Organic Chemistry: Principles And Mechanisms
Organic Chemistry: Principles And Mechanisms
2nd Edition
ISBN: 9780393630756
Author: KARTY, Joel
Publisher: W.w. Norton & Company,
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Chapter 3, Problem 3.34P
Interpretation Introduction

Interpretation:

The electron geometry, hybridization, and molecular geometry of each nonhydrogen atoms in levomenol are to be determined.

Concept introduction:

According to the Valence Shell Electron Pair Repulsion (VSEPR) theory, the geometry is identified based on groups attached to the central atom. Electron geometry depends on the total number of electrons groups attached to the central atom. Molecular geometry depends on the total number of bonded atoms or groups to the central atom.

The number of electron groups and geometry is determined on the basis of the Lewis structure of the molecule/ion.

According to the Valence bond (VB) theory, the hybridization of atomic orbitals is used to account for electron and molecular geometry around the central atom. A hybrid orbital is a combination of one or more atomic orbitals from the valence shell of an atom.

The number of hybrid orbitals required is the same as the number of electron groups. If the number of electron groups is two, two-hybrid orbitals are needed. These are formed by a combination of s and one p orbital, giving sp hybridization. For three electron groups, three hybrid orbitals are required, s and two of the p orbitals giving sp2 hybridization. Four groups require four orbitals giving sp3 hybridization.

Expert Solution & Answer
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Answer to Problem 3.34P

The electron geometry, hybridization, and molecular geometry of each nonhydrogen atoms in levomenol are

Organic Chemistry: Principles And Mechanisms, Chapter 3, Problem 3.34P , additional homework tip  1

Type Number of C atom on the chain Electron Geometry Molecular Geometry Hybridization
CH3 7, 8, 12, and 15 Tetrahedral Tetrahedral sp3 for each C
CH2 3, 4, 9, 13, and 14 Tetrahedral Tetrahedral sp3 for each C
OH 2 Tetrahedral Bent sp3 for O
C 1 Tetrahedral Tetrahedral sp3
C 2 Tetrahedral Tetrahedral sp3
C 10 Trigonal planar Trigonal planar sp2
C 11 Trigonal planar Trigonal planar sp2
C 5 Trigonal planar Trigonal planar sp2
C 6 Trigonal planar Trigonal planar sp2

Explanation of Solution

The Lewis structure of levomenol is drawn based on the total valence electrons in the structure. The carbon atom has four valence electrons, hydrogen has one valence electron, and oxygen has six valence electrons. We need to add lone pairs on the oxygen atom to complete the octet.

Organic Chemistry: Principles And Mechanisms, Chapter 3, Problem 3.34P , additional homework tip  2

The electron geometry, hybridizations, and molecular geometry of nonhydrogen atoms of each carbon and oxygen atoms are determined on the basis of the number of electron groups around each as:

  1. C in each CH3 group:

There are four groups of electrons around the carbon atom - three single bonds with hydrogen and one single bond with carbon. No lone pair is present on the central carbon atom. According to VSEPR theory, electron geometry and molecular geometry of C in each CH3 group is tetrahedral.

Each carbon has four electron groups around it and needs four hybrid orbitals. Therefore, the hybridization of carbon in each CH3 group is sp3.

  1. C in each CH2 group:

There are four groups of electrons around the carbon atom - two single bonds with hydrogen and two single bonds with carbon. No lone pair is present on the central carbon atom. According to VSEPR theory, electron geometry and molecular geometry of C in each CH2 group is tetrahedral.

Each carbon has four electron groups around it and needs four hybrid orbitals. Therefore, the hybridization of carbon in each CH2 group is sp3.

  1. O in -OH group.

There are four groups of electrons around the oxygen atom - one single bond with hydrogen, one single bond with carbon, and two lone pairs on it. According to VSEPR theory, its electron geometry is tetrahedral, and its molecular geometry is bent.

Oxygen has four electron groups around it and needs four hybrid orbitals. Therefore, the hybridization of the oxygen atom is sp3.

  1. C in C1andC2 groups.

There are four groups of electrons around the carbon atom. The carbon of C1 position has three single bonds with C and one single bond with hydrogen. The carbon of C2 position has three single bonds with C and one single bond with oxygen. No lone pair is present on the central carbon atom. With four electron groups, the electron geometry and molecular geometry of both carbon is tetrahedral.

Each carbon has four electron groups around it and needs four hybrid orbitals. Therefore, the hybridization of both carbon is sp3.

  1. C in C=C groups.

There are three groups of electrons around the carbon atom in C=C bond, two single bonds and one double bond, therefore three electron groups around it. According to VSEPR theory, electron geometry and molecular geometry of each C in C=C groups are trigonal planar.

Each carbon has three electron groups around it and needs three hybrid orbitals. Therefore, the hybridization of each carbon is sp2.

Conclusion

According to VSEPR theory, the electron geometry and molecular geometry is identified from valance bond theory, and hybridization is determined.

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