Chemistry: An Atoms First Approach
Chemistry: An Atoms First Approach
2nd Edition
ISBN: 9781305079243
Author: Steven S. Zumdahl, Susan A. Zumdahl
Publisher: Cengage Learning
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Chapter 4, Problem 86AE

(a)

Interpretation Introduction

Interpretation: The common properties in the given compound are to be stated.

Concept introduction: The following steps are to be followed to determine the molecular structure of a given compound,

  • The central atom is identified.
  • Its valence electrons are determined.
  • 1e is added to the total number of valence electrons for each monovalent atom present.
  • The total number obtained is divided by 2 , to find the number of electron pairs.
  • This further gives us the hybridization of the given compound.

To determine: The common properties in SO3,NO3 and CO32

(a)

Expert Solution
Check Mark

Explanation of Solution

For SO3 compound

The central atom in SO3 is sulfur (S) and its electronic configuration is,

1s22s22p63s23p4

The valence electrons in sulfur are six.

The electronic configuration of oxygen is,

1s22s22p4

The valence elctrons in oxygen is six.

The total number of valence electrons are,

S+3O=(6+6×3)e=(24)e

The formula of number of electron pairs is,

X=V+M±C2

Where,

  • X is number of electron pairs.
  • V is valence electrons of central atom.
  • M is number of monovalent atoms.
  • C is charge on compound.

The number of electron pairs is,

X=V+M±C2X=62=3

This means that the central atom shows sp2 hybridization and should have a trigonal planar geometry.

The Lewis structure of SO3 is,

Chemistry: An Atoms First Approach, Chapter 4, Problem 86AE , additional homework tip  1

For NO3 ion

The central atom in NO3 is nitrogen (N) and its electronic configuration is,

1s22s22p3

The valence electrons in nitrogen are five.

The electronic configuration of oxygen is,

1s22s22p4

The valence elctrons in oxygen is six.

The total number of valence electrons are,

N+3O+1e=(5+6×3+1)e=(24)e

The formula of number of electron pairs is,

X=V+M±C2

Where,

  • X is number of electron pairs.
  • V is valence electrons of central atom.
  • M is number of monovalent atoms.
  • C is charge on compound.

The number of electron pairs is,

X=V+M±C2X=5+12=3

This means that the central atom shows sp2 hybridization and should have a trigonal planar geometry.

The Lewis structure of NO3 is,

Chemistry: An Atoms First Approach, Chapter 4, Problem 86AE , additional homework tip  2

For CO32 ion

The central atom in CO32 is carbon (C) and its electronic configuration is,

1s22s22p3

The valence electrons in carbon are four.

The electronic configuration of oxygen is,

1s22s22p4

The valence elctrons in oxygen is six.

The total number of valence electrons are,

C+3O+2e=(4+6×3+2)e=(24)e

The formula of number of electron pairs is,

X=V+M±C2

Where,

  • X is number of electron pairs.
  • V is valence electrons of central atom.
  • M is number of monovalent atoms.
  • C is charge on compound.

The number of electron pairs is,

X=V+M±C2X=4+22=3

This means that the central atom shows sp2 hybridization and should have a trigonal planar geometry.

The Lewis structure of CO32 is,

Chemistry: An Atoms First Approach, Chapter 4, Problem 86AE , additional homework tip  3

Hence, it is clear from above calculation that molecules SO3,NO3 and CO32 have same hybridization and molecular shape. Moreover these entire compounds contain resonance structure.

Conclusion

The geometry of a given compound can be predicted using the hybridization of the central atom present. The molecular shape can be predicted on the basis of the Lewis structure of the given compound. The lone pairs are depicted in the Lewis structure diagrams.

The given compounds are common in molecular shape and hybridization.

(b)

Interpretation Introduction

Interpretation: The common properties in the given compound are to be stated.

Concept introduction: The following steps are to be followed to determine the molecular structure of a given compound,

  • The central atom is identified.
  • Its valence electrons are determined.
  • 1e is added to the total number of valence electrons for each monovalent atom present.
  • The total number obtained is divided by 2 , to find the number of electron pairs.
  • This further gives us the hybridization of the given compound.

To determine: The common properties in O3,SO2 and NO2

(b)

Expert Solution
Check Mark

Explanation of Solution

For SO2 compound

The central atom in SO2 is sulfur (S) and its electronic configuration is,

1s22s22p63s23p4

The valence electrons in sulfur are six.

The electronic configuration of oxygen is,

1s22s22p4

The valence elctrons in oxygen is six.

The total number of valence electrons are,

S+2O=(6+6×2)e=(18)e

The formula of number of electron pairs is,

X=V+M±C2

Where,

  • X is number of electron pairs.
  • V is valence electrons of central atom.
  • M is number of monovalent atoms.
  • C is charge on compound.

The number of electron pairs is,

X=V+M±C2X=62=3

This means that the central atom shows sp2 hybridization and should have a trigonal planar geometry. But the lone pair present on sulfur atom the structure is transformed into bent shape.

The Lewis structure of SO2 is,

Chemistry: An Atoms First Approach, Chapter 4, Problem 86AE , additional homework tip  4

For NO2 ion

The central atom in NO2 is nitrogen (N) and its electronic configuration is,

1s22s22p3

The valence electrons in nitrogen are five.

The electronic configuration of oxygen is,

1s22s22p4

The valence elctrons in oxygen is six.

The total number of valence electrons are,

N+2O+1e=(5+6×2+1)e=(18)e

The formula of number of electron pairs is,

X=V+M±C2

Where,

  • X is number of electron pairs.
  • V is valence electrons of central atom.
  • M is number of monovalent atoms.
  • C is charge on compound.

The number of electron pairs is,

X=V+M±C2X=5+12=3

This means that the central atom shows sp2 hybridization and should have a trigonal planar geometry. But the lone pair present on sulfur atom the structure is transformed into bent shape.

The Lewis structure of NO2 is,

Chemistry: An Atoms First Approach, Chapter 4, Problem 86AE , additional homework tip  5

For O3 compound

The electronic configuration of oxygen (O) is,

1s22s22p4

The valence elctrons in oxygen is six.

The total number of valence electrons are,

3O=(6×3)e=(18)e

The formula of number of electron pairs is,

X=V+M±C2

Where,

  • X is number of electron pairs.
  • V is valence electrons of central atom.
  • M is number of monovalent atoms.
  • C is charge on compound.

The number of electron pairs is,

X=V+M±C2X=62=3

This means that the central atom shows sp2 hybridization and should have a trigonal planar geometry. But the lone pair present on sulfur atom the structure is transformed into bent shape.

The Lewis structure of O3 is,

Chemistry: An Atoms First Approach, Chapter 4, Problem 86AE , additional homework tip  6

Hence, it is clear from above calculation that molecules O3,SO2 and NO2 have same hybridization and molecular shape. Moreover these entire compounds contain resonance structure.

Conclusion

The geometry of a given compound can be predicted using the hybridization of the central atom present. The molecular shape can be predicted on the basis of the Lewis structure of the given compound. The lone pairs are depicted in the Lewis structure diagrams.

The given compounds are common in molecular shape and hybridization.

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Chapter 4 Solutions

Chemistry: An Atoms First Approach

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