The resonance structure of the azide ion should be drawn. Concept Introduction: Sometimes the chemical bonding of a molecule cannot be represented using a single Lewis structure. In these cases, the chemical bonding are described by delocalization of electrons and is known as resonance. All the possible resonance structures are imaginary whereas the resonance hybrid is real. These structures will differ only in the arrangement of the electrons not in the relative position of the atomic nuclei. To find : The resonance structure for the given molecules.

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Answer 1

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Chapter 6, Problem 6.59QP

Interpretation Introduction

Interpretation: The resonance structure of the azide ion should be drawn.

Concept Introduction:

Sometimes the chemical bonding of a molecule cannot be represented using a single Lewis structure. In these cases, the chemical bonding are described by delocalization of electrons and is known as resonance.

All the possible resonance structures are imaginary whereas the resonance hybrid is real.

These structures will differ only in the arrangement of the electrons not in the relative position of the atomic nuclei.

To find: The resonance structure for the given molecules.

Interpretation Introduction

Interpretation: The formal charges of the azide ion should be drawn.

Concept Introduction

A formal charge (FC) is the charge assigned to an atom in a molecule, irrespective of relative electronegativity by thinking that electrons in all chemical bonds are shared equally among atoms.

This method is used to identify the most probable Lewis structures if more than one possibility exists for a compound.

Formal charge of an atom can be determined by the given formula.

Formal charge (F C) = (no.of valence electron in atom)−12(no.of bonding electrons)−(no.of non-bonding electrons)

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(c) The following data have been obtained for the hydrolysis of sucrose, C12H22O11, to glucose, C6H12O6, and fructose C6H12O6, in acidic solution: C12H22O11 + H2O → C6H12O6 + C6H12O6 [sucrose]/mol dm³ t/min 0 0.316 14 0.300 39 0.274 60 0.256 80 0.238 110 0.211 (i) Graphically prove the order of the reaction and determine the rate constant of the reaction. (ii) Determine the half-life, t½ for the hydrolysis of sucrose.

(III) adsorbent (b) Adsorption of the hexacyanoferrate (III) ion, [Fe(CN)6] ³, on y-Al2O3 from aqueous solution was examined. The adsorption was modelled using a modified Langmuir isotherm, yielding the following values of Kat pH = 6.5: (ii) T/K 10-10 K 280 2.505 295 1.819 310 1.364 325 1.050 Determine the enthalpy of adsorption, AadsHⓇ. If the reported value of entropy of adsorption, Aads Se = 146 J K-1 mol-1 under the above conditions, determine Aads Gº.

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Answer 2

Question

Chapter 6, Problem 6.59QP

Interpretation Introduction

Interpretation: The resonance structure of the azide ion should be drawn.

Concept Introduction:

Sometimes the chemical bonding of a molecule cannot be represented using a single Lewis structure. In these cases, the chemical bonding are described by delocalization of electrons and is known as resonance.

All the possible resonance structures are imaginary whereas the resonance hybrid is real.

These structures will differ only in the arrangement of the electrons not in the relative position of the atomic nuclei.

To find: The resonance structure for the given molecules.

Interpretation Introduction

Interpretation: The formal charges of the azide ion should be drawn.

Concept Introduction

A formal charge (FC) is the charge assigned to an atom in a molecule, irrespective of relative electronegativity by thinking that electrons in all chemical bonds are shared equally among atoms.

This method is used to identify the most probable Lewis structures if more than one possibility exists for a compound.

Formal charge of an atom can be determined by the given formula.

Formal charge (F C) = (no.of valence electron in atom)−12(no.of bonding electrons)−(no.of non-bonding electrons)

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Answer 3

Question

Chapter 6, Problem 6.59QP

Interpretation Introduction

Interpretation: The resonance structure of the azide ion should be drawn.

Concept Introduction:

Sometimes the chemical bonding of a molecule cannot be represented using a single Lewis structure. In these cases, the chemical bonding are described by delocalization of electrons and is known as resonance.

All the possible resonance structures are imaginary whereas the resonance hybrid is real.

These structures will differ only in the arrangement of the electrons not in the relative position of the atomic nuclei.

To find: The resonance structure for the given molecules.

Interpretation Introduction

Interpretation: The formal charges of the azide ion should be drawn.

Concept Introduction

A formal charge (FC) is the charge assigned to an atom in a molecule, irrespective of relative electronegativity by thinking that electrons in all chemical bonds are shared equally among atoms.

This method is used to identify the most probable Lewis structures if more than one possibility exists for a compound.

Formal charge of an atom can be determined by the given formula.

Formal charge (F C) = (no.of valence electron in atom)−12(no.of bonding electrons)−(no.of non-bonding electrons)

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Answer 4

Question

Chapter 6, Problem 6.59QP

Interpretation Introduction

Interpretation: The resonance structure of the azide ion should be drawn.

