Organic Chemistry
Organic Chemistry
4th Edition
ISBN: 9780073402772
Author: Janice G. Smith
Publisher: MCG
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Chapter 9, Problem 9.48P

What alkenes are formed when each alcohol is dehydrated with TsOH ? Label the major product when a mixture

results.

a. Chapter 9, Problem 9.48P, What alkenes are formed when each alcohol is dehydrated with TsOH? Label the major product when a , example  1 b. Chapter 9, Problem 9.48P, What alkenes are formed when each alcohol is dehydrated with TsOH? Label the major product when a , example  2 c. Chapter 9, Problem 9.48P, What alkenes are formed when each alcohol is dehydrated with TsOH? Label the major product when a , example  3 d. CH 3 CH 2 CH 2 CH 2 OH e. Chapter 9, Problem 9.48P, What alkenes are formed when each alcohol is dehydrated with TsOH? Label the major product when a , example  4

Expert Solution
Check Mark
Interpretation Introduction

(a)

Interpretation: The alkenes formed by the treatment of given alcohol with TsOH are to be stated and the major product is to be labeled if a mixture results.

Concept introduction: Alcohols undergo dehydration reaction in the presence of strong acids like H2SO4 or p-toluenesulfonicacid(TsOH) and yield alkenes. The more substituted alcohols dehydrate rapidly. If an alcohol contains two or more β carbon, then dehydration is regioselective and the major product is determined by Zaitsev rule. According to this rule, the major product is more substituted alkene, when an alcohol contains two or more β carbons.

Answer to Problem 9.48P

The alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are shown below:

Organic Chemistry, Chapter 9, Problem 9.48P , additional homework tip  1

Explanation of Solution

The given alcohol contains two β carbons.

Alcohols undergo dehydration reaction in the presence of strong acids like H2SO4 or p-toluenesulfonicacid(TsOH) and yield alkenes. The more substituted alcohols dehydrate rapidly. If an alcohol contains two or more β carbon, then dehydration is regioselective and the major product is determined by Zaitsev rule. According to this rule, the major product is more substituted alkene, when an alcohol contains two or more β carbons.

Thus, the alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are,

Organic Chemistry, Chapter 9, Problem 9.48P , additional homework tip  2

Figure 1

Conclusion

The alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are shown in Figure 1.

Expert Solution
Check Mark
Interpretation Introduction

(b)

Interpretation: The alkenes formed by the treatment of given alcohol with TsOH are to be stated and the major product is to be labeled if a mixture results.

Concept introduction: Alcohols undergo dehydration reaction in the presence of strong acids like H2SO4 or p-toluenesulfonicacid(TsOH) and yield alkenes. The more substituted alcohols dehydrate rapidly. If an alcohol contains two or more β carbon, then dehydration is regioselective and the major product is determined by Zaitsev rule. According to this rule, the major product is more substituted alkene, when an alcohol contains two or more β carbons.

Answer to Problem 9.48P

The alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are shown below:

Organic Chemistry, Chapter 9, Problem 9.48P , additional homework tip  3

Explanation of Solution

The given alcohol contains two β carbons.

Alcohols undergo dehydration reaction in the presence of strong acids like H2SO4 or p-toluenesulfonicacid(TsOH) and yield alkenes. The more substituted alcohols dehydrate rapidly. If an alcohol contains two or more β carbon, then dehydration is regioselective and the major product is determined by Zaitsev rule. According to this rule, the major product is more substituted alkene, when an alcohol contains two or more β carbons.

Thus, the alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are,

Organic Chemistry, Chapter 9, Problem 9.48P , additional homework tip  4

Figure 2

Conclusion

The alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are shown in Figure 2.

Expert Solution
Check Mark
Interpretation Introduction

(c)

Interpretation: The alkenes formed by the treatment of given alcohol with TsOH are to be stated and the major product is to be labeled if a mixture results.

