Lewis structures of C 6 H 4 has to be drawn and hybridization of each atom has to be indicated. Concept Introduction: Lewis structures represent covalent bonds and describe valence electrons configuration of atoms. The covalent bonds are depicted by lines, and unshared electron pairs by pairs of dots. The sequence to write Lewis structure of some molecule is given as follows: The central atom is identified and various other atoms are arranged around it. This central atom so chosen is often the least electronegative. Total valence electrons is estimated for each atoms. single bond is first placed between each atom pair. The electrons left can be allocated as unshared electron pairs or as multiple bonds around rtegh symbol of elemnt to satisfy the octet (or duplet) for each atom. Add charge on overall structure in case of polytatomic cation or anion. A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in s p 3 hybridization. It has bond angle of 109.5 ° . A double bond and carbocation are associated with s p 2 hybridization. It has bond angle of 120 ° . A triple bond is always associated with s p hybridization. It has bond angle of 180 ° .

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Answer 1

Question

Chapter 2, Problem 2.43E

(a)

Interpretation Introduction

Interpretation:

Lewis structures of C6H4 has to be drawn and hybridization of each atom has to be indicated.

Concept Introduction:

Lewis structures represent covalent bonds and describe valence electrons configuration of atoms. The covalent bonds are depicted by lines, and unshared electron pairs by pairs of dots. The sequence to write Lewis structure of some molecule is given as follows:

The central atom is identified and various other atoms are arranged around it. This central atom so chosen is often the least electronegative.

Total valence electrons is estimated for each atoms.

single bond is first placed between each atom pair.

The electrons left can be allocated as unshared electron pairs or as multiple bonds around rtegh symbol of elemnt to satisfy the octet (or duplet) for each atom.

Add charge on overall structure in case of polytatomic cation or anion.

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5 °.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120 °.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

(b)

Interpretation Introduction

Interpretation:

The reason behind high reactivity of benzyne has to be drawn.

Concept Introduction:

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5°.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120°.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

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Answer 2

Question

Chapter 2, Problem 2.43E

(a)

Interpretation Introduction

Interpretation:

Lewis structures of C6H4 has to be drawn and hybridization of each atom has to be indicated.

Concept Introduction:

Lewis structures represent covalent bonds and describe valence electrons configuration of atoms. The covalent bonds are depicted by lines, and unshared electron pairs by pairs of dots. The sequence to write Lewis structure of some molecule is given as follows:

The central atom is identified and various other atoms are arranged around it. This central atom so chosen is often the least electronegative.

Total valence electrons is estimated for each atoms.

single bond is first placed between each atom pair.

The electrons left can be allocated as unshared electron pairs or as multiple bonds around rtegh symbol of elemnt to satisfy the octet (or duplet) for each atom.

Add charge on overall structure in case of polytatomic cation or anion.

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5 °.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120 °.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

(b)

Interpretation Introduction

Interpretation:

The reason behind high reactivity of benzyne has to be drawn.

Concept Introduction:

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5°.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120°.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

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Answer 3

Question

Chapter 2, Problem 2.43E

(a)

Interpretation Introduction

Interpretation:

Lewis structures of C6H4 has to be drawn and hybridization of each atom has to be indicated.

Concept Introduction:

Lewis structures represent covalent bonds and describe valence electrons configuration of atoms. The covalent bonds are depicted by lines, and unshared electron pairs by pairs of dots. The sequence to write Lewis structure of some molecule is given as follows:

The central atom is identified and various other atoms are arranged around it. This central atom so chosen is often the least electronegative.

Total valence electrons is estimated for each atoms.

single bond is first placed between each atom pair.

The electrons left can be allocated as unshared electron pairs or as multiple bonds around rtegh symbol of elemnt to satisfy the octet (or duplet) for each atom.

Add charge on overall structure in case of polytatomic cation or anion.

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5 °.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120 °.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

(b)

Interpretation Introduction

Interpretation:

The reason behind high reactivity of benzyne has to be drawn.

Concept Introduction:

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5°.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120°.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

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Answer 4

Question

Chapter 2, Problem 2.43E

(a)

Interpretation Introduction

Interpretation:

Lewis structures of C6H4 has to be drawn and hybridization of each atom has to be indicated.

Concept Introduction:

Lewis structures represent covalent bonds and describe valence electrons configuration of atoms. The covalent bonds are depicted by lines, and unshared electron pairs by pairs of dots. The sequence to write Lewis structure of some molecule is given as follows:

The central atom is identified and various other atoms are arranged around it. This central atom so chosen is often the least electronegative.

