Consider the following list of small molecules and ions: C 2 O 2 – , CN – , O 2 . CO, NO, NO + , C 2 2 , OF – . Identify (a) all species that have a bond order of 3 (b) all species that are paramagnetic (c) species that have a fractional bond order

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Answer 1

Textbook Question

Chapter 9, Problem 26PS

Consider the following list of small molecules and ions: C₂ O₂^–, CN^–, O₂. CO, NO, NO⁺, C₂², OF^–. Identify

(a) all species that have a bond order of 3

(b) all species that are paramagnetic

(c) species that have a fractional bond order

(a)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which have a bond order of 3 should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer to Problem 26PS

The species which have a bond order of 3 are,

CN-, CO,NO+ and C22-

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are four molecules have a bond order of 3. And they are mentioned below,

CN-, CO,NO+ and C22-

(b)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which are paramagnetic should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Atoms with unpaired electrons are called Paramagnetic. Paramagnetic atoms are attracted to a magnet.

Atoms with paired electrons are called diamagnetic. Diamagnetic atoms are repelled by a magnet

Answer to Problem 26PS

The species which have paramagnetic nature are,

O2- and NO

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

Molecules with fractional bond order value will show paramagnetic character. The fractional values are the result of odd number of electrons and odd number of electrons shows the presence of un-paired electrons.

According to the above table it is clear that there are two molecules have fractional bond order; they will exhibit paramagnetic character.

The species which have paramagnetic nature are,

O2- and NO

(c)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which have fractional bond order should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer to Problem 26PS

The species which have fractional bond order are,

O2- and NO

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are two molecules have a fractional bond order. And they are mentioned below,

O2- and NO

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Answer 2

Textbook Question

Chapter 9, Problem 26PS

Consider the following list of small molecules and ions: C₂ O₂^–, CN^–, O₂. CO, NO, NO⁺, C₂², OF^–. Identify

(a) all species that have a bond order of 3

(b) all species that are paramagnetic

(c) species that have a fractional bond order

(a)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which have a bond order of 3 should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer to Problem 26PS

The species which have a bond order of 3 are,

CN-, CO,NO+ and C22-

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are four molecules have a bond order of 3. And they are mentioned below,

CN-, CO,NO+ and C22-

(b)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which are paramagnetic should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Atoms with unpaired electrons are called Paramagnetic. Paramagnetic atoms are attracted to a magnet.

Atoms with paired electrons are called diamagnetic. Diamagnetic atoms are repelled by a magnet

Answer to Problem 26PS

The species which have paramagnetic nature are,

O2- and NO

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

Molecules with fractional bond order value will show paramagnetic character. The fractional values are the result of odd number of electrons and odd number of electrons shows the presence of un-paired electrons.

According to the above table it is clear that there are two molecules have fractional bond order; they will exhibit paramagnetic character.

The species which have paramagnetic nature are,

O2- and NO

(c)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which have fractional bond order should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer to Problem 26PS

The species which have fractional bond order are,

O2- and NO

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are two molecules have a fractional bond order. And they are mentioned below,

O2- and NO

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Answer 3

Textbook Question

Chapter 9, Problem 26PS

Consider the following list of small molecules and ions: C₂ O₂^–, CN^–, O₂. CO, NO, NO⁺, C₂², OF^–. Identify

(a) all species that have a bond order of 3

(b) all species that are paramagnetic

(c) species that have a fractional bond order

(a)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which have a bond order of 3 should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer to Problem 26PS

The species which have a bond order of 3 are,

CN-, CO,NO+ and C22-

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are four molecules have a bond order of 3. And they are mentioned below,

CN-, CO,NO+ and C22-

(b)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which are paramagnetic should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Atoms with unpaired electrons are called Paramagnetic. Paramagnetic atoms are attracted to a magnet.

Atoms with paired electrons are called diamagnetic. Diamagnetic atoms are repelled by a magnet

Answer to Problem 26PS

The species which have paramagnetic nature are,

O2- and NO

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

Molecules with fractional bond order value will show paramagnetic character. The fractional values are the result of odd number of electrons and odd number of electrons shows the presence of un-paired electrons.

According to the above table it is clear that there are two molecules have fractional bond order; they will exhibit paramagnetic character.

The species which have paramagnetic nature are,

O2- and NO

(c)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which have fractional bond order should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer to Problem 26PS

The species which have fractional bond order are,

O2- and NO

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are two molecules have a fractional bond order. And they are mentioned below,

O2- and NO

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Answer 4

Textbook Question

Chapter 9, Problem 26PS

Consider the following list of small molecules and ions: C₂ O₂^–, CN^–, O₂. CO, NO, NO⁺, C₂², OF^–. Identify

(a) all species that have a bond order of 3

(b) all species that are paramagnetic

(c) species that have a fractional bond order

(a)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which have a bond order of 3 should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer to Problem 26PS

The species which have a bond order of 3 are,

CN-, CO,NO+ and C22-

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are four molecules have a bond order of 3. And they are mentioned below,

CN-, CO,NO+ and C22-

(b)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which are paramagnetic should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Atoms with unpaired electrons are called Paramagnetic. Paramagnetic atoms are attracted to a magnet.

