both
c.
d.
(a)
Interpretation: The change that occurs to the rate of an
Concept introduction: The replacement or substitution of one functional group with another different functional group in any chemical reaction is termed as substitution reaction. The electron rich chemical species that contains negative charge or lone pair of electrons are known as a nucleophile. In a nucleophilic substitution reaction, nucleophile takes the position of leaving group by attacking the electron deficient carbon atom.
Answer to Problem 7.23P
The rate of the reaction increases by three times when the concentration of
Explanation of Solution
The rate of
The rate of
According the given statement, the concentration of
Therefore, the rate of the reaction increases by three times when the concentration of
The rate of the reaction increases by three times when the concentration of
(b)
Interpretation: The change that occurs to the rate of an
Concept introduction: The replacement or substitution of one functional group with another different functional group in any chemical reaction is termed as substitution reaction. The electron rich chemical species that contains negative charge or lone pair of electrons are known as a nucleophile. In a nucleophilic substitution reaction, nucleophile takes the position of leaving group by attacking the electron deficient carbon atom.
Answer to Problem 7.23P
The rate of the reaction increases by three times when the concentration of both
Explanation of Solution
The rate of
The rate of
According the given statement, the concentration of both
Therefore, the rate of the reaction increases by three times when the concentration of both
The rate of the reaction increases by three times when the concentration of both
(c)
Interpretation: The change that occurs to the rate of an
Concept introduction: The replacement or substitution of one functional group with another different functional group in any chemical reaction is termed as substitution reaction. The electron rich chemical species that contains negative charge or lone pair of electrons are known as a nucleophile. In a nucleophilic substitution reaction, nucleophile takes the position of leaving group by attacking the electron deficient carbon atom.
Answer to Problem 7.23P
The rate of the reaction decreases by half when the concentration of
Explanation of Solution
The rate of
The rate of
According the given statement, the concentration of both
Therefore, the rate of the reaction decreases by half when the concentration of
The rate of the reaction decreases by half when the concentration of
(d)
Interpretation: The change that occurs to the rate of an
Concept introduction: The replacement or substitution of one functional group with another different functional group in any chemical reaction is termed as substitution reaction. The electron rich chemical species that contains negative charge or lone pair of electrons are known as a nucleophile. In a nucleophilic substitution reaction, nucleophile takes the position of leaving group by attacking the electron deficient carbon atom.
Answer to Problem 7.23P
The rate of the reaction decreases by half when the concentration of
Explanation of Solution
The rate of
The rate of
According the given statement, the concentration of both
Therefore, The rate of the reaction decreases by half when the concentration of
The rate of the reaction decreases by half when the concentration of
Want to see more full solutions like this?
Chapter 7 Solutions
Organic Chemistry
Additional Science Textbook Solutions
Chemistry: Atoms First
Thermodynamics, Statistical Thermodynamics, & Kinetics
General Chemistry: Principles and Modern Applications (11th Edition)
Chemistry: The Central Science (13th Edition)
The Organic Chem Lab Survival Manual: A Student's Guide to Techniques
Chemistry For Changing Times (14th Edition)
- 2. Consider the following reaction for the formation of HCl in the presence of light. Cl2 + CHCI3 → HCI + cl4 The following is the proposed reaction mechanism: Step 1 Cl2 → CI + CI Step 2 Step 3 CI + CCl3 → CCI4 Determine Step 2 of the reaction mechanism (show work).arrow_forwardEnthalpy T2 T3 T1 12 4 1 PROGRESS OF REACTION А. Which arrow represents the largest energy of activation in the forward direction? В. Is the overall forward reaction endergonic or exergonic? С. Which transition state has the highest energy, T1, T2 or T3?arrow_forward8. Given the following rate law, how does the rate of reaction change if the concentration of Y is doubled? Rate = k [X][Y]² A. The rate of reaction will increase by a factor of 2. B. The rate of reaction will increase by a factor of 4. C. The rate of reaction will increase by a factor of 5. D. The rate of reaction will decrease by a factor of 2. E. The rate of reaction will remain unchanged.arrow_forward