Total valence electrons is estimated for each atoms.

single bond is first placed between each atom pair.

The electrons left can be allocated as unshared electron pairs or as multiple bonds around rtegh symbol of elemnt to satisfy the octet (or duplet) for each atom.

Add charge on overall structure in case of polytatomic cation or anion.

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5 °.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120 °.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

(b)

Interpretation Introduction

Interpretation:

The reason behind high reactivity of benzyne has to be drawn.

Concept Introduction:

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5°.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120°.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

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See solution

Answer 5

Chapter 2, Problem 2.43E

(a)

Interpretation Introduction

Interpretation:

Lewis structures of C6H4 has to be drawn and hybridization of each atom has to be indicated.

Concept Introduction:

Lewis structures represent covalent bonds and describe valence electrons configuration of atoms. The covalent bonds are depicted by lines, and unshared electron pairs by pairs of dots. The sequence to write Lewis structure of some molecule is given as follows:

The central atom is identified and various other atoms are arranged around it. This central atom so chosen is often the least electronegative.

Total valence electrons is estimated for each atoms.

single bond is first placed between each atom pair.

The electrons left can be allocated as unshared electron pairs or as multiple bonds around rtegh symbol of elemnt to satisfy the octet (or duplet) for each atom.

Add charge on overall structure in case of polytatomic cation or anion.

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5 °.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120 °.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

(b)

Interpretation Introduction

Interpretation:

The reason behind high reactivity of benzyne has to be drawn.

Concept Introduction:

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5°.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120°.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

Answer 6

Chapter 2, Problem 2.43E

(a)

Interpretation Introduction

Interpretation:

Lewis structures of C6H4 has to be drawn and hybridization of each atom has to be indicated.

Concept Introduction:

Lewis structures represent covalent bonds and describe valence electrons configuration of atoms. The covalent bonds are depicted by lines, and unshared electron pairs by pairs of dots. The sequence to write Lewis structure of some molecule is given as follows:

The central atom is identified and various other atoms are arranged around it. This central atom so chosen is often the least electronegative.

Total valence electrons is estimated for each atoms.

single bond is first placed between each atom pair.

The electrons left can be allocated as unshared electron pairs or as multiple bonds around rtegh symbol of elemnt to satisfy the octet (or duplet) for each atom.

Add charge on overall structure in case of polytatomic cation or anion.

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5 °.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120 °.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

Answer 7

Chapter 2, Problem 2.43E

(a)

Interpretation Introduction

Interpretation:

Lewis structures of C6H4 has to be drawn and hybridization of each atom has to be indicated.

Concept Introduction:

Lewis structures represent covalent bonds and describe valence electrons configuration of atoms. The covalent bonds are depicted by lines, and unshared electron pairs by pairs of dots. The sequence to write Lewis structure of some molecule is given as follows:

The central atom is identified and various other atoms are arranged around it. This central atom so chosen is often the least electronegative.

Total valence electrons is estimated for each atoms.

single bond is first placed between each atom pair.

The electrons left can be allocated as unshared electron pairs or as multiple bonds around rtegh symbol of elemnt to satisfy the octet (or duplet) for each atom.

Add charge on overall structure in case of polytatomic cation or anion.

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5 °.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120 °.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

Answer 8

(b)

Interpretation Introduction

Interpretation:

The reason behind high reactivity of benzyne has to be drawn.

Concept Introduction:

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5°.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120°.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

Answer 9

(b)

Interpretation Introduction

Interpretation:

The reason behind high reactivity of benzyne has to be drawn.

Concept Introduction:

A single bond is always associated with sigma bonds. Molecules that have all atoms connected by sigma bond exclusively are stated to be in sp3 hybridization. It has bond angle of 109.5°.

A double bond and carbocation are associated with sp2 hybridization. It has bond angle of 120°.

A triple bond is always associated with sp hybridization. It has bond angle of 180 °.

Answer 10

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Answer 11

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Answer 12

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Answer 13

Ch. 2 - Prob. 2A.1AST Ch. 2 - Prob. 2A.1BST Ch. 2 - Prob. 2A.2AST Ch. 2 - Prob. 2A.2BST Ch. 2 - Prob. 2A.3AST Ch. 2 - Prob. 2A.3BST Ch. 2 - Prob. 2A.4AST Ch. 2 - Prob. 2A.4BST Ch. 2 - Prob. 2A.1E Ch. 2 - Prob. 2A.2E

Solution Summary: The author explains that Lewis structures represent covalent bonds and describe valence electrons configuration of atoms.

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