Elimination reactions under acidic conditions

Major concepts

·  Alcohols may be dehydrated under acid catalyzed conditions to give alkenes. This is an example of an elimination reaction.

·  The mechanism of the dehydration of an alcohol to form an alkene is exactly the opposite of the addition of water to an alkene to form an alcohol (microscopic reversibility)

·  Sulfuric acid pulls water away from the reaction and makes the elimination thermodynamically favorable.

·  The more stable alkene is formed preferentially, which is generally the more substituted alkene (Zaitsev product)or the conjugated alkene.

Vocabulary

·  Elimination reactions

·  Dehydration

·  Microscopic reversibility

·  Zaitsev product

Students should be able to:

·  Draw a mechanism and energy diagram for elimination of an alcohol under acidic conditions

·  Explain how additions of water to an alkene and elimination of an alcohol are opposite mechanisms

·  Describe how to shift equilibrium in favor of elimination or addition

·  Predict the major product according to alkene stability

Daily Problems

1. Provide a mechanism for these elimination reactions of alcohols under acidic conditions.

2. Draw an energy diagram for this elimination. Explain the role of sulfuric acid in making it downhill overall.

3. In which direction is this reaction favored? Explain your reasoning.

4. In each of these reactions, there is more than one alkene that could form. Draw out all possible products, and then circle the one you would predict to be the major product. (Don’t worry about cis/trans isomers.)

5. In this reaction, the less substituted alkene is the major product. Explain.

Cumulative problems You have learned three types of reactions: acid/base, addition, and elimination. Can you think about them all at the same time?

6. Predict the products of these reactions. (Hint: What type of reaction is it?)

7. Provide the reagents. (Hint: What type of reaction is it?)

Extension problem

8. Eliminations can also happen under basic conditions, but only if there is a carbonyl appropriately placed. Here is an example reaction and a mechanism.

Here is an example that doesn’t work, with a mechanism.

The difference is the first step of each reaction. Explain why the first step works in the top reaction but not the bottom reaction. (Hint: Think about the stability of the intermediate.)