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The Lewis structure of oxygen molecule corresponds to an excited state of the oxygen molecule is to be explained using molecular orbital theory. Concept introduction: According to the molecular orbital theory, two atomic orbitals combine in order to form a bonding and an antibonding molecular orbital. The orbitals that lie on internuclear axis combine to form σ (sigma) molecular orbital and the orbitals parallel to each other combine to form π molecular orbitals. The molecular orbital formed by the combination of 1s orbital forms bonding molecular orbital designated as σ 1 s and antibonding molecular orbital, σ ∗ 1 s . The 2 s orbital forms corresponding molecular orbitals. Molecular orbital formed by the combination of 2 p x orbital forms a bonding molecular orbital designated as σ 2 p x and an antibonding molecular orbital designated as σ ∗ 2 p x . Molecular orbitals formed by combining 2 p y and 2 p z orbitals form bonding molecular orbitals designated as π 2 p y and π 2 p z and antibonding molecular orbitals designated as π ∗ 2 p y and π ∗ 2 p z . Electrons are filled in the molecular orbitals in increasing order of energy.

The Lewis structure of oxygen molecule corresponds to an excited state of the oxygen molecule is to be explained using molecular orbital theory. Concept introduction: According to the molecular orbital theory, two atomic orbitals combine in order to form a bonding and an antibonding molecular orbital. The orbitals that lie on internuclear axis combine to form σ (sigma) molecular orbital and the orbitals parallel to each other combine to form π molecular orbitals. The molecular orbital formed by the combination of 1s orbital forms bonding molecular orbital designated as σ 1 s and antibonding molecular orbital, σ ∗ 1 s . The 2 s orbital forms corresponding molecular orbitals. Molecular orbital formed by the combination of 2 p x orbital forms a bonding molecular orbital designated as σ 2 p x and an antibonding molecular orbital designated as σ ∗ 2 p x . Molecular orbitals formed by combining 2 p y and 2 p z orbitals form bonding molecular orbitals designated as π 2 p y and π 2 p z and antibonding molecular orbitals designated as π ∗ 2 p y and π ∗ 2 p z . Electrons are filled in the molecular orbitals in increasing order of energy.

Solution Summary: The author explains the Lewis structure of oxygen molecule by using molecular orbital theory.

Chemistry

3rd Edition

ISBN: 9780073402734

Author: Julia Burdge

Publisher: MCGRAW-HILL HIGHER EDUCATION

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Chapter 9, Problem 101AP

Interpretation Introduction

Interpretation:

The Lewis structure of oxygen molecule corresponds to an excited state of the oxygen molecule is to be explained using molecular orbital theory.

Concept introduction:

According to the molecular orbital theory, two atomic orbitals combine in order to form a bonding and an antibonding molecular orbital. The orbitals that lie on internuclear axis combine to form σ

(sigma) molecular orbital and the orbitals parallel to each other combine to form π molecular orbitals.

The molecular orbital formed by the combination of 1s orbital forms bonding molecular orbital designated as σ1s and antibonding molecular orbital, σ∗1s. The 2s

orbital forms corresponding molecular orbitals.

Molecular orbital formed by the combination of 2px

orbital forms a bonding molecular orbital designated as σ2px

and an antibonding molecular orbital designated as σ∗2px.

Molecular orbitals formed by combining 2py and 2pz

orbitals form bonding molecular orbitals designated as π2py

and π2pz

and antibonding molecular orbitals designated as π∗2py

and π∗2pz.

Electrons are filled in the molecular orbitals in increasing order of energy.

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Chapter 9, Problem 100AP

Chapter 9, Problem 102AP

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Chapter 9 Solutions

Chemistry

Ch. 9.1 - Practice Problem ATTEMPT Determine the shapes of...Ch. 9.1 - Prob. 1PPB Ch. 9.1 - Prob. 1PPC Ch. 9.1 - 9.1.1 What are the electron-domain geometry and...Ch. 9.1 - What are the electron-domain geometry and...Ch. 9.1 - Prob. 3CP Ch. 9.1 - Prob. 4CP Ch. 9.1 - Prob. 5CP Ch. 9.2 - Practice Problem ATTEMPT Ethanolamine has a...Ch. 9.2 - Practice Problem BUILD The bond angle in is...

Ch. 9.2 - Practice ProblemCONCEPTUALIZE Which of these...Ch. 9.2 - 9.2.1 Identify the polar molecules in the...Ch. 9.2 - Identify the nonpolar molecules in the following...Ch. 9.3 - Practice ProblemATTEMPT Use valence bond theory to...Ch. 9.3 - Practice ProblemBUILD For which molecule(s) can we...Ch. 9.3 - Practice ProblemCONCEPTUALIZE Which of these...Ch. 9.3 - Which of the following atoms, in its ground state,...Ch. 9.3 - According to valence bond theory, how many bonds...Ch. 9.4 - Practice Problem ATTEMPT Use hybrid orbital theory...Ch. 9.4 - Practice ProblemBUILD Use hybrid orbital theory to...Ch. 9.4 - Prob. 1PPC Ch. 9.4 - How many orbitals does a set of s p 2 hybrid...Ch. 9.4 - How many p atomic orbitals are required to...Ch. 9.5 - Practice Problem ATTEMPT The active ingredient in...Ch. 9.5 - Practice ProblemBUILD Determine the total number...Ch. 9.5 - Practice ProblemCONCEPTUALIZE In terms of valence...Ch. 9.5 - Which of the following molecules contain one or...Ch. 9.5 - 9.5.2 From left to right, give the hybridization...Ch. 9.5 - Which of the following pairs of atomic orbitals on...Ch. 9.5 - 9.5.4 Which of the following pairs of atomic...Ch. 9.6 - Practice ProblemATTEMPT Use valence bond theory...Ch. 9.6 - Prob. 1PPB Ch. 9.6 - Prob. 1PPC Ch. 9.6 - Prob. 1CP Ch. 9.6 - Prob. 2CP Ch. 9.6 - Prob. 3CP Ch. 9.6 - Prob. 4CP Ch. 9.7 - Prob. 1PPA Ch. 9.7 - Prob. 1PPB Ch. 9.7 - Prob. 1PPC Ch. 9.7 - Prob. 1CP Ch. 9.7 - Prob. 2CP Ch. 9.7 - Prob. 3CP Ch. 9.7 - Prob. 4CP Ch. 9.8 - Practice ProblemATTEMPT Use a combination of...Ch. 9.8 - Practice ProblemBUILD Use a combination of valence...Ch. 9.8 - Prob. 1PPC Ch. 9 - Prob. 1KSP Ch. 9 - Which of the following species does not have...Ch. 9 - 9.3 Which of the following species is polar? 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