Chapter 3.4, Problem 23PTS

(a)

Interpretation Introduction

Interpretation: More acidic proton to be identified in following compounds.

Concept Introduction

${\text{PK}}_{\text{a}}$Value: The ${\text{pK}}_{\text{a}}$ value computes the acidity of an acid. This value depends upon the chemical property and identity of the compound.

${\text{pK}}_{\text{a}}$ ${\text{= - log K}}_{\text{a}}$

Where,

${\text{K}}_{\text{a}}$ is the measure of strength of an acid. If the acid is strong means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{\text{10}}$ and weak means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{-50}.$ Strong acid means ${\text{pK}}_{\text{a}}$ value is low value and Weak acid means ${\text{pK}}_{\text{a}}$ value is high.

If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.

Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on ${\text{sp, sp}}^{\text{2}}$ and ${\text{sp}}^{\text{3}}$ hybridized orbital. More stable orbital means more acidity. Increasing order of stability of the orbital are,

${\text{sp > sp}}^{\text{2 }}{\text{> sp}}^{\text{3}}.$

To explain more acidic proton in this compound

(b)

Interpretation Introduction

Interpretation: More acidic proton to be identified in following compounds.

Concept Introduction

${\text{PK}}_{\text{a}}$Value: The ${\text{pK}}_{\text{a}}$ value computes the acidity of an acid. This value depends upon the chemical property and identity of the compound.

${\text{pK}}_{\text{a}}$ ${\text{= - log K}}_{\text{a}}$

Where,

${\text{K}}_{\text{a}}$ is the measure of strength of an acid. If the acid is strong means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{\text{10}}$ and weak means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{-50}.$ Strong acid means ${\text{pK}}_{\text{a}}$ value is low value and Weak acid means ${\text{pK}}_{\text{a}}$ value is high.

If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.

Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on ${\text{sp, sp}}^{\text{2}}$ and ${\text{sp}}^{\text{3}}$ hybridized orbital. More stable orbital means more acidity. Increasing order of stability of the orbital are,

${\text{sp > sp}}^{\text{2 }}{\text{> sp}}^{\text{3}}.$

To explain more acidic proton in this compound

(c)

Interpretation Introduction

Interpretation: More acidic proton to be identified in following compounds.

Concept Introduction

${\text{PK}}_{\text{a}}$Value: The ${\text{pK}}_{\text{a}}$ value computes the acidity of an acid. This value depends upon the chemical property and identity of the compound.

${\text{pK}}_{\text{a}}$ ${\text{= - log K}}_{\text{a}}$

Where,

${\text{K}}_{\text{a}}$ is the measure of strength of an acid. If the acid is strong means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{\text{10}}$ and weak means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{-50}.$ Strong acid means ${\text{pK}}_{\text{a}}$ value is low value and Weak acid means ${\text{pK}}_{\text{a}}$ value is high.

If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.

Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on ${\text{sp, sp}}^{\text{2}}$ and ${\text{sp}}^{\text{3}}$ hybridized orbital. More stable orbital means more acidity. Increasing order of stability of the orbital are,

${\text{sp > sp}}^{\text{2 }}{\text{> sp}}^{\text{3}}.$

To explain more acidic proton in this compound

(d)

Interpretation Introduction

Interpretation: More acidic proton to be identified in following compounds.

Concept Introduction

${\text{PK}}_{\text{a}}$Value: The ${\text{pK}}_{\text{a}}$ value computes the acidity of an acid. This value depends upon the chemical property and identity of the compound.

${\text{pK}}_{\text{a}}$ ${\text{= - log K}}_{\text{a}}$

Where,

${\text{K}}_{\text{a}}$ is the measure of strength of an acid. If the acid is strong means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{\text{10}}$ and weak means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{-50}.$ Strong acid means ${\text{pK}}_{\text{a}}$ value is low value and Weak acid means ${\text{pK}}_{\text{a}}$ value is high.

If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.

Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on ${\text{sp, sp}}^{\text{2}}$ and ${\text{sp}}^{\text{3}}$ hybridized orbital. More stable orbital means more acidity. Increasing order of stability of the orbital are,

${\text{sp > sp}}^{\text{2 }}{\text{> sp}}^{\text{3}}.$

To explain more acidic proton in this compound

(e)

Interpretation Introduction

Interpretation: More acidic proton to be identified in following compounds.

Concept Introduction

${\text{PK}}_{\text{a}}$Value: The ${\text{pK}}_{\text{a}}$ value computes the acidity of an acid. This value depends upon the chemical property and identity of the compound.

${\text{pK}}_{\text{a}}$ ${\text{= - log K}}_{\text{a}}$

Where,

${\text{K}}_{\text{a}}$ is the measure of strength of an acid. If the acid is strong means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{\text{10}}$ and weak means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{-50}.$ Strong acid means ${\text{pK}}_{\text{a}}$ value is low value and Weak acid means ${\text{pK}}_{\text{a}}$ value is high.

