Bundle: Chemistry, 9th, Loose-Leaf + OWLv2 24-Months Printed Access Card
Bundle: Chemistry, 9th, Loose-Leaf + OWLv2 24-Months Printed Access Card
9th Edition
ISBN: 9781305367760
Author: Steven S. Zumdahl, Susan A. Zumdahl
Publisher: Cengage Learning
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Chapter 8, Problem 154CP

Three processes that have been used for the industrial manufacture of acrylonitrile (CH2CHCN), an important chemical used in the manufacture of plastics, synthetic rubber, and fibers, are shown below. Use bond energy values (Table 3-3) to estimate ∆E for each of the reactions.

a. Chapter 8, Problem 154CP, Three processes that have been used for the industrial manufacture of acrylonitrile (CH2CHCN), an , example 1

b. Chapter 8, Problem 154CP, Three processes that have been used for the industrial manufacture of acrylonitrile (CH2CHCN), an , example 2

The nitrogen-oxygen bond energy in nitric oxide (NO) is 630. kJ/mol.

c. Chapter 8, Problem 154CP, Three processes that have been used for the industrial manufacture of acrylonitrile (CH2CHCN), an , example 3

(a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The change in energy for the given chemical reactions has to be calculated.

Concept introduction: In a chemical reaction, energy is gained, endothermic reactions, or released, exothermic reactions. The change in energy can be stated as the difference between the energy required to break the bonds in case of reactants and the energy released on the formation of the products.

To determine: The change in energy for the stated reactions.

Answer to Problem 154CP

The required energy change is -43kJ_ and 37kJ_.

Explanation of Solution

Given

The chemical reaction involved is,

Bundle: Chemistry, 9th, Loose-Leaf + OWLv2 24-Months Printed Access Card, Chapter 8, Problem 154CP , additional homework tip 1

Figure 1

Formula

The change in energy=(energy required to breakthe bonds in reactants)-(energy released whenproducts are formed)

In the first reaction,

Bundle: Chemistry, 9th, Loose-Leaf + OWLv2 24-Months Printed Access Card, Chapter 8, Problem 154CP , additional homework tip 2

Figure 2

For first reactant,

4CH=413kJ1mol×4mol=1652kJ

2CO=358kJ1mol×2mol=716kJ

1CC=347kJ1mol×1mol=347kJ

Hence, the total energy required =(1652+716+34)kJ=2715kJ

For HCN,

1CN=891kJ1mol×1mol=891kJ

1CH=413kJ1mol×1mol=413kJ

Hence, the total energy required =(891+431)kJ=1304kJ (1)

Now, the total energy required for the reactants combined =(2715+1304)kJ=4019kJ.

Product bonds,

4CH=413kJ1mol×4mol=1652kJ

1CO=358kJ1mol×1mol=358kJ

2CC=347kJ1mol×2mol=694kJ

1CN=891kJ

1OH=467kJ

Hence,

The total energy released when the product is formed =(1652+358+694+891+467)kJ=4062kJ (2)

So the change in energy for the first reaction is,

ΔΗ=(4019-4062)kJ=-43kJ_ (Using equation (1) and (2)) (3)

In the second reaction,

Bundle: Chemistry, 9th, Loose-Leaf + OWLv2 24-Months Printed Access Card, Chapter 8, Problem 154CP , additional homework tip 3

Figure 3

For the reactant,

4CH=413kJ1mol×4mol=1652kJ

1CO=358kJ1mol×1mol=358kJ

2CC=347kJ1mol×2mol=694kJ

1CN=891kJ

1OH=467kJ

Hence,

The total energy released when the product is formed =(1652+358+694+891+467)kJ=4062kJ (4)

For product,

3CH=413kJ1mol×3mol=1239kJ

1C=C=614kJ1mol×1mol=614kJ

1CC=347kJ1mol×1mol=347kJ

1CN=891kJ

Hence,

The total energy released when the product is formed =(1239+614+891+347)kJ=3091kJ (5)

For water,

2OH=2mol×467kJ/mol=934kJ

So, the total energy of products =(3091+934)kJ=4025kJ (6)

So the change in energy for the second reaction is,

ΔΗ=(4062-4025)kJ=37kJ_ (Using equation (4) and (6))

Conclusion

The change in energy can be stated as the difference between the energy required to break the bonds in case of reactants and the energy released on the formation of the products.

