EBK CHEMISTRY: AN ATOMS FIRST APPROACH
EBK CHEMISTRY: AN ATOMS FIRST APPROACH
2nd Edition
ISBN: 8220100552236
Author: ZUMDAHL
Publisher: CENGAGE L
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Chapter 16, Problem 68E

(a)

Interpretation Introduction

Interpretation: The reaction of N2 and 3H2 is given. The value of ΔG is to be calculated for given conditions.

Concept introduction: Reaction quotient, Q , is the measure of concentration or partial pressure of reactants and products of a system before the equilibrium point is reached.

The expression for free energy change is,

ΔG=ΔG°+RTln(Q)

To determine: The value of ΔG for the given values.

(a)

Expert Solution
Check Mark

Answer to Problem 68E

The value of ΔG for the given reaction is 67kJ/mol_ .

Explanation of Solution

The reaction that takes place is,

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

Refer to Appendix 4 .

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

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

The formula of ΔG° is,

ΔG°=npΔG°(product)nfΔG°(reactant)

Where,

  • np is number of moles of each product.
  • nr is number of moles each reactant.
  • ΔG°(product) is free energy of product at a pressure of 1atm .
  • ΔG°(reactant) is 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)1(0)3(0)]kJ=34kJ_

Given

Pressure of H2 , PH2 , is 200atm .

Pressure of N2 , PN2 , is 200atm .

Pressure of NH3 , PNH3 , is 50atm .

Formula

The reaction quotient, is expressed by the formula,

Q=PressureofproductsPressureofreactants

Where,

  • Q is the reaction quotient.

The reaction quotient expression for the given reaction is,

Q=(PNH3)2(PN2)(PH2)3

Substitute the values of PH2,PN2 and PNH3 in the above expression.

Q=(PNH3)2(PN2)(PH2)3=(50)2(200)(200)3=1.6×106_

Reaction quotient is 1.6×106 .

The value of ΔG° is 34kJ .

Temperature is 298K .

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

1kJ=103J

Hence,

The conversion of 34kJ into joule is,

34kJ=(34×103)J=3.4×104J

Formula

The expression for free energy change is,

ΔG=ΔG°+RTln(Q)

Where,

  • ΔG is free energy change for a reaction at specified pressure.
  • R is rate law constant (8.3145J/K) .
  • T is absolute temperature.
  • ΔG° is free energy change for a reaction at a pressure of 1atm .

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

ΔG=ΔG°+RTln(Q)=(3.4×104)+(8.3145J/K)(298K)ln(1.6×106)=6.7×104J/mol

The conversion of joule per mole (J/mol) into kilo-joule per mole (kJ/mol) is done as,

1J/mol=103kJ/mol

Hence,

The conversion of 6.7×104J/mol into kilo-joule per mole is,

6.7×104J/mol=(6.7×104)kJ/mol=67kJ/mol_

(b)

Interpretation Introduction

Interpretation: The reaction of N2 and 3H2 is given. The value of ΔG is to be calculated for given conditions.

Concept introduction: Reaction quotient, Q , is the measure of concentration or partial pressure of reactants and products of a system before the equilibrium point is reached.

The expression for free energy change is,

ΔG=ΔG°+RTln(Q)

To determine: The value of ΔG for the given values.

(b)

Expert Solution
Check Mark

Answer to Problem 68E

The value of ΔG for the given reaction is 68.4kJ/mol_ .

Explanation of Solution

The reaction that takes place is,

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

Refer to Appendix 4 .

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

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

The formula of ΔG° is,

ΔG°=npΔG°(product)nfΔG°(reactant)

Where,

  • np is number of moles of each product.
  • nr is number of moles each reactant.
  • ΔG°(product) is free energy of product at a pressure of 1atm .
  • ΔG°(reactant) is 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)1(0)3(0)]kJ=34kJ_

Given

Pressure of H2 , PH2 , is 600atm .

Pressure of N2 , PN2 , is 200atm .

Pressure of NH3 , PNH3 , is 200atm .

Formula

The reaction quotient is expressed by the formula,

Q=PressureofproductsPressureofreactants

Where,

  • Q is the reaction quotient.

The reaction quotient expression for the given reaction is,

Q=(PNH3)2(PN2)(PH2)3

Substitute the values of PH2,PN2 and PNH3 in the above expression.

Q=(PNH3)2(PN2)(PH2)3=(200)2(200)(600)3=9.26×107_

Reaction quotient is 9.26×107 .

The value of ΔG° is 34kJ .

Temperature is 298K .

