Chemistry
Chemistry
10th Edition
ISBN: 9781305957404
Author: Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
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Textbook Question
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Chapter 16, Problem 26E

Use the following data to calculate the Ksp value for each solid.

a. The solubility of Pb3(PO4) is 6.2 × 10−12 mol/L.

b. The solubility of Li2CO3 is 7.4 × 10−2 mol/L.

(a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The solubility of Pb3(PO4)2 and Li2CO3 is given. The solubility product of Pb3(PO4)2 and Li2CO3 is to be calculated.

Concept introduction: The solubility product, Ksp is the equilibrium constant that is applied when salt partially dissolve in a solvent. The solubility product of dissociation of AxBy is calculated as,

Ksp=[A]x[B]y

Answer to Problem 26E

Answer

The solubility product of Pb3(PO4)2 is 9.9×1055_ .

Explanation of Solution

Explanation

To determine: The solubility product of Pb3(PO4)2 .

The concentration of Pb2+ is 18.6×1012mol/L_ .

Given

Solubility of Pb3(PO4)2 is 6.2×1012mol/L .

Since, solid Pb3(PO4)2 is placed in contact with water. Therefore, compound present before the reaction is Pb3(PO4)2 and H2O . The dissociation reaction of Pb3(PO4)2 is,

Pb3(PO4)2(s)3Pb2+(aq)+2PO43(aq)

Since, Pb3(PO4)2 does not dissolved initially, hence,

[Pb2+]initial=[PO43]initial=0

The concentration at equilibrium can be calculated from the measured solubility of Pb3(PO4)2 . If 6.2×1012mol of Pb3(PO4)2 is dissolved in 1.0L of solution, the change in solubility will be equal to 6.2×1012mol/L . The reaction is,

Pb3(PO4)2(s)3Pb2+(aq)+2PO43(aq)

Therefore,

6.2×1012mol/LPb3(PO4)23(6.2×1012mol/L)Pb2++2(6.2×1012mol/L)PO43

The equilibrium concentration of Pb2+ is written as,

[Pb2+]=[Pb2+]initial+changetoreachequilibrium

Substitute the value of [Pb2+]initial and change to reach equilibrium in the above equation.

[Pb2+]=[Pb2+]initial+changetoreachequilibrium=0+3(6.2×1012mol/L)=18.6×1012mol/L_

The concentration of PO43 is 12.4×1012mol/L_ .

Given

Solubility of Pb3(PO4)2 is 4.8×105mol/L .

The equilibrium concentration of PO43 is written as,

[PO43]=[PO43]initial+changetoreachequilibrium

Substitute the value of [PO43]initial and change to reach equilibrium in the above equation.

[PO43]=[PO43]initial+changetoreachequilibrium=0+(2×6.2×1012mol/L)=12.4×1012mol/L_

The solubility product of Pb3(PO4)2 is 9.9×1055_ .

The concentration of Pb2+ is 18.6×1012mol/L .

The concentration of PO43 is 12.4×1012mol/L .

Formula

The solubility product of Pb3(PO4)2 is calculated as,

Ksp=[Pb2+]3[PO43]2

Where,

  • Ksp is solubility product.
  • [Pb2+] is concentration of Pb2+ .
  • [PO43] is concentration of PO43

Substitute the values of [Pb2+] and [PO43] in the above expression.

Ksp=[Pb2+]3[PO43]2=(18.6×1012)3(12.4×1012)2=9.9×1055_

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The solubility of Pb3(PO4)2 and Li2CO3 is given. The solubility product of Pb3(PO4)2 and Li2CO3 is to be calculated.

Concept introduction: The solubility product, Ksp is the equilibrium constant that is applied when salt partially dissolve in a solvent. The solubility product of dissociation of AxBy is calculated as,

Ksp=[A]x[B]y

Answer to Problem 26E

Answer

The solubility product of Li2CO3 is 1.6×103_ .

Explanation of Solution

Explanation

To determine: The solubility product of Li2CO3 .

The concentration of Li+ is 14.8×102mol/L_ .

Given

Solubility of Li2CO3 is 7.4×102mol/L .

Since, solid Li2CO3 is placed in contact with water. Therefore, compound present before the reaction is Li2CO3 and H2O . The dissociation reaction of Li2CO3 is,

Li2CO3(s)2Li+(aq)+CO32(aq)

Since, Li2CO3 does not dissolved initially, hence,

[Li+]initial=[CO32]initial=0

The concentration at equilibrium can be calculated from the measured solubility of Li2CO3 . If 7.4×102mol/L of Li2CO3 is dissolved in 1.0L of solution, the change in solubility will be equal to 7.4×102mol/L . The reaction is,

Li2CO3(s)2Li+(aq)+CO32(aq)

Therefore,

7.4×102mol/LLi2CO32(7.4×102mol/L)Li++(7.4×102mol/L)CO32

The equilibrium concentration of Li+ is written as,

[Li+]=[Li+]initial+changetoreachequilibrium

Substitute the value of [Li+]initial and change to reach equilibrium in the above equation.

[Li+]=[Li+]initial+changetoreachequilibrium=0+2(7.4×102mol/L)=14.8×102mol/L_

The concentration of CO32 is 7.4×102mol/L_ .

Given

Solubility of Li2CO3 is 1.32×105mol/L .

The equilibrium concentration of CO32 is written as,

[CO32]=[CO32]initial+changetoreachequilibrium

Substitute the value of [CO32]initial and change to reach equilibrium in the above equation.

[CO32]=[CO32]initial+changetoreachequilibrium=0+(7.4×102mol/L)=7.4×102mol/L_

The solubility product of Li2CO3 is 1.6×103_ .

The concentration of Li+ is 7.4×102mol/L .

The concentration of CO32 is 14.8×102mol/L .

Formula

The solubility product of Li2CO3 is calculated as,

Ksp=[Li+]2[CO32]

Where,

  • Ksp is solubility product.
  • [Li+] is concentration of Li+ .
  • [CO32] is concentration of CO32

Substitute the values of [Bi3+] and [I] in the above expression.

Ksp=[Li+]2[CO32]=(14.8×102)2(7.4×102)=1.6×103_

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Chapter 16 Solutions

Chemistry

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