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It is to be explained why the E2 mechanism does not occur readily under the given condition. Concept introduction: Epoxide is a three membered ring involving an oxygen and two carbon atoms. The ring is highly strained. The small ring size forces the groups on the adjacent atoms to be 120 0 away, that is, the dihedral angle between the oxygen atom and the hydrogen atom of the adjacent carbon is 120 0 . For the E2 elimination reactions to occur, the leaving groups and hydrogen atom of the adjacent carbon atom must be anticoplanar, which means the dihedral angle between them must be 180 0 . Due to this, epoxides do not readily undergo E2 reactions.

It is to be explained why the E2 mechanism does not occur readily under the given condition. Concept introduction: Epoxide is a three membered ring involving an oxygen and two carbon atoms. The ring is highly strained. The small ring size forces the groups on the adjacent atoms to be 120 0 away, that is, the dihedral angle between the oxygen atom and the hydrogen atom of the adjacent carbon is 120 0 . For the E2 elimination reactions to occur, the leaving groups and hydrogen atom of the adjacent carbon atom must be anticoplanar, which means the dihedral angle between them must be 180 0 . Due to this, epoxides do not readily undergo E2 reactions.

Solution Summary: The author explains why the E2 mechanism does not occur readily under the given condition.

Get Ready for Organic Chemistry

Get Ready for Organic Chemistry

2nd Edition

ISBN: 9780321774125

Author: KARTY, Joel

Publisher: PEARSON

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Question

Chapter 10, Problem 10.68P

Interpretation Introduction

Interpretation:

It is to be explained why the E2 mechanism does not occur readily under the given condition.

Concept introduction:

Epoxide is a three membered ring involving an oxygen and two carbon atoms. The ring is highly strained. The small ring size forces the groups on the adjacent atoms to be 120⁰ away, that is, the dihedral angle between the oxygen atom and the hydrogen atom of the adjacent carbon is 120⁰. For the E2 elimination reactions to occur, the leaving groups and hydrogen atom of the adjacent carbon atom must be anticoplanar, which means the dihedral angle between them must be 180⁰. Due to this, epoxides do not readily undergo E2 reactions.

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Chapter 10, Problem 10.67P

Chapter 10, Problem 10.69P

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