Chemistry
Chemistry
10th Edition
ISBN: 9781305957404
Author: Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
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Chapter 17, Problem 59E

The major industrial use of hydrogen is in the production of ammonia by the Haber process:

3 H 2 ( g ) + N 2 ( g ) 2 NH 3 ( g )

a. Using data from Appendix 4, calculate ∆H°, ∆S°, and ∆G° for the Haber process reaction.

b. Is the reaction spontaneous at standard conditions?

c. At what temperatures is the reaction spontaneous at standard conditions? Assume ∆H° and ∆S° do not depend on temperature.

(a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The values of ΔS,ΔH and ΔG is to be calculated at 25°C for the given reaction. If the reaction is spontaneous is to be stated. The temperature at which the reaction is spontaneous is to be calculated.

Concept introduction:

The expression for ΔS is,

ΔS=npΔS(product)nfΔS(reactant)

The expression for ΔH is,

ΔH=npΔH(product)nfΔH(reactant)

The expression for ΔG is,

ΔG=npΔG(product)nfΔG(reactant)

Explanation of Solution

Explanation

The stated reaction is,

3H2(g)+N2(g)2NH3(g)

Refer to Appendix 4 .

The value of ΔS(J/Kmol) for the given reactant and product is,

Molecules ΔS(J/Kmol)
NH3(g) 193
N2(g) 192
H2(g) 131

The formula of ΔS is,

ΔS=npΔS(product)nfΔS(reactant)

Where,

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

Substitute all values from the table in the above equation.

ΔS=npΔS(product)nfΔS(reactant)=[2(193){3(131)+(192)}]J/K=199J/K_

The value of ΔH(kJ/mol) for the given reactant and product is,

Molecules ΔH(kJ/mol)
NH3(g) 46
N2(g) 0
H2(g) 0

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 all values from the table in the above equation.

ΔH=npΔH(product)nfΔH(reactant)=[2(46){3(0)+(0)}]kJ=92kJ_

The value of ΔG(kJ/mol) for the given reactant and product is,

Molecules ΔG(kJ/mol)
NH3(g) 17
N2(g) 0
H2(g) 0

The formula of ΔG is,

ΔG=npΔG(product)nfΔG(reactant)

Where,

  • ΔG is the standard Gibb’s free energy of reaction.
  • np is the number of moles of each product.
  • nr is the number of moles each reactant.
  • ΔG(product) is the standard Gibb’s free energy of product at a pressure of 1atm .
  • ΔG(reactant) is the standard Gibb’s free energy of reactant at a pressure of 1atm .

Substitute all values from the table in the above equation.

ΔG=npΔG(product)nfΔG(reactant)=[2(17){3(0)+(0)}]kJ=34kJ_

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The values of ΔS,ΔH and ΔG is to be calculated at 25°C for the given reaction. If the reaction is spontaneous is to be stated. The temperature at which the reaction is spontaneous is to be calculated.

Concept introduction:

The expression for ΔS is,

ΔS=npΔS(product)nfΔS(reactant)

The expression for ΔH is,

ΔH=npΔH(product)nfΔH(reactant)

The expression for ΔG is,

ΔG=npΔG(product)nfΔG(reactant)

Explanation of Solution

Explanation

A reaction is said to be spontaneous if the value of ΔG is negative.

Since, the value of ΔG for the given reaction is 34kJ , therefore, the given reaction is spontaneous.

The formula of ΔG is,

ΔG=ΔHTΔS

Where,

  • ΔH is the enthalpy of reaction.
  • ΔG is the free energy change.
  • T is the temperature.
  • ΔS is the entropy of reaction.

Since, the value of ΔH is negative, therefore, the reaction is spontaneous at lower temperature.

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The values of ΔS,ΔH and ΔG is to be calculated at 25°C for the given reaction. If the reaction is spontaneous is to be stated. The temperature at which the reaction is spontaneous is to be calculated.

Concept introduction:

The expression for ΔS is,

ΔS=npΔS(product)nfΔS(reactant)

The expression for ΔH is,

ΔH=npΔH(product)nfΔH(reactant)

The expression for ΔG is,

ΔG=npΔG(product)nfΔG(reactant)

Answer to Problem 59E

Answer

Solutions are as follows.

Explanation of Solution

Explanation

The value of ΔS for the given reaction is 199J/K .

The value of ΔH for the given reaction is 92kJ .

The negative value of ΔH suggests that the give reaction is exothermic. But ΔS favors opposite process. These opposite tendencies cancel out that means that the reaction has achieved equilibrium. The value of ΔG at equilibrium is zero.

The formula of ΔG is,

ΔG=ΔHTΔS

Where,

  • ΔH is the enthalpy of reaction.
  • ΔG is the free energy change.
  • T is the temperature.
  • ΔS is the entropy of reaction.

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

ΔG=ΔHTΔST=ΔHΔSΔG=92×103J199J/K0=462.3K_

The given reaction will be spontaneous below 462.3K_ .

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