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 13, Problem 63E

At 35°C, K = 1.6 × 10−5 for the reaction

2 NOCl ( g ) 2 NO ( g ) + Cl 2 ( g )

Calculate the concentrations of all species at equilibrium for each of the following original mixtures.

a. 2.0 moles of pure NOCI in a 2.0-L flask

b. 1.0 mole of NOCI and 1.0 mole of NO in a 1.0-L flask

c. 2.0 moles of NOCI and 1.0 mole of CI2 in a 1.0-L flask

(a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The equilibrium constant value for a decomposition reaction of NOCl is given. The equilibrium concentrations of the species involved in the given reaction are to be calculated.

Concept introduction: The state when the reactants involved in a chemical reaction and the products formed in the reaction exist in concentrations having no further tendency to change is known as an equilibrium state of the reaction. When the equilibrium constant is expressed in terms of concentration, it is represented as K .

To determine: The equilibrium concentrations of the species involved in the given reaction.

Answer to Problem 63E

The equilibrium concentration of NOCl(g) is 1.0M_ , of NO(g) is 0.032M_ and of Cl2(g) is 0.016M_ .

Explanation of Solution

Given

The stated reaction is,

2NOCl(g)2NO(g)+Cl2(g)

The initial number of moles NOCl is 2.0moles .

The volume of the flask is 2.0L .

The equilibrium constant (K) is 1.6×105 .

The concentration of a reactant is calculated by the formula,

Concentration=MolesVolume(L)

The initial concentration of NOCl is calculated by the formula,

ConcentrationofNOCl=MolesofNOClVolumeoftheflask(L)

Substitute the given values of the number of moles of NOCl and the volume of the flask in the above expression.

ConcentrationofNOCl=2.0mole2.0L=1.0M

The concentration of NOCl consumed is assumed to be 2x .

The equilibrium concentrations are represented as,

2NOCl(g)2NO(g)+Cl2(g)Initialconcentration1.000Change2x+2x+xEquilibriumconcentration1.02x2xx

At equilibrium, the equilibrium ratio is expressed by the formula,

K=ConcentrationofproductsConcentrationofreactants

Where,

  • K is the equilibrium constant.

The equilibrium ratio for the given reaction is,

K=[NO]2[Cl2][NOCl]2 (1)

According to the formulated ICE table,

The equilibrium concentration of NOCl(g) is (1.02x)M .

The equilibrium initial concentration of NO(g) is (2x)M .

The equilibrium initial concentration of Cl2(g) is (x)M .

Substitute these values in equation (1).

K=[NO]2[Cl2][NOCl]2K=[2x]2[x][1.02x]2

The given value of K is 1.6×105 .

Substitute the value of K in the above expression.

1.6×105=[2x]2[x][1.02x]2x=0.01550.016

The equilibrium concentration of NOCl(g) is calculated by the formula,

EquilibriumconcentrationofNOCl(g)=(1.02x)

Substitute the calculated value of x in the above expression.

EquilibriumconcentrationofNOCl(g)=(1.02x)=(1.02(0.016))M1.0M_

The equilibrium concentration of NO(g) is calculated by the formula,

EquilibriumconcentrationofNO(g)=(2x)

Substitute the calculated value of x in the above expression.

EquilibriumconcentrationofNO(g)=(2x)=2(0.016)M=0.032M_

The equilibrium concentration of Cl2(g) is calculated by the formula,

EquilibriumconcentrationofCl2(g)=(x)

Substitute the calculated value of x in the above expression.

EquilibriumconcentrationofCl2(g)=(x)=0.016M_

Conclusion

The equilibrium concentration of NOCl(g) is 1.0M_ , of NO(g) is 0.032M_ and of Cl2(g) is 0.016M_ .

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The equilibrium constant value for a decomposition reaction of NOCl is given. The equilibrium concentrations of the species involved in the given reaction are to be calculated.

Concept introduction: The state when the reactants involved in a chemical reaction and the products formed in the reaction exist in concentrations having no further tendency to change is known as an equilibrium state of the reaction. When the equilibrium constant is expressed in terms of concentration, it is represented as K .

To determine: The equilibrium concentrations of the species involved in the given reaction.

Answer to Problem 63E

The equilibrium concentration of NOCl(g) is 1.0M_ , of NO(g) is 1.0M_ and of Cl2(g) is 1.6×10-5M_ .

Explanation of Solution

Given

The stated reaction is,

2NOCl(g)2NO(g)+Cl2(g)

The initial number of moles NOCl is 1.0mole .

The initial number of moles NO is 1.0mole .

The volume of the flask is 1.0L .

The equilibrium constant (K) is 1.6×105 .

The concentration of a reactant is calculated by the formula,

Concentration=MolesVolume(L)

The initial concentration of NOCl is calculated by the formula,

ConcentrationofNOCl=MolesofNOClVolumeoftheflask(L)

Substitute the given values of the number of moles of NOCl and the volume of the flask in the above expression.

ConcentrationofNOCl=1.0mole1.0L=1.0M

The initial concentration of NO is calculated by the formula,

ConcentrationofNO=MolesofNOVolumeoftheflask(L)

Substitute the given values of the number of moles of NO and the volume of the flask in the above expression.

ConcentrationofNO=1.0mole1.0L=1.0M

The concentration of NOCl consumed is assumed to be 2x .