Concept introduction: Alcohols undergo dehydration reaction in the presence of strong acids like H2SO4 or p-toluenesulfonicacid(TsOH) and yield alkenes. The more substituted alcohols dehydrate rapidly. If an alcohol contains two or more β carbon, then dehydration is regioselective and the major product is determined by Zaitsev rule. According to this rule, the major product is more substituted alkene, when an alcohol contains two or more β carbons.

Answer to Problem 9.48P

The alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are shown below:

Organic Chemistry, Chapter 9, Problem 9.48P , additional homework tip  5

Explanation of Solution

The given alcohol contains three β carbons.

Alcohols undergo dehydration reaction in the presence of strong acids like H2SO4 or p-toluenesulfonicacid(TsOH) and yield alkenes. The more substituted alcohols dehydrate rapidly. If an alcohol contains two or more β carbon, then dehydration is regioselective and the major product is determined by Zaitsev rule. According to this rule, the major product is more substituted alkene, when an alcohol contains two or more β carbons.

Thus, the alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are,

Organic Chemistry, Chapter 9, Problem 9.48P , additional homework tip  6

Figure 3

Conclusion

The alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are shown in Figure 3.

Expert Solution
Check Mark
Interpretation Introduction

(d)

Interpretation: The alkenes formed by the treatment of given alcohol with TsOH are to be stated and the major product is to be labeled if a mixture results.

Concept introduction: Alcohols undergo dehydration reaction in the presence of strong acids like H2SO4 or p-toluenesulfonicacid(TsOH) and yield alkenes. The more substituted alcohols dehydrate rapidly. If an alcohol contains two or more β carbon, then dehydration is regioselective and the major product is determined by Zaitsev rule. According to this rule, the major product is more substituted alkene, when an alcohol contains two or more β carbons.

Answer to Problem 9.48P

The alkene formed by the treatment of given alcohol with TsOH (major product is labeled) is CH3CH2CH=CH2.

Explanation of Solution

The given alcohol contains two β carbons.

Alcohols undergo dehydration reaction in the presence of strong acids like H2SO4 or p-toluenesulfonicacid(TsOH) and yield alkenes. The more substituted alcohols dehydrate rapidly. The given alcohol is primary. It undergoes protonation followed by elimination to form alkene. The alkene formed by the treatment of given alcohol with TsOH (major product is labeled) is shown in the reaction given below.

CH3CH2CH2CH2OHTsOHCH3CH2CH=CH2

Conclusion

The alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are shown in Figure 4.

Expert Solution
Check Mark
Interpretation Introduction

(e)

Interpretation: The alkenes formed by the treatment of given alcohol with TsOH are to be stated and the major product is to be labeled if a mixture results.

Concept introduction: Alcohols undergo dehydration reaction in the presence of strong acids like H2SO4 or p-toluenesulfonicacid(TsOH) and yield alkenes. The more substituted alcohols dehydrate rapidly. If an alcohol contains two or more β carbon, then dehydration is regioselective and the major product is determined by Zaitsev rule. According to this rule, the major product is more substituted alkene, when an alcohol contains two or more β carbons.

Answer to Problem 9.48P

The alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are shown below:

Organic Chemistry, Chapter 9, Problem 9.48P , additional homework tip  7

Explanation of Solution

The given alcohol contains two β carbons.

Alcohols undergo dehydration reaction in the presence of strong acids like H2SO4 or p-toluenesulfonicacid(TsOH) and yield alkenes. The more substituted alcohols dehydrate rapidly. If an alcohol contains two or more β carbon, then dehydration is regioselective and the major product is determined by Zaitsev rule. According to this rule, the major product is more substituted alkene, when an alcohol contains two or more β carbons.

Thus, the alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are,

Organic Chemistry, Chapter 9, Problem 9.48P , additional homework tip  8

Figure 4

Conclusion

The alkenes formed by the treatment of given alcohol with TsOH (major product is labeled) are shown in Figure 4.

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Chapter 9 Solutions

Organic Chemistry

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