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Chapter 14, Problem 153AE

Acrylic acid (CH29CHCO2H) is a precursor for many important plastics. Ka for acrylic acid is 5.6 × 10−5.

a. Calculate the pH of a 0.10-M solution of acrylic acid.

b. Calculate the percent dissociation of a 0.10-M solution of acrylic acid.

c. Calculate the pH of a 0.050-M solution of sodium acrylate (NaC3H3O2).

(a)

Expert Solution
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Interpretation Introduction

Interpretation: The acid dissociation constant Ka   and molarity of acrylic acid and sodium acrylate are given. By using these values, the pH value of solution of acrylic acid and sodium acrylate and percent dissociation of solution of acrylic acid is to be calculated.

Concept introduction: The equilibrium constant Kb is the ratio of product of equilibrium concentrations of product to the equilibrium concentration of reactant base.

The equilibrium constant Ka is the ratio of product of equilibrium concentrations of product to the equilibrium concentration of reactant acid.

To determine: The change in concentration of H+ and the pH value of acrylic acid.

Answer to Problem 153AE

The pH value of acrylic acid is 2.63_ .

Explanation of Solution

Explanation

The dissociation reaction of acrylic acid is,

C3H3O2H(aq)C3H3O2-(aq)+H+(aq)

The concentration of H+ is 2.33×103M_ .

Given

The equilibrium constant is 5.6×105 .

The initial concentration of acrylic acid is 0.10M .

It is assumed that the change in concentration of [H+] is x .

Make the ICE table for the dissociation reaction of