The equilibrium concentrations are represented as,

2NOCl(g)2NO(g)+Cl2(g)Initialconcentration1.01.00Change2x+2x+xEquilibriumconcentration1.02x1.0+2xx

At equilibrium, the equilibrium ratio is expressed by the formula,

K=ConcentrationofproductsConcentrationofreactants

Where,

  • K is the equilibrium constant.

The equilibrium ratio for the given reaction is,

K=[NO]2[Cl2][NOCl]2 (1)

According to the formulated ICE table,

The equilibrium concentration of NOCl(g) is (1.02x)M .

The equilibrium initial concentration of NO(g) is (1.0+2x)M .

The equilibrium initial concentration of Cl2(g) is (x)M .

Substitute these values in equation (1).

K=[NO]2[Cl2][NOCl]2K=[1+2x]2[x][1.02x]2

The given value of K is 1.6×105 .

Substitute the value of K in the above expression.

1.6×105=[1+2x]2[x][1.02x]2x=0.00015991.6×10-5

The equilibrium concentration of NOCl(g) is calculated by the formula,

EquilibriumconcentrationofNOCl(g)=(1.02x)

Substitute the calculated value of x in the above expression.

EquilibriumconcentrationofNOCl(g)=(1.02x)=(1.02(1.6×105))M1.0M_

The equilibrium concentration of NO(g) is calculated by the formula,

EquilibriumconcentrationofNO(g)=(1.0+2x)

Substitute the calculated value of x in the above expression.

EquilibriumconcentrationofNO(g)=(1.0+2x)=(1.0+2(0.016))M1.0M_

The equilibrium concentration of Cl2(g) is calculated by the formula,

EquilibriumconcentrationofCl2(g)=(x)

Substitute the calculated value of x in the above expression.

EquilibriumconcentrationofCl2(g)=(x)=1.6×10-5M_

Conclusion

The equilibrium concentration of NOCl(g) is 1.0M_ , of NO(g) is 1.0M_ and of Cl2(g) is 1.6×10-5M_ .

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The equilibrium constant value for a decomposition reaction of NOCl is given. The equilibrium concentrations of the species involved in the given reaction are to be calculated.

Concept introduction: The state when the reactants involved in a chemical reaction and the products formed in the reaction exist in concentrations having no further tendency to change is known as an equilibrium state of the reaction. When the equilibrium constant is expressed in terms of concentration, it is represented as K .

To determine: The equilibrium concentrations of the species involved in the given reaction.

Answer to Problem 63E

The equilibrium concentration of NOCl(g) is 2.0M_ , of NO(g) is 8.0×10-3M_ and of Cl2(g) is 1M_ .

Explanation of Solution

Given

The stated reaction is,

2NOCl(g)NO(g)+Cl2(g)

The initial number of moles NOCl is 2.0moles .

The initial number of moles Cl2 is 1.0mole .

The volume of the flask is 1.0L .

The equilibrium constant (K) is 1.6×105 .

The concentration of a reactant is calculated by the formula,

Concentration=MolesVolume(L)

The initial concentration of NOCl is calculated by the formula,

ConcentrationofNOCl=MolesofNOClVolumeoftheflask(L)

Substitute the given values of the number of moles of NOCl and the volume of the flask in the above expression.

ConcentrationofNOCl=2.0mole1.0L=2.0M

The initial concentration of Cl2 is calculated by the formula,

ConcentrationofCl2=MolesofCl2Volumeoftheflask(L)

Substitute the given values of the number of moles of Cl2 and the volume of the flask in the above expression.

ConcentrationofCl2=1.0mole1.0L=1.0M

The concentration of NOCl consumed is assumed to be 2x .

The equilibrium concentrations are represented as,

2NOCl(g)2NO(g)+Cl2(g)Initialconcentration2.001.0Change2x+2x+xEquilibriumconcentration2.02x+2x1.0+x

At equilibrium, the equilibrium ratio is expressed by the formula,

K=ConcentrationofproductsConcentrationofreactants

Where,

  • K is the equilibrium constant.

The equilibrium ratio for the given reaction is,

K=[NO]2[Cl2][NOCl]2 (1)

According to the formulated ICE table,

The equilibrium concentration of NOCl(g) is (2.02x)M .

The equilibrium initial concentration of NO(g) is (2x)M .

The equilibrium initial concentration of Cl2(g) is (1.0+x)M .

Substitute these values in equation (1).

K=[NO]2[Cl2][NOCl]2K=[2x]2[1.0+x][2.02x]2

The given value of K is 1.6×105 .

The value of x is assumed to very less than 1 .

Substitute the value of K in the above expression.

1.6×105=[2x]2[1.0][2.0]2x=4×10-3

The equilibrium concentration of NOCl(g) is calculated by the formula,

NOCl(g)

Substitute the calculated value of x in the above expression.

EquilibriumconcentrationofNOCl(g)=(2.02x)=(2.02(4×103))M2.0M_

The equilibrium concentration of NO(g) is calculated by the formula,

EquilibriumconcentrationofNO(g)=(2x)

Substitute the calculated value of x in the above expression.

EquilibriumconcentrationofNO(g)=(2x)=(2(4×103))M=8.0×10-3M_

The equilibrium concentration of Cl2(g) is calculated by the formula,

EquilibriumconcentrationofCl2(g)=(1.0+x)

Substitute the calculated value of x in the above expression.

EquilibriumconcentrationofCl2(g)=(1.0+x)=(1.0+(4×103))1M_

Conclusion

The equilibrium concentration of NOCl(g) is 2.0M_ , of NO(g) is 8.0×10-3M_ and of Cl2(g) is 1M_

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Chapter 13 Solutions

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

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