EBK CHEMISTRY: AN ATOMS FIRST APPROACH
EBK CHEMISTRY: AN ATOMS FIRST APPROACH
2nd Edition
ISBN: 9780100552234
Author: ZUMDAHL
Publisher: YUZU
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Chapter 15, Problem 39E

The Ksp for silver sulfate (Ag2SO4) is 1.2 × 10−5. Calculate the solubility of silver sulfate in each of the following.

a. water

b. 0.10 M AgNO3

c. 0.20 M K2SO4.

(a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The solubility product of Ag2SO4 is given. By using this value, the solubility of Ag2SO4 is to be calculated for each given conditions.

Concept introduction: Solubility is defined as the maximum amount of solute that can dissolve at a certain amount of solvent at certain temperature. 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

Where,

  • x is coefficient of concentration of A .
  • y is coefficient of concentration of B .

Answer to Problem 39E

Answer

The solubility of Ag2SO4 in water is 0.0144mol/L_ .

Explanation of Solution

Explanation

To determine: The solubility of Ag2SO4 in water.

The solubility of Ag2SO4 in water is 0.0144mol/L_ .

Given

Solubility product of Ag2SO4 is 1.2×105 .

Since, solid Ag2SO4 is placed in contact with water. Therefore, compound present before the reaction is Ag2SO4 and H2O . The dissociation reaction of Ag2SO4 is,

Ag2SO4(s)2Ag+(aq)+SO42(aq)

Since, Ag+ does not dissolved initially, hence,

[Ag+]initial=[SO42]initial=0

The solubility of Ag2SO4 can be calculated from the concentration of ions at equilibrium.

It is assumed that smol/L of solid is dissolved to reach the equilibrium. The meaning of 2:1 stoichiometry of salt is,

smol/LAg2SO42smol/LAg++smol/LSO42

Make the ICE table for the dissociation reaction of Ag2SO4 .

Ag2SO4(s)2Ag+(aq)+       SO42(aq)Initial(M):00Chang(M):2ssEquilibrium(M):2ss

Formula

The solubility product of Ag2SO4 is calculated as,

Ksp=[Ag+]2[SO42]=(2s)2(s)

Where,

  • Ksp is solubility product.
  • [Ag+] is concentration of Ag+ .
  • [SO42] is concentration of SO42 .
  • s is the solubility.

Substitute the value of Ksp in the above expression.

Ksp=(2s)2(s)1.2×105=4s3s=0.0144mol/L_

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The solubility product of Ag2SO4 is given. By using this value, the solubility of Ag2SO4 is to be calculated for each given conditions.

Concept introduction: Solubility is defined as the maximum amount of solute that can dissolve at a certain amount of solvent at certain temperature. 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

Where,

  • x is coefficient of concentration of A .
  • y is coefficient of concentration of B .

Answer to Problem 39E

Answer

The solubility of Ag2SO4 in 0.10M AgNO3 is 0.0012mol/L_ .

Explanation of Solution

Explanation

To determine: The solubility of Ag2SO4 in 0.10M AgNO3 .

The solubility of Ag2SO4 in 0.10M AgNO3 is 0.0012mol/L_ .

Given

Solubility product of Ag2SO4 is 1.2×105 .

Concentration of AgNO3 is 0.10M .

Since, AgNO3 is soluble in aqueous solution. The dissociation reaction of AgNO3 is,

AgNO3(aq)Ag+(aq)+NO3(aq)

Since, the ratio of moles existed between dissolved ions and solid is 1:1 , 0.10M of AgNO3 contains,

[Ag+]=[NO3]=0.10M

The solubility of Ag2SO4 can be calculated from the concentration of ions at equilibrium.

Make the ICE table for the dissociation reaction of Ag2SO4 .

Ag2SO4(s)2Ag+(aq)+     SO42(aq)Initial(M):0.100Chang(M):2ssEquilibrium(M):0.10+2ss

Formula

The solubility product of Ag2SO4 is calculated as,

Ksp=[Ag+]2[SO42]=(2s+0.10)2(s)

Where,

  • Ksp is solubility product.
  • [Ag+] is concentration of Ag+ .
  • [SO42] is concentration of SO42 .
  • s is the solubility.

Since, value of s is expected to be very small, hence, it is assumed that,

2s+0.100.10

Substitute this value in the solubility product expression.

Ksp=(2s+0.10)2(s)=(0.10)2(s)

Substitute the value of Ksp in the above expression.

Ksp=(0.10)2(s)1.2×105=(0.10)2(s)s=0.0012mol/L_

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The solubility product of Ag2SO4 is given. By using this value, the solubility of Ag2SO4 is to be calculated for each given conditions.

Concept introduction: Solubility is defined as the maximum amount of solute that can dissolve at a certain amount of solvent at certain temperature. 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

Where,

  • x is coefficient of concentration of A .
  • y is coefficient of concentration of B .

Answer to Problem 39E

Answer

The solubility of Ag2SO4 in 0.20M K2SO4 is 0.0039mol/L_ .

Explanation of Solution

Explanation

To determine: The solubility of Ag2SO4 in 0.20M K2SO4 .

The solubility of Ag2SO4 in 0.20M K2SO4 is 0.0039mol/L_ .

Given

Solubility product of Ag2SO4 is 1.2×105 .

Concentration of K2SO4 is 0.20M .

Since, K2SO4 is soluble in aqueous solution. The dissociation reaction of K2SO4 is,

K2SO4(aq)2K+(aq)+SO4(aq)

The concentration of SO4 is,

[SO42]=0.20M

The solubility of Ag2SO4 can be calculated from the concentration of ions at equilibrium.

Make the ICE table for the dissociation reaction of Ag2SO4 .

Ag2SO4(s)2Ag+(aq)+     SO42(aq)Initial(M):00.20Chang(M):2ssEquilibrium(M):2s0.20+s

Formula

The solubility product of Ag2SO4 is calculated as,

Ksp=[Ag+]2[SO42]=(2s)2(0.20+s)

Where,

  • Ksp is solubility product.
  • [Ag+] is concentration of Ag+ .
  • [SO42] is concentration of SO42 .
  • s is the solubility.

Since, value of s is expected to be very small, hence, it is assumed that,

0.20+s0.20

Substitute this value in the solubility product expression.

Ksp=(2s)2(0.20+s)=(2s)2(0.20)

Substitute the value of Ksp in the above expression.

Ksp=(2s)2(0.20)1.2×105=0.8s2s=0.0039mol/L_

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Chapter 15 Solutions

EBK CHEMISTRY: AN ATOMS FIRST APPROACH

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