If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.

Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on ${\text{sp, sp}}^{\text{2}}$ and ${\text{sp}}^{\text{3}}$ hybridized orbital. More stable orbital means more acidity. Increasing order of stability of the orbital are,

${\text{sp > sp}}^{\text{2 }}{\text{> sp}}^{\text{3}}.$

To explain more acidic proton in this compound

(f)

Interpretation Introduction

Interpretation: More acidic proton to be identified in following compounds.

Concept Introduction

${\text{PK}}_{\text{a}}$Value: The ${\text{pK}}_{\text{a}}$ value computes the acidity of an acid. This value depends upon the chemical property and identity of the compound.

${\text{pK}}_{\text{a}}$ ${\text{= - log K}}_{\text{a}}$

Where,

${\text{K}}_{\text{a}}$ is the measure of strength of an acid. If the acid is strong means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{\text{10}}$ and weak means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{-50}.$ Strong acid means ${\text{pK}}_{\text{a}}$ value is low value and Weak acid means ${\text{pK}}_{\text{a}}$ value is high.

If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.

Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on ${\text{sp, sp}}^{\text{2}}$ and ${\text{sp}}^{\text{3}}$ hybridized orbital. More stable orbital means more acidity. Increasing order of stability of the orbital are,

${\text{sp > sp}}^{\text{2 }}{\text{> sp}}^{\text{3}}.$

To explain more acidic proton in this compound

(g)

Interpretation Introduction

Interpretation: More acidic proton to be identified in following compounds.

Concept Introduction

${\text{PK}}_{\text{a}}$Value: The ${\text{pK}}_{\text{a}}$ value computes the acidity of an acid. This value depends upon the chemical property and identity of the compound.

${\text{pK}}_{\text{a}}$ ${\text{= - log K}}_{\text{a}}$

Where,

${\text{K}}_{\text{a}}$ is the measure of strength of an acid. If the acid is strong means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{\text{10}}$ and weak means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{-50}.$ Strong acid means ${\text{pK}}_{\text{a}}$ value is low value and Weak acid means ${\text{pK}}_{\text{a}}$ value is high.

If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.

Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on ${\text{sp, sp}}^{\text{2}}$ and ${\text{sp}}^{\text{3}}$ hybridized orbital. More stable orbital means more acidity. Increasing order of stability of the orbital are,

${\text{sp > sp}}^{\text{2 }}{\text{> sp}}^{\text{3}}.$

To explain more acidic proton in this compound

(h)

Interpretation Introduction

Interpretation: More acidic proton to be identified in following compounds.

Concept Introduction

${\text{PK}}_{\text{a}}$Value: The ${\text{pK}}_{\text{a}}$ value computes the acidity of an acid. This value depends upon the chemical property and identity of the compound.

${\text{pK}}_{\text{a}}$ ${\text{= - log K}}_{\text{a}}$

Where,

${\text{K}}_{\text{a}}$ is the measure of strength of an acid. If the acid is strong means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{\text{10}}$ and weak means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{-50}.$ Strong acid means ${\text{pK}}_{\text{a}}$ value is low value and Weak acid means ${\text{pK}}_{\text{a}}$ value is high.

If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.

Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on ${\text{sp, sp}}^{\text{2}}$ and ${\text{sp}}^{\text{3}}$ hybridized orbital. More stable orbital means more acidity. Increasing order of stability of the orbital are,

${\text{sp > sp}}^{\text{2 }}{\text{> sp}}^{\text{3}}.$

To explain more acidic proton in this compound

(i)

Interpretation Introduction

Interpretation: More acidic proton to be identified in following compounds.

Concept Introduction

${\text{PK}}_{\text{a}}$Value: The ${\text{pK}}_{\text{a}}$ value computes the acidity of an acid. This value depends upon the chemical property and identity of the compound.

${\text{pK}}_{\text{a}}$ ${\text{= - log K}}_{\text{a}}$

Where,

${\text{K}}_{\text{a}}$ is the measure of strength of an acid. If the acid is strong means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{\text{10}}$ and weak means ${\text{K}}_{\text{a}}$ on the order of ${\text{10}}^{-50}.$ Strong acid means ${\text{pK}}_{\text{a}}$ value is low value and Weak acid means ${\text{pK}}_{\text{a}}$ value is high.

If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.

Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on ${\text{sp, sp}}^{\text{2}}$ and ${\text{sp}}^{\text{3}}$ hybridized orbital. More stable orbital means more acidity. Increasing order of stability of the orbital are,

${\text{sp > sp}}^{\text{2 }}{\text{> sp}}^{\text{3}}.$

To explain more acidic proton in this compound