Describe the bonding in the methanolmolecule, CH30H, using valence bondtheory.O A. The electron-pair geometry aroundboth the C and O atoms in CH3OH istetrahedral.Thus, we assign sp2 hybridization to eachatom, and the C – O bond is formedby overlap of sp² orbitals on these atoms.Each C - H bond is formed by overlap ofa carbonsp³ orbital with a hydrogen 1s orbital, andthe 0 - H bond is formed by overlap of anoxygensp3 orbital with the hydrogen 1s orbital.Two lone pairs on oxygen occupy theremainingsp3 orbitals on the atom.O B. The electron-pair geometry aroundboth the C and O atoms in CH3OH istetrahedral.Thus, we assign sp³ hybridization to eachatom, and the C - O bond is formed byoverlap of sp3 orbitals on these atoms.Each C - H bond is formed by overlap ofa carbonsp? orbital with a hydrogen 1s orbital, andthe 0 - H bond is formed by overlap of anoxygensp? orbital with the hydrogen 1s orbital.Two lone pairs on oxygen occupy theremainingsp2 orbitals on the atom.O C. The electron-pair geometry aroundboth the C and O atoms in CH3OH issquare planar.Thus, we assign sp³ hybridization to eachatom, and the C – O bond is formed byoverlap of sp3 orbitals on these atoms.Each C - H bond is formed by overlap ofa carbon square planar.Thus, we assign sp° hybridization to eachO bond is formed byatom, and the C -overlap of sp³ orbitals on these atoms.Each C - H bond is formed by overlap ofa carbonsp³ orbital with a hydrogen 1s orbital, andthe o - H bond is formed by overlap of anохудensp³ orbital with the hydrogen 1s orbital.Two lone pairs on oxygen occupy theremainingsp³ orbitals on the atom.D. The electron-pair geometry aroundboth the C and O atoms in CH3OH istetrahedral.Thus, we assign sp³ hybridization to eachatom, and the C - O bond is formedby overlap of sp orbitals on these atoms.Each C - H bond is formed by overlap ofa carbonsp³ orbital with a hydrogen 1sorbital, and the 0 - H bond is formed byoverlap of an oxygensp³ orbital with thehydrogen 1s orbital. Two lone pairs onoxygen occupy the remainingsp3 orbitals on the atom.

Answered: Describe the bonding in the methanol…

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Describe the bonding in the methanol molecule, CH30H, using valence bond theory.

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Concept explainers

Formal Charges

Formal charges have an important role in organic chemistry since this concept helps us to know whether an atom in a molecule is neutral/bears a positive or negative charge. Even if some molecules are neutral, the atoms within that molecule need not be neutral atoms.

Polarity Of Water

In simple chemical terms, polarity refers to the separation of charges in a chemical species leading into formation of two polar ends which are positively charged end and negatively charged end. Polarity in any molecule occurs due to the differences in the electronegativities of the bonded atoms. Water, as we all know has two hydrogen atoms bonded to an oxygen atom. As oxygen is more electronegative than hydrogen thus, there exists polarity in the bonds which is why water is known as a polar solvent.

Valence Bond Theory Vbt

Valence bond theory (VBT) in simple terms explains how individual atomic orbitals with an unpaired electron each, come close to each other and overlap to form a molecular orbital giving a covalent bond. It gives a quantum mechanical approach to the formation of covalent bonds with the help of wavefunctions using attractive and repulsive energies when two atoms are brought from infinity to their internuclear distance.

Question

Describe the bonding in the methanol
molecule, CH30H, using valence bond
theory.
O A. The electron-pair geometry around
both the C and O atoms in CH3OH is
tetrahedral.
Thus, we assign sp2 hybridization to each
atom, and the C – O bond is formed
by overlap of sp² orbitals on these atoms.
Each C - H bond is formed by overlap of
a carbon
sp³ orbital with a hydrogen 1s orbital, and
the 0 - H bond is formed by overlap of an
oxygen
sp3 orbital with the hydrogen 1s orbital.
Two lone pairs on oxygen occupy the
remaining
sp3 orbitals on the atom.
O B. The electron-pair geometry around
both the C and O atoms in CH3OH is
tetrahedral.
Thus, we assign sp³ hybridization to each
atom, and the C - O bond is formed by
overlap of sp3 orbitals on these atoms.
Each C - H bond is formed by overlap of
a carbon
sp? orbital with a hydrogen 1s orbital, and
the 0 - H bond is formed by overlap of an
oxygen
sp? orbital with the hydrogen 1s orbital.
Two lone pairs on oxygen occupy the
remaining
sp2 orbitals on the atom.
O C. The electron-pair geometry around
both the C and O atoms in CH3OH is
square planar.
Thus, we assign sp³ hybridization to each
atom, and the C – O bond is formed by
overlap of sp3 orbitals on these atoms.
Each C - H bond is formed by overlap of
a carbon

square planar.
Thus, we assign sp° hybridization to each
O bond is formed by
atom, and the C -
overlap of sp³ orbitals on these atoms.
Each C - H bond is formed by overlap of
a carbon
sp³ orbital with a hydrogen 1s orbital, and
the o - H bond is formed by overlap of an
охудen
sp³ orbital with the hydrogen 1s orbital.
Two lone pairs on oxygen occupy the
remaining
sp³ orbitals on the atom.
D. The electron-pair geometry around
both the C and O atoms in CH3OH is
tetrahedral.
Thus, we assign sp³ hybridization to each
atom, and the C - O bond is formed
by overlap of sp orbitals on these atoms.
Each C - H bond is formed by overlap of
a carbonsp³ orbital with a hydrogen 1s
orbital, and the 0 - H bond is formed by
overlap of an oxygensp³ orbital with the
hydrogen 1s orbital. Two lone pairs on
oxygen occupy the remaining
sp3 orbitals on the atom.

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