CHEMISTRY (LOOSELEAF) >CUSTOM<
CHEMISTRY (LOOSELEAF) >CUSTOM<
13th Edition
ISBN: 9781264348992
Author: Chang
Publisher: MCGRAW-HILL HIGHER EDUCATION
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Chapter 17, Problem 17.67QP

Calculate ΔG° and KP for the following processes at 25°C:

  1. (a) H 2 ( g ) + Br 2 ( l ) 2 HBr ( g )
  2. (b) 1 2 H 2 ( g ) + 1 2 Br 2 ( l ) HBr ( g )

Account for the differences in ΔG° and KP obtained for (a) and (b).

(a)

Expert Solution
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Interpretation Introduction

Interpretation:

Given the heterogeneous equilibrium reaction free energy (ΔGο) value and equilibrium pressure (Kp) values should be calculated at 25°C.

Concept Introduction:

Free energy (Gibbs free energy) is the term that is used to explain the total energy content in a thermodynamic system that can be converted into work.  The free energy is represented by the letter G.  All spontaneous process is associated with the decrease of free energy in the system.  The standard free energy change (ΔG°rxn) is the difference in free energy of the reactants and products in their standard state.

ΔG°rxn=nΔGf°(Products)-nΔGf°(Reactants)

Where, "n" is the number of moles

    ΔG0=-RTlnKΔG=Free energyΔG0=Standardstate free energyR=GasConstant(0.0826l.atm/K.atm)T=Temprature273KK=EqulibriumConstant(KPandKC)

Explanation of Solution

Calculate the Gibbs free (ΔG0) and partial pressure (Kp) values for given reaction (a).

(a).H2(g)+Br2(l)2HBr(g)ΔGrxn°=nΔGf°(Products)-mΔGf°(Reactants)ΔG0rxn=2ΔGf0(HBr)ΔGf0(H2)ΔGf0(Br2)ΔG0rxn=2(53.2kJ/mol)(1)(0)(1)(0)(The respactiveΔGf0kJ/molvaluestakingfromAppendix-2)ΔG0rxn=106.4kJ/mol

Substitute ΔG°,R,andT value in the fallowing equation to solve for Kp

ΔG0=-RTlnK---------[1] Letus consider following equation (1)ΔG°=106.4KJ/molΔG°values substituted equation (1) and rewrite the above equationInKp=ΔG°-RT=-(106.4×103J/mol)(8.314J/Kmol)(298K)InKP=ΔG0-RT=106.4×103J/mol(2477.572)=42.9(HereR=8.314,T=273+250C=298K)Kp=e42.9Kp=4×1018

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

Given the heterogeneous equilibrium reaction free energy (ΔGο) value and equilibrium pressure (Kp) values should be calculated at 25°C.

Concept Introduction:

Free energy (Gibbs free energy) is the term that is used to explain the total energy content in a thermodynamic system that can be converted into work.  The free energy is represented by the letter G.  All spontaneous process is associated with the decrease of free energy in the system.  The standard free energy change (ΔG°rxn) is the difference in free energy of the reactants and products in their standard state.

ΔG°rxn=nΔGf°(Products)-nΔGf°(Reactants)

Where, "n" is the number of moles

    ΔG0=-RTlnKΔG=Free energyΔG0=Standardstate free energyR=GasConstant(0.0826l.atm/K.atm)T=Temprature273KK=EqulibriumConstant(KPandKC)

Explanation of Solution

Calculate the standard entropy (ΔG0) and partial pressure (Kp) values for given reaction

12H2(g)+12Br2(l)HBr(g)ΔGrxn°=nΔGf°(Products)-mΔGf°(Reactants)ΔGrxn°=ΔGf°(HBr)[12ΔGf°(H2)+12ΔGf0(Br2)]ΔGrxn°=1(53.2KJ/mol)(12)(0)(12)(0)(The respactiveΔGf0,KJ/molvaluestakingfromequilibriumAppendix-2)ΔG°=53.2KJ/mol

Next we calculate the partial pressure values (Kp)

ΔG°=-RTlnK---------[1] Letus consider following equation (1)ΔG°=53.2KJ/molΔG0values substituted equation (1) and rewrite the above equationInKp=ΔG°-RT=-(-53.2×103J/mol)(8.314J/kmol)(298K)InKP=ΔG0-RT=53.2×103J/mol(2477.572)=21.5Kp=e21.5Kp=2×109

The free energy value is ΔG°=53.2KJ/mol and equilibrium pressure value is Kp=2×109

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Chapter 17 Solutions

CHEMISTRY (LOOSELEAF) >CUSTOM<

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