- c1karrow_forward9. Nitrogen dioxide undergoes a synthesis reaction with fluorine. The proposed mechanism is shown below: i. H2 + ICI → HI + HCI (slow) ii. HI + ICI – 1 + HCI (fast) Which step is the rate limiting step? a. b. What is/are the reactive intermediate(s) in this reaction?. c. Using the information in this question, sketch the energy potential diagram for this exothermic reaction. d. How would you expect your energy potential diagram would change if a catalyst were added? Explain. You may find it helpful to show part of your answer on your energy potential diagram from part C. e. If step 2 was the slow step, how would any one of your previous answers change?arrow_forwardPlease help!arrow_forward
- QUESTION 11 While examining radical halogenation reactions, we saw that different "reaction pathways" lead to the formation of different products. How does the difference in energy between the activation barriers of rate-determining steps (AAGI) for these pathways affect the selectivity of the reactions and the products that are produced? O A. The bigger the difference in energy between activation barriers results in a more selective reaction. The reaction is relatively "clean" and mostly produces one product. O B. The bigger the difference in energy between activation barriers results in a less selective reaction. The reaction is "messy" and produces a more equivalent mixture of products. O C. The smaller the difference in energy between activation barriers results in a less selective reaction. The reaction is relatively "clean" and mostly produces one product. O D. The smaller the difference in energy between activation barriers results in a more selective reaction. The reaction is…arrow_forwardPart A Given the following rate law, how does the rate of reaction change if the concentration of Y is doubled? Rate = k[X]* [Y]3 %3D O The rate of reaction will increase by a factor of 6. O The rate of reaction will increase by a factor of 4. O the rate of reaction will increase by a factor of 8. O The rate of reaction will decrease by a factor of 4. O The rate of reaction will remain unchanged. Submit Request Answerarrow_forwardMatch the reaction type with its rate law. Rate = k [RX]¹[Nu]¹ Rate = k [RX]¹[Base]⁰ Rate = k [RX]¹[Base]¹ Rate = k [RX]¹[Nu]⁰ > 1. E1 2. E2 3. SN1 4. SN2arrow_forward
- Corrected True/False: Indicate whether each statement is true or false by circling the word true or the word false. If false, correct the statement to make it true in the space provided. 10. A physical change usually involves a greater enthalpy change than does a chemical change. True / False 11. In endothermic reactions the products have more kinetic energy than the reactants. True / False 12. The process of nuclear decay is a third order reaction. True / False 13. The rate-determining step is the slowest step in a reaction mechanism. True / Falsearrow_forwardThe rate law for a chemical reaction is given by: Rate = K[10³-]¹[1]²[H+]². Which statement is true? O O This reaction is first order with respect to 10³- and fifth order overall This reaction is first order with respect to 10³- and third order overall This reaction is third order with respect to H* This reaction is second order with respect to 1 and 3rd order overallarrow_forward10. Consider the transition state of the rate-limiting step in the following reaction: CI AICI 3 the structure of the transition state can be best represented/approximated by a chemical species. Please draw the most imporant resonance form of this chemical species.arrow_forward
- Chemistry: Principles and ReactionsChemistryISBN:9781305079373Author:William L. Masterton, Cecile N. HurleyPublisher:Cengage LearningChemistry & Chemical ReactivityChemistryISBN:9781337399074Author:John C. Kotz, Paul M. Treichel, John Townsend, David TreichelPublisher:Cengage LearningChemistry & Chemical ReactivityChemistryISBN:9781133949640Author:John C. Kotz, Paul M. Treichel, John Townsend, David TreichelPublisher:Cengage Learning
- Chemistry for Engineering StudentsChemistryISBN:9781337398909Author:Lawrence S. Brown, Tom HolmePublisher:Cengage LearningChemistryChemistryISBN:9781305957404Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCostePublisher:Cengage LearningChemistry: An Atoms First ApproachChemistryISBN:9781305079243Author:Steven S. Zumdahl, Susan A. ZumdahlPublisher:Cengage Learning