Lab Manual Experiments in General Chemistry
Lab Manual Experiments in General Chemistry
11th Edition
ISBN: 9781305944985
Author: Darrell Ebbing, Steven D. Gammon
Publisher: Cengage Learning
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Textbook Question
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Chapter 10, Problem 10.38QP

For each of the following molecules, state the bond angle (or bond angles, as appropriate) that you would expect to see on the central atom based on the VSEPR model. Would you expect the actual bond angles to be greater or less than this?

  1. a OF2
  2. b NCl3
  3. c CF2CF2
  4. d GeF4

(a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

With the help of VSEPR theory, the expected bond angle(s) of given molecules on the central atom has to be stated.

Concept Introduction:

Valence bond theory: The VSEPR theory tells about the shapes of molecules and ions by taking the consideration that the outermost electron pairs are arranged about each atom so that the pairs of electrons are kept at a distance from one molecule to other, thereby minimizing the repulsion of electron-pair.

Steps to predict the geometry by VSEPR model:

  1. 1) The electron dot formula is written from the molecular formula.
  2. 2) The number of electron pairs including the bonding and non-bonding pairs around the central atom is determined from the electron dot formula.
  3. 3) The arrangement of these electron pairs about the central atom is determined.
  4. 4) The molecular geometry is determined from the directions of the bonding pairs or the arrangement.

To predict the bond angle of OF2

Answer to Problem 10.38QP

The bond angle of OF2 would be 109° , it could be expected that bond angle of F-O-F would be less.

Explanation of Solution

The geometry of OF2 is angular and with the help of VSEPR theory, the bond angle of OF2 would be 109° , it could be expected that bond angle of F-O-F would be less.

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

With the help of VSEPR theory, the expected bond angle(s) of given molecules on the central atom has to be stated.

Concept Introduction:

Valence bond theory: The VSEPR theory tells about the shapes of molecules and ions by taking the consideration that the outermost electron pairs are arranged about each atom so that the pairs of electrons are kept at a distance from one molecule to other, thereby minimizing the repulsion of electron-pair.

Steps to predict the geometry by VSEPR model:

  1. 1) The electron dot formula is written from the molecular formula.
  2. 2) The number of electron pairs including the bonding and non-bonding pairs around the central atom is determined from the electron dot formula.
  3. 3) The arrangement of these electron pairs about the central atom is determined.
  4. 4) The molecular geometry is determined from the directions of the bonding pairs or the arrangement.

To predict the bond angle of NCl3

Answer to Problem 10.38QP

The bond angle of NCl3 would be 109° , it could be expected that bond angle of Cl-N-Cl would be less.

Explanation of Solution

The geometry of NCl3 is trigonal pyramidal and with the help of VSEPR theory, the bond angle of NCl3 would be 109° , it could be expected that bond angle of Cl-N-Cl would be less.

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

With the help of VSEPR theory, the expected bond angle(s) of given molecules on the central atom has to be stated.

Concept Introduction:

Valence bond theory: The VSEPR theory tells about the shapes of molecules and ions by taking the consideration that the outermost electron pairs are arranged about each atom so that the pairs of electrons are kept at a distance from one molecule to other, thereby minimizing the repulsion of electron-pair.

Steps to predict the geometry by VSEPR model:

  1. 1) The electron dot formula is written from the molecular formula.
  2. 2) The number of electron pairs including the bonding and non-bonding pairs around the central atom is determined from the electron dot formula.
  3. 3) The arrangement of these electron pairs about the central atom is determined.
  4. 4) The molecular geometry is determined from the directions of the bonding pairs or the arrangement.

To predict the bond angle of CF2CF2

Answer to Problem 10.38QP

The bond angle of CF2CF2 would be 120° , it could be expected that F-C-C would be

Explanation of Solution

The geometry of CF2CF2 is trigonal planar and with the help of VSEPR theory,  it could be expected that F-C-C would be more than 120° and F-C-F would be less than 120° .

(d)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

With the help of VSEPR theory, the expected bond angle(s) of given molecules on the central atom has to be stated.

Concept Introduction:

Valence bond theory: The VSEPR theory tells about the shapes of molecules and ions by taking the consideration that the outermost electron pairs are arranged about each atom so that the pairs of electrons are kept at a distance from one molecule to other, thereby minimizing the repulsion of electron-pair.

Steps to predict the geometry by VSEPR model:

  1. 1) The electron dot formula is written from the molecular formula.
  2. 2) The number of electron pairs including the bonding and non-bonding pairs around the central atom is determined from the electron dot formula.
  3. 3) The arrangement of these electron pairs about the central atom is determined.
  4. 4) The molecular geometry is determined from the directions of the bonding pairs or the arrangement.

To predict the bond angle of GeF4

Answer to Problem 10.38QP

The bond angle of GeF4 would be 109° , this would be the expected bond angle too.

Explanation of Solution

The geometry of GeF4 is tetrahedral and with the help of VSEPR theory, the bond angle of GeF4 would be 109° , this would be the expected bond angle too.

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Chapter 10 Solutions

Lab Manual Experiments in General Chemistry

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