Chapter 1, Problem 49PP

(a)

Interpretation Introduction

Interpretation:

To predict the bond angles for all bonds in given set of compounds.

Concept introduction:

Bond angle is angle formed by two adjacent bonds in a compound.  The bond angle is determined by the geometry of the atoms present in the compound.  The hybridization present in the atom determines the bond angle, namely

$s{p}^{3}hybridized$ = $109.5°$

$s{p}^{2}hybridized$ = $120°$ (if no lone pair of electrons)

$sp$ $hybridized$ = $180°$

To determine: The bond angle present in all bonds of the given compound

(b)

Interpretation Introduction

Interpretation:

To predict the bond angles for all bonds in given set of compounds.

Concept introduction:

Bond angle is angle formed by two adjacent bonds in a compound.  The bond angle is determined by the geometry of the atoms present in the compound.  The hybridization present in the atom determines the bond angle, namely

$s{p}^{3}hybridized$ = $109.5°$

$s{p}^{2}hybridized$ = $120°$ (if no lone pair of electrons)

$sp$ $hybridized$ = $180°$

To determine: The bond angle present in all bonds of the given compound

(c)

Interpretation Introduction

Interpretation:

To predict the bond angles for all bonds in given set of compounds.

Concept introduction:

Bond angle is angle formed by two adjacent bonds in a compound.  The bond angle is determined by the geometry of the atoms present in the compound.  The hybridization present in the atom determines the bond angle, namely

$s{p}^{3}hybridized$ = $109.5°$

$s{p}^{2}hybridized$ = $120°$ (if no lone pair of electrons)

$sp$ $hybridized$ = $180°$

To determine: The bond angle present in all bonds of the given compound

(d)

Interpretation Introduction

Interpretation:

To predict the bond angles for all bonds in given set of compounds.

Concept introduction:

Bond angle is angle formed by two adjacent bonds in a compound.  The bond angle is determined by the geometry of the atoms present in the compound.  The hybridization present in the atom determines the bond angle, namely

$s{p}^{3}hybridized$ = $109.5°$

$s{p}^{2}hybridized$ = $120°$ (if no lone pair of electrons)

$sp$ $hybridized$ = $180°$

To determine: The bond angle present in all bonds of the given compound

(e)

Interpretation Introduction

Interpretation:

To predict the bond angles for all bonds in given set of compounds.

Concept introduction:

Bond angle is angle formed by two adjacent bonds in a compound.  The bond angle is determined by the geometry of the atoms present in the compound.  The hybridization present in the atom determines the bond angle, namely

$s{p}^{3}hybridized$ = $109.5°$

$s{p}^{2}hybridized$ = $120°$ (if no lone pair of electrons)

$sp$ $hybridized$ = $180°$

To determine: The bond angle present in all bonds of the given compound

(f)

Interpretation Introduction

Interpretation:

To predict the bond angles for all bonds in given set of compounds.

Concept introduction:

Bond angle is angle formed by two adjacent bonds in a compound.  The bond angle is determined by the geometry of the atoms present in the compound.  The hybridization present in the atom determines the bond angle, namely

$s{p}^{3}hybridized$ = $109.5°$

$s{p}^{2}hybridized$ = $120°$ (if no lone pair of electrons)

$sp$ $hybridized$ = $180°$

To determine: The bond angle present in all bonds of the given compound

(g)

Interpretation Introduction

Interpretation:

To predict the bond angles for all bonds in given set of compounds.

Concept introduction:

Bond angle is angle formed by two adjacent bonds in a compound.  The bond angle is determined by the geometry of the atoms present in the compound.  The hybridization present in the atom determines the bond angle, namely

$s{p}^{3}hybridized$ = $109.5°$

$s{p}^{2}hybridized$ = $120°$ (if no lone pair of electrons)

$sp$ $hybridized$ = $180°$

To determine: The bond angle present in all bonds of the given compound

(h)

Interpretation Introduction

Interpretation:

To predict the bond angles for all bonds in given set of compounds.

Concept introduction:

Bond angle is angle formed by two adjacent bonds in a compound.  The bond angle is determined by the geometry of the atoms present in the compound.  The hybridization present in the atom determines the bond angle, namely

$s{p}^{3}hybridized$ = $109.5°$

$s{p}^{2}hybridized$ = $120°$ (if no lone pair of electrons)

$sp$ $hybridized$ = $180°$

To determine: The bond angle present in all bonds of the given compound