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The stepwise mechanism for reduction of epoxide A to alcohol B using LiAlH 4 is to be drawn. The product formed if LiAlD 4 was used as reagent is to be predicted. The stereochemistry of all the stereogenic centers is to be indicated. Concept introduction: The metal hydride reagents are good reducing agents such as LiAlH 4 . They can be used to reduce carbonyl compounds, conjugated double or triple bonds and C − X bond in alkyl halides and epoxides . The epoxide rings open up to form alcohol.

The stepwise mechanism for reduction of epoxide A to alcohol B using LiAlH 4 is to be drawn. The product formed if LiAlD 4 was used as reagent is to be predicted. The stereochemistry of all the stereogenic centers is to be indicated. Concept introduction: The metal hydride reagents are good reducing agents such as LiAlH 4 . They can be used to reduce carbonyl compounds, conjugated double or triple bonds and C − X bond in alkyl halides and epoxides . The epoxide rings open up to form alcohol.

Solution Summary: The author illustrates the stepwise mechanism for reduction of epoxide A to alcohol B using LiAlH_ 4. The stereochemistry of all the stereogenic centers

Organic Chemistry

Organic Chemistry

4th Edition

ISBN: 9780073402772

Author: Janice G. Smith

Publisher: MCG

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Question

Chapter 12, Problem 12.47P

Interpretation Introduction

Interpretation: The stepwise mechanism for reduction of epoxide A to alcohol B using LiAlH4 is to be drawn. The product formed if LiAlD4 was used as reagent is to be predicted. The stereochemistry of all the stereogenic centers is to be indicated.

Concept introduction: The metal hydride reagents are good reducing agents such as LiAlH4. They can be used to reduce carbonyl compounds, conjugated double or triple bonds and C−X bond in alkyl halides and epoxides. The epoxide rings open up to form alcohol.

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Chapter 12, Problem 12.46P

Chapter 12, Problem 12.48P

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Chapter 12 Solutions

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