Atoms with paired electrons are called diamagnetic. Diamagnetic atoms are repelled by a magnet

Answer to Problem 26PS

The species which have paramagnetic nature are,

O2- and NO

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

Molecules with fractional bond order value will show paramagnetic character. The fractional values are the result of odd number of electrons and odd number of electrons shows the presence of un-paired electrons.

According to the above table it is clear that there are two molecules have fractional bond order; they will exhibit paramagnetic character.

The species which have paramagnetic nature are,

O2- and NO

(c)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which have fractional bond order should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer to Problem 26PS

The species which have fractional bond order are,

O2- and NO

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are two molecules have a fractional bond order. And they are mentioned below,

O2- and NO

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Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

(a)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which have a bond order of 3 should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer to Problem 26PS

The species which have a bond order of 3 are,

CN-, CO,NO+ and C22-

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are four molecules have a bond order of 3. And they are mentioned below,

CN-, CO,NO+ and C22-

(b)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which are paramagnetic should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Atoms with unpaired electrons are called Paramagnetic. Paramagnetic atoms are attracted to a magnet.

Atoms with paired electrons are called diamagnetic. Diamagnetic atoms are repelled by a magnet

Answer to Problem 26PS

The species which have paramagnetic nature are,

O2- and NO

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

Molecules with fractional bond order value will show paramagnetic character. The fractional values are the result of odd number of electrons and odd number of electrons shows the presence of un-paired electrons.

According to the above table it is clear that there are two molecules have fractional bond order; they will exhibit paramagnetic character.

The species which have paramagnetic nature are,

O2- and NO

(c)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which have fractional bond order should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer to Problem 26PS

The species which have fractional bond order are,

O2- and NO

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are two molecules have a fractional bond order. And they are mentioned below,

O2- and NO

Answer 8

(a)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which have a bond order of 3 should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer to Problem 26PS

The species which have a bond order of 3 are,

CN-, CO,NO+ and C22-

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are four molecules have a bond order of 3. And they are mentioned below,

CN-, CO,NO+ and C22-

Answer 9

(a)

Expert Solution

Answer 10

(a)

Expert Solution

Answer 11

Expert Solution

Answer 12

Interpretation Introduction

Interpretation:

All the species which have a bond order of 3 should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer 13

Answer to Problem 26PS

The species which have a bond order of 3 are,

CN-, CO,NO+ and C22-

Answer 14

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are four molecules have a bond order of 3. And they are mentioned below,

CN-, CO,NO+ and C22-

Answer 15

(b)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which are paramagnetic should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Atoms with unpaired electrons are called Paramagnetic. Paramagnetic atoms are attracted to a magnet.

Atoms with paired electrons are called diamagnetic. Diamagnetic atoms are repelled by a magnet

Answer to Problem 26PS

The species which have paramagnetic nature are,

O2- and NO

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

Molecules with fractional bond order value will show paramagnetic character. The fractional values are the result of odd number of electrons and odd number of electrons shows the presence of un-paired electrons.

According to the above table it is clear that there are two molecules have fractional bond order; they will exhibit paramagnetic character.

The species which have paramagnetic nature are,

O2- and NO

Answer 16

(b)

Expert Solution

Answer 17

(b)

Expert Solution

Answer 18

Expert Solution

Answer 19

Interpretation Introduction

Interpretation:

All the species which are paramagnetic should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Atoms with unpaired electrons are called Paramagnetic. Paramagnetic atoms are attracted to a magnet.

Atoms with paired electrons are called diamagnetic. Diamagnetic atoms are repelled by a magnet

Answer 20

Answer to Problem 26PS

The species which have paramagnetic nature are,

O2- and NO

Answer 21

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

Molecules with fractional bond order value will show paramagnetic character. The fractional values are the result of odd number of electrons and odd number of electrons shows the presence of un-paired electrons.

According to the above table it is clear that there are two molecules have fractional bond order; they will exhibit paramagnetic character.

The species which have paramagnetic nature are,

O2- and NO

Answer 22

(c)

Expert Solution

Interpretation Introduction

Interpretation:

All the species which have fractional bond order should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer to Problem 26PS

The species which have fractional bond order are,

O2- and NO

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons

According to the above table it is clear that there are two molecules have a fractional bond order. And they are mentioned below,

O2- and NO

Answer 23

(c)

Expert Solution

Answer 24

(c)

Expert Solution

Answer 25

Expert Solution

Answer 26

Interpretation Introduction

Interpretation:

All the species which have fractional bond order should be identified from the given list of molecules.

Concept Introduction:

Molecular orbital (MO) theory: is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule.

Bond order: It is the measure of number of electron pairs shared between two atoms.

Bond order = 12(Number of electrons in bondoing MOs-Number of electrons in antibonding MOs)

Answer 27

Answer to Problem 26PS

The species which have fractional bond order are,

O2- and NO

Answer 28

Explanation of Solution

The list of given molecules and their electronic configuration in MO term and bond order are given below,

MoleculeNo. of electronsElectron configurationBond order= 12(Nb−Na)C212(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)48−42 = 1O2−17(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)3 10−72=1.5CN−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3O216(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)2 10−62=2CO14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3NO15(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)110−52=2.5NO+14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3C22−14(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2( π2p)4 (σ2p)2 10−42=3OF−18(σ1s)2(σ*1s)2(σ2s)2(σ*2s)2 (σ2p)2( π2p)4( π*2p)410−82=1Nb → Number of bonding electrons, Na → Number of antibonding electrons