Concept Introduction:

Sometimes the chemical bonding of a molecule cannot be represented using a single Lewis structure. In these cases, the chemical bonding are described by delocalization of electrons and is known as resonance.

All the possible resonance structures are imaginary whereas the resonance hybrid is real.

These structures will differ only in the arrangement of the electrons not in the relative position of the atomic nuclei.

To find: The resonance structure for the given molecules.

Interpretation Introduction

Interpretation: The formal charges of the azide ion should be drawn.

Concept Introduction

A formal charge (FC) is the charge assigned to an atom in a molecule, irrespective of relative electronegativity by thinking that electrons in all chemical bonds are shared equally among atoms.

This method is used to identify the most probable Lewis structures if more than one possibility exists for a compound.

Formal charge of an atom can be determined by the given formula.

Formal charge (F C) = (no.of valence electron in atom)−12(no.of bonding electrons)−(no.of non-bonding electrons)

Expert Solution & Answer

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Answer 5

Chapter 6, Problem 6.59QP

Interpretation Introduction

Interpretation: The resonance structure of the azide ion should be drawn.

Concept Introduction:

Sometimes the chemical bonding of a molecule cannot be represented using a single Lewis structure. In these cases, the chemical bonding are described by delocalization of electrons and is known as resonance.

All the possible resonance structures are imaginary whereas the resonance hybrid is real.

These structures will differ only in the arrangement of the electrons not in the relative position of the atomic nuclei.

To find: The resonance structure for the given molecules.

Interpretation Introduction

Interpretation: The formal charges of the azide ion should be drawn.

Concept Introduction

A formal charge (FC) is the charge assigned to an atom in a molecule, irrespective of relative electronegativity by thinking that electrons in all chemical bonds are shared equally among atoms.

This method is used to identify the most probable Lewis structures if more than one possibility exists for a compound.

Formal charge of an atom can be determined by the given formula.

Formal charge (F C) = (no.of valence electron in atom)−12(no.of bonding electrons)−(no.of non-bonding electrons)

Answer 6

Chapter 6, Problem 6.59QP

Interpretation Introduction

Interpretation: The resonance structure of the azide ion should be drawn.

Concept Introduction:

Sometimes the chemical bonding of a molecule cannot be represented using a single Lewis structure. In these cases, the chemical bonding are described by delocalization of electrons and is known as resonance.

All the possible resonance structures are imaginary whereas the resonance hybrid is real.

These structures will differ only in the arrangement of the electrons not in the relative position of the atomic nuclei.

To find: The resonance structure for the given molecules.

Answer 7

Chapter 6, Problem 6.59QP

Interpretation Introduction

Interpretation: The resonance structure of the azide ion should be drawn.

Concept Introduction:

Sometimes the chemical bonding of a molecule cannot be represented using a single Lewis structure. In these cases, the chemical bonding are described by delocalization of electrons and is known as resonance.

All the possible resonance structures are imaginary whereas the resonance hybrid is real.

These structures will differ only in the arrangement of the electrons not in the relative position of the atomic nuclei.

To find: The resonance structure for the given molecules.

Answer 8

Interpretation Introduction

Interpretation: The formal charges of the azide ion should be drawn.

Concept Introduction

A formal charge (FC) is the charge assigned to an atom in a molecule, irrespective of relative electronegativity by thinking that electrons in all chemical bonds are shared equally among atoms.

This method is used to identify the most probable Lewis structures if more than one possibility exists for a compound.

Formal charge of an atom can be determined by the given formula.

Formal charge (F C) = (no.of valence electron in atom)−12(no.of bonding electrons)−(no.of non-bonding electrons)

Answer 9

Interpretation Introduction

Interpretation: The formal charges of the azide ion should be drawn.

Concept Introduction

A formal charge (FC) is the charge assigned to an atom in a molecule, irrespective of relative electronegativity by thinking that electrons in all chemical bonds are shared equally among atoms.

This method is used to identify the most probable Lewis structures if more than one possibility exists for a compound.

Formal charge of an atom can be determined by the given formula.

Formal charge (F C) = (no.of valence electron in atom)−12(no.of bonding electrons)−(no.of non-bonding electrons)

Answer 10

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Answer 12

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Answer 13

Ch. 6.2 - Classify the following bonds as nonpolar, polar,...Ch. 6.2 - Classify the following bonds as nonpolar, polar,...Ch. 6.2 - Prob. 1PPB Ch. 6.2 - Electrostatic potential maps are shown for HCl and...Ch. 6.2 - Prob. 6.2WE Ch. 6.2 - Prob. 2PPA Ch. 6.2 - Prob. 2PPB Ch. 6.2 - Prob. 2PPC Ch. 6.2 - Prob. 6.3WE Ch. 6.2 - Prob. 3PPA

Solution Summary: The author explains how the resonance structure of the azide ion should be drawn. The formal charge of an atom can be determined by the given formula.

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