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

1kJ=103J

Hence,

The conversion of 34kJ into joule is,

34kJ=(34×103)J=3.4×104J

Formula

The expression for free energy change is,

ΔG=ΔG°+RTln(Q)

Where,

  • ΔG is free energy change for a reaction at specified pressure.
  • R is rate law constant (8.3145J/K) .
  • T is absolute temperature.
  • ΔG° is free energy change for a reaction at a pressure of 1atm .

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

ΔG=ΔG°+RTln(Q)=(3.4×104)+(8.3145J/K)(298K)ln(9.26×107)=6.84×104J/mol

The conversion of joule per mole (J/mol) into kilo-joule per mole (kJ/mol) is done as,

1J/mol=103kJ/mol

Hence,

The conversion of 6.84×104J/mol into kilo-joule per mole is,

6.84×104J/mol=(6.84×104)kJ/mol=68.4kJ/mol_

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Chapter 16 Solutions

EBK CHEMISTRY: AN ATOMS FIRST APPROACH

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Predict the...Ch. 16 - Prob. 52ECh. 16 - Prob. 53ECh. 16 - The major industrial use of hydrogen is in the...Ch. 16 - Prob. 55ECh. 16 - At 100C and 1.00 atm, H = 40.6 kJ/mol for the...Ch. 16 - Prob. 57ECh. 16 - Prob. 58ECh. 16 - Prob. 59ECh. 16 - Prob. 60ECh. 16 - Consider the reaction...Ch. 16 - Consider the reaction 2POCl3(g)2PCl3(g)+O2(g) a....Ch. 16 - Prob. 63ECh. 16 - Consider two reactions for the production of...Ch. 16 - Prob. 65ECh. 16 - Prob. 66ECh. 16 - Consider the reaction 2NO2(g)N2O4(g) For each of...Ch. 16 - Prob. 68ECh. 16 - One of the reactions that destroys ozone in the...Ch. 16 - Hydrogen sulfide can be removed from natural gas...Ch. 16 - Consider the following reaction at 25.0C:...Ch. 16 - The standard free energies of formation and the...Ch. 16 - Calculate G forH2O(g)+12O2(g)H2O2(g) at 600. K,...Ch. 16 - The Ostwald process for the commercial production...Ch. 16 - Cells use the hydrolysis of adenosine...Ch. 16 - One reaction that occurs in human metabolism is...Ch. 16 - Prob. 77ECh. 16 - Consider the following reaction at 298 K:...Ch. 16 - Prob. 79ECh. 16 - The equilibrium constant K for the reaction...Ch. 16 - Prob. 81AECh. 16 - Some water is placed in a coffee-cup calorimeter....Ch. 16 - Consider the following system at equilibrium at...Ch. 16 - Calculate the entropy change for the vaporization...Ch. 16 - As O2(l) is cooled at 1 atm, it freezes at 54.5 K...Ch. 16 - Prob. 86AECh. 16 - Using the following data, calculate the value of...Ch. 16 - Prob. 88AECh. 16 - Carbon monoxide is toxic because it bonds much...Ch. 16 - Prob. 90AECh. 16 - Prob. 91AECh. 16 - Use the equation in Exercise 79 to determine H and...Ch. 16 - Consider the reaction...Ch. 16 - Consider the following diagram of free energy (G)...Ch. 16 - Prob. 95CWPCh. 16 - For rubidium Hvapo=69.0KJ/mol at 686C, its boiling...Ch. 16 - Given the thermodynamic data below, calculate S...Ch. 16 - Prob. 98CWPCh. 16 - Prob. 99CWPCh. 16 - Consider the dissociation of a weak acid HA (Ka =...Ch. 16 - Prob. 101CWPCh. 16 - The equilibrium constant for a certain reaction...Ch. 16 - For the following reactions at constant pressure,...Ch. 16 - The standard enthalpy of formation of H2O(l) at...Ch. 16 - Prob. 105CPCh. 16 - Liquid water at 25C is introduced into an...Ch. 16 - Using data from Appendix 4, calculate H, G, and K...Ch. 16 - Prob. 108CPCh. 16 - Prob. 109CPCh. 16 - Prob. 110CPCh. 16 - Prob. 111CPCh. 16 - Prob. 112CPCh. 16 - If wet silver carbonate is dried in a stream of...Ch. 16 - Carbon tetrachloride (CCl4) and benzene (C6H6)...Ch. 16 - Sodium chloride is added to water (at 25C) until...Ch. 16 - Prob. 116CPCh. 16 - Prob. 117CPCh. 16 - Prob. 118IPCh. 16 - Prob. 119IPCh. 16 - Prob. 120IPCh. 16 - Consider a sample containing 5.00 moles of a...Ch. 16 - Impure nickel, refined by smelting sulfide ores in...
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