Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition
Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition
10th Edition
ISBN: 9781305957510
Author: ZUMDAHL, Steven S.; Zumdahl, Susan A.; DeCoste, Donald J.
Publisher: Cengage Learning
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Chapter 17, Problem 78E

The standard free energies of formation and the standard enthalpies of formation at 298 K for difluoroacetylene (C2F2) and hexafluorobenzene (C6F6) are

  Δ G f o (KJ/mol) Δ H f o (KJ/mol)
C2F2(g) 191.2 241.3
Hexane 78.2 132.8

For the following reaction:

C 6 F 6 ( g ) 3 C 2 F 2 ( g )

a. calculate ∆S° at 298 K.

b. calculate K at 298 K.

c. estimate K at 3000. K, assuming ∆H° and ∆S° do not depend on temperature.

(a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The reaction corresponding to the formation of C2F2 ; the value of ΔHf° and ΔGf° for C2F2 and C6F6 is given. The value of ΔS° and K at the given temperature is to be calculated. The value of K at the given temperature, assuming that ΔH° and ΔS° are temperature independent is to be calculated.

Concept introduction: Equilibrium constant, K , is defined as the ratio of the concentration of products to that of the reactants at equilibrium. If a given reaction is at equilibrium, the free energy change is,

ΔG=0Q=K

The expression for free energy change is,

ΔG=ΔG°+RTln(K)

The formula of ΔH° is,

ΔH°=npΔH°(product)nfΔH°(reactant)

Explanation of Solution

Explanation

Given

The value of ΔG° for C2F2 is 191.2kJ/mol .

The value of ΔG° for C6F6 is 78.2kJ/mol .

The reaction that takes place is,

C6F6(g)3C2F2(g)

The formula of ΔG° is,

ΔG°=npΔG°(product)nfΔG°(reactant)

Where,

  • np is the number of moles of each product.
  • nr is the number of moles each reactant.
  • ΔG°(product) is the free energy of product at a pressure of 1atm .
  • ΔG°(reactant) is the free energy of reactant at a pressure of 1atm .

Substitute the values of ΔG° for C6F6 and C2F2 in the above equation.

ΔG°=npΔG°(product)nfΔG°(reactant)=[3(191.2)(78.2)]kJ=495.4kJ_

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The reaction corresponding to the formation of C2F2 ; the value of ΔHf° and ΔGf° for C2F2 and C6F6 is given. The value of ΔS° and K at the given temperature is to be calculated. The value of K at the given temperature, assuming that ΔH° and ΔS° are temperature independent is to be calculated.

Concept introduction: Equilibrium constant, K , is defined as the ratio of the concentration of products to that of the reactants at equilibrium. If a given reaction is at equilibrium, the free energy change is,

ΔG=0Q=K

The expression for free energy change is,

ΔG=ΔG°+RTln(K)

The formula of ΔH° is,

ΔH°=npΔH°(product)nfΔH°(reactant)

Explanation of Solution

Explanation

Given

The value of ΔH° for C2F2 is 241.3kJ/mol .

The value of ΔH° for C6F6 is 132.8kJ/mol .

The formula of ΔH° is,

ΔH°=npΔH°(product)nfΔH°(reactant)

Where,

  • ΔH° is the standard enthalpy of reaction.
  • np is the number of moles of each product.
  • nr is the number of moles each reactant.
  • ΔH°(product) is the standard enthalpy of product at a pressure of 1atm .
  • ΔH°(reactant) is the standard enthalpy of reactant at a pressure of 1atm .

Substitute the values of ΔH° for C6F6 and C2F2 in the above equation.

ΔH°=npΔH°(product)nfΔH°(reactant)=[3(241.3)(132.8)]kJ=591.1kJ_

Given

The formula of ΔG° is,

ΔG°=ΔH°TΔS°ΔS°=ΔH°ΔG°T

Where,

  • ΔH° is the standard enthalpy of reaction.
  • ΔG° is the standard Gibbs free energy.
  • T is the given temperature.
  • ΔS° is the standard enthalpy of reaction.

Substitute the values of ΔH°,ΔG° and T in the above equation.

ΔS°=ΔH°ΔG°T=591.1 kJ495.4 kJ 298=0.3211 kJ/K_

The value of K at 298K is 1.53×1087_ .

Given

The value of ΔH° is 591.1kJ/mol .

The value of ΔS° is 0.3211 kJ/K .

Temperature is 298K .

Formula

The expression for free energy change is,

ΔG=ΔG°+RTln(Q)

Where,

  • ΔG is the free energy change for a reaction at specified pressure.
  • R is the gas constant (8.3145JK1mol1) .
  • T is the absolute temperature.
  • Q is the reaction constant.

Since, the reaction is at equilibrium, the free energy change,

ΔG=0Q=K

Where,

K is the equilibrium constant.

Substitute these values in free energy change expression.

ΔG=ΔG°+RTln(Q)ΔG°=RTln(K)ln(K)=ΔG°RT

Substitute the values of R,ΔG° and T in the above expression.

ln(K)=ΔG°RT=495.4×103J(8.3145J/K)(298K)K=1.53×1087_

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The reaction corresponding to the formation of C2F2 ; the value of ΔHf° and ΔGf° for C2F2 and C6F6 is given. The value of ΔS° and K at the given temperature is to be calculated. The value of K at the given temperature, assuming that ΔH° and ΔS° are temperature independent is to be calculated.

Concept introduction: Equilibrium constant, K , is defined as the ratio of the concentration of products to that of the reactants at equilibrium. If a given reaction is at equilibrium, the free energy change is,

ΔG=0Q=K

The expression for free energy change is,

ΔG=ΔG°+RTln(K)

The formula of ΔH° is,

ΔH°=npΔH°(product)nfΔH°(reactant)

Explanation of Solution

Explanation

Given

The value of ΔH° is 591.1kJ/mol .

The value of ΔS° is 0.3211 kJ/K .

Temperature is 3000 K .

The conversion of kilo-joule (kJ) into joule (J) is done as,

1kJ=103J

Hence,

The conversion of 591.1kJ into joule is,

591.1kJ=(591.1×103)J=591.1×103J

The conversion of 0.3211 kJ into joule is,

0.3211=(0.3211×103)J=3.2×102J

The formula of ΔG° is,

ΔG°=ΔH°TΔS° (1)

And,

ΔG°=RTln(K) (2)

Where,

  • ΔH° is the standard enthalpy of reaction.
  • ΔG° is the free energy change.
  • T is the given temperature.
  • ΔS° is the standard enthalpy of reaction.

Substitute the value of ΔG° from equation (2) into equation (1).

ΔH°TΔS°=RTln(K)ln(K)=(ΔH°TΔS°RT)

Where,

  • R is the gas constant (8.3145JK1mol1) .
  • K is the equilibrium constant.

Substitute the values of ΔH°,R,ΔS° and T in the above equation.

ln(K)=(ΔH°TΔS°RT)=591.1J×103(3000K×3.2×102J/K)(8.3145J/K)(3000K)=3.11×106_

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Chapter 17 Solutions

Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition

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