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The change in energy for the given chemical reactions has to be calculated.

Concept introduction: In a chemical reaction, energy is gained, endothermic reactions, or released, exothermic reactions. The change in energy can be stated as the difference between the energy required to break the bonds in case of reactants and the energy released on the formation of the products.

To determine: The change in energy for the stated reactions.

Answer to Problem 154CP

The required energy change is -850kJ_.

Explanation of Solution

Given

The given reaction is,

Bundle: Chemistry, 9th, Loose-Leaf + OWLv2 24-Months Printed Access Card, Chapter 8, Problem 154CP , additional homework tip 4

Figure 4

For the reactant side,

For H2C=CHCH3,

6CH=413kJ1mol×6mol=2478kJ

1C=C=614kJ1mol×1mol=614kJ

1CC=347kJ1mol×1mol=347kJ

The energy required =4×(2478+614+347)kJ=13756kJ (since 4 molecules are present) (1)

For NO,

6NO=(6×630)kJ=3780kJ (2)

Total reactant energy =13756+3780kJ=17536kJ (using equation (1) and (2)) (3)

For products,

For H2C=CHCN,

3CH=413kJ1mol×3mol=1239kJ

1C=C=614kJ1mol×1mol=614kJ

1CC=347kJ1mol×1mol=347kJ

1CN=891kJ

The total energy is =4×(1239+614+891+347)kJ=12364kJ (since, 4 molecules are formed) (4)

For H2O,

2OH=467kJ1mol×2mol=934kJ

Since 6 molecules are formed, energy =(6×934)kJ=5604kJ (5)

For N2,

1NN=418kJ1mol×1mol=418kJ (6)

The total energy for products is =(12364+5604+418)kJ=18286kJ (7)

So the change in energy for the second reaction is,

ΔΗ=(17536-18386)kJ=-850kJ_ (Using equation (3) and (7))

Conclusion

The change in energy can be stated as the difference between the energy required to break the bonds in case of reactants and the energy released on the formation of the products.

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The change in energy for the given chemical reactions has to be calculated.

Concept introduction: In a chemical reaction, energy is gained, endothermic reactions, or released, exothermic reactions. The change in energy can be stated as the difference between the energy required to break the bonds in case of reactants and the energy released on the formation of the products.

To determine: The change in energy for the stated reactions.

Answer to Problem 154CP

The required energy change is -1077kJ_.

Explanation of Solution

Given

For the given reaction,

Bundle: Chemistry, 9th, Loose-Leaf + OWLv2 24-Months Printed Access Card, Chapter 8, Problem 154CP , additional homework tip 5

Figure 5

Energy for reactants,

For H2C=CHCH3,

6CH=413kJ1mol×6mol=2478kJ

1C=C=614kJ1mol×1mol=614kJ

1CC=347kJ1mol×1mol=347kJ

Total energy =2×(2478+614+347)kJ=6878kJ (1)

(since 2 molecules are formed)

For NH3,

3NH=391kJ1mol×3mol=1173kJ

Total energy =2×1173kJ=2346kJ (2)

(since 2 molecules are formed)

For O2,

1O=O=495kJ1mol×1mol=495kJ (3)

The total energy of reactants =(6878+2346+495)kJ=10709kJ (4)

Energy for products,

For H2C=CHCN,

3CH=413kJ1mol×3mol=1239kJ

1C=C=614kJ1mol×1mol=614kJ

1CC=347kJ1mol×1mol=347kJ

1CN=891kJ

The total energy =2×(1239+614+891+347)kJ=6182kJ (5)

(since 2 molecules are formed)

For H2O,

2OH=467kJ1mol×2mol=934kJ

Since 6 molecules are formed, energy =(6×934)kJ=5604kJ (6)

The total energy for products =(6182+5604)kJ=11786kJ (7)

So the change in energy for the second reaction is,

ΔΗ=(10709-11786)kJ=-1077kJ_ (Using equation (4) and (7))

Conclusion

The change in energy can be stated as the difference between the energy required to break the bonds in case of reactants and the energy released on the formation of the products.

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Chapter 8 Solutions

Bundle: Chemistry, 9th, Loose-Leaf + OWLv2 24-Months Printed Access Card

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Where does...Ch. 8 - Give one example of a compound having a linear...Ch. 8 - When comparing the size of different ions, the...Ch. 8 - In general the higher the charge on the ions in an...Ch. 8 - Combustion reactions of fossil fuels provide most...Ch. 8 - Which of the following statements is/are true?...Ch. 8 - Three resonance structures can be drawn for CO2....Ch. 8 - Which of the following statements is(are) true?...Ch. 8 - Without using Fig. 3-4, predict the order of...Ch. 8 - Without using Fig. 3-4, predict the order of...Ch. 8 - Without using Fig. 3-4, predict which bond in each...Ch. 8 - Without using Fig. 3-4, predict which bond in each...Ch. 8 - Prob. 31ECh. 8 - Prob. 32ECh. 8 - Which of the following incorrectly shows the bond...Ch. 8 - Indicate the bond polarity (show the partial...Ch. 8 - Predict the type of bond (ionic, covalent, or...Ch. 8 - List all the possible bonds that can occur between...Ch. 8 - Hydrogen has an electronegativity value between...Ch. 8 - Rank the following bonds in order of increasing...Ch. 8 - State whether or not each of the following has a...Ch. 8 - The following electrostatic potential diagrams...Ch. 8 - Prob. 41ECh. 8 - Prob. 42ECh. 8 - Predict the empirical formulas of the ionic...Ch. 8 - Predict the empirical formulas of the ionic...Ch. 8 - Write electron configurations for a. the cations...Ch. 8 - Write electron configurations for a. the cations...Ch. 8 - Which of the following ions have noble gas...Ch. 8 - What noble gas has the same electron configuration...Ch. 8 - Give the formula of a negative ion that would have...Ch. 8 - Prob. 50ECh. 8 - Give three ions that are isoelectronic with neon....Ch. 8 - Consider the ions Sc3+, Cl, K+, Ca2+, and S2....Ch. 8 - Prob. 53ECh. 8 - For each of the following groups, place the atoms...Ch. 8 - Which compound in each of the following pairs of...Ch. 8 - Which compound in each of the following pairs of...Ch. 8 - Use the following data for potassium chloride to...Ch. 8 - Use the following data for magnesium fluoride to...Ch. 8 - Consider the following energy changes: E(kJ/mol)...Ch. 8 - Compare the electron affinity of fluorine to the...Ch. 8 - Prob. 61ECh. 8 - Use the following data (in kJ/mol) to estimate E...Ch. 8 - Rationalize the following lattice energy values:...Ch. 8 - The lattice energies of FeCl3, FeCl2, and Fe2O3...Ch. 8 - Use bond energy values (Table 3-3) to estimate E...Ch. 8 - Use bond energy values (Table 3-3) to estimate E...Ch. 8 - Prob. 67ECh. 8 - Acetic acid is responsible for the sour taste of...Ch. 8 - Use bond energies to predict E for the following...Ch. 8 - The major industrial source of hydrogen gas is by...Ch. 8 - Use bond energies to estimate E for the combustion...Ch. 8 - Prob. 72ECh. 8 - Prob. 73ECh. 8 - Consider the following reaction: A2+B22AB E =...Ch. 8 - Compare your answers from parts a and b of...Ch. 8 - Compare your answers from Exercise 72 to the H...Ch. 8 - The standard enthalpies of formation for S(g),...Ch. 8 - Use the following standard enthalpies of formation...Ch. 8 - The standard enthalpy of formation for N2H2(g) is...Ch. 8 - The standard enthalpy of formation for NO(g) is...Ch. 8 - Write Lewis structures that obey the octet rule...Ch. 8 - Write Lewis structures that obey the octet rule...Ch. 8 - Write Lewis structures that obey the octet rule...Ch. 8 - Write Lewis structures that obey the octet rule...Ch. 8 - One type of exception to the octet rule are...Ch. 8 - Lewis structures can be used to understand why...Ch. 8 - The most common exceptions to the octet rule are...Ch. 8 - Prob. 88ECh. 8 - Write Lewis structures for the following. 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