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 3, Problem 125AE

(a)

Interpretation Introduction

Interpretation: Using the given values of bond energy, the electron affinity and the ionization energy of hydrogen to be calculated for the given reactions.

Concept introduction: The change in energy for a given chemical equation is the sum of the bond energy, the ionization energy and the electron affinity values of the respective steps involved in the chemical reaction.

To determine: The change in energy for the given reaction, HF(g)H+(g)+F(g) .

(a)

Expert Solution
Check Mark

Answer to Problem 125AE

The change in energy is 1549.2kJmol-1_

Explanation of Solution

Explanation:

The chemical reaction involved is,

HF(g)H+(g)+F(g)

The various steps included in the total process are,

HF(g)H(g)+F(g) , bond energy =565kJmol1

H(g)H+(g)+e , ionization energy =1312kJmol1

F(g)+eF(g) , electron affinity =327.8kJmol1

The total energy change =Bondenergy+Ionizationenergy+Electronaffinity=(565+1312327.8)kJmol1=1549.2kJmol-1_

Conclusion

The total energy change for a given chemical reaction is the sum of bond energy, the ionization energy and the electron affinity value of the respective steps involved in the reaction.

(b)

Interpretation Introduction

Interpretation: Using the given values of bond energy, the electron affinity and the ionization energy of hydrogen to be calculated for the given reactions.

Concept introduction: The change in energy for a given chemical equation is the sum of the bond energy, the ionization energy and the electron affinity values of the respective steps involved in the chemical reaction.

To determine: The change in energy for the given reaction, HCl(g)H+(g)+Cl(g) .

(b)

Expert Solution
Check Mark

Answer to Problem 125AE

The change in energy is 1391kJmol-1_

Explanation of Solution

The chemical reaction involved is,

HCl(g)H+(g)+Cl(g)

The various steps included in the total process are,

HCl(g)H(g)+Cl(g) , bond energy =427kJmol1

H(g)H+(g)+e , ionization energy =1312kJmol1

Cl(g)+eCl(g) , electron affinity =348kJmol1

The total energy change =Bondenergy+Ionizationenergy+Electronaffinity=(427+1312348)kJmol1=1391kJmol-1_

Conclusion

The total energy change for a given chemical reaction is the sum of bond energy, the ionization energy and the electron affinity value of the respective steps involved in the reaction.

(c)

Interpretation Introduction

Interpretation: Using the given values of bond energy, the electron affinity and the ionization energy of hydrogen to be calculated for the given reactions.

Concept introduction: The change in energy for a given chemical equation is the sum of the bond energy, the ionization energy and the electron affinity values of the respective steps involved in the chemical reaction.

To determine: The change in energy for the given reaction, HI(g)H+(g)+I(g) .

(c)

Expert Solution
Check Mark

Answer to Problem 125AE

The change in energy is 1312kJmol-1_ .

Explanation of Solution

The chemical reaction involved is,

HI(g)H+(g)+I(g)

The various steps included in the total process are,

HI(g)H(g)+I(g) , bond energy =295kJmol1

H(g)H+(g)+e , ionization energy =1312kJmol1

I(g)+eI(g) , electron affinity =295kJmol1

The total energy change =Bondenergy+Ionizationenergy+Electronaffinity=(295+1312295)kJmol1=1312kJmol-1_

Conclusion

The total energy change for a given chemical reaction is the sum of bond energy, the ionization energy and the electron affinity value of the respective steps involved in the reaction.

(d)

Interpretation Introduction

Interpretation: Using the given values of bond energy, the electron affinity and the ionization energy of hydrogen to be calculated for the given reactions.

Concept introduction: The change in energy for a given chemical equation is the sum of the bond energy, the ionization energy and the electron affinity values of the respective steps involved in the chemical reaction.

To determine: The change in energy for the given reaction, H2O(g)H+(g)+OH(g) .

(d)

Expert Solution
Check Mark

Answer to Problem 125AE

The change in energy is 1599kJmol-1_ .

Explanation of Solution

The chemical reaction involved is,

H2O(g)H+(g)+OH(g)

The various steps included in the total process are,

H2O(g)H(g)+OH(g) , bond energy =467kJmol1

H(g)H+(g)+e , ionization energy =1312kJmol1

OH(g)+eOH(g) , electron affinity =180kJmol1

The total energy change =Bondenergy+Ionizationenergy+Electronaffinity=(467+1312180)kJmol1=1599kJmol-1_

Conclusion

The total energy change for a given chemical reaction is the sum of bond energy, the ionization energy and the electron affinity value of the respective steps involved in the reaction.

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Chapter 3 Solutions

Chemistry: An Atoms First Approach

Ch. 3 - Distinguish between the terms electronegativity...Ch. 3 - Prob. 2RQCh. 3 - When an element forms an anion, what happens to...Ch. 3 - Define the term lattice energy. Why,...Ch. 3 - Explain how bond energies can be used to estimate...Ch. 3 - Prob. 6RQCh. 3 - Prob. 7RQCh. 3 - Explain the terms resonance and delocalized...Ch. 3 - Define formal charge and explain how to calculate...Ch. 3 - The compounds AlCl3, CrCl3, and ICl3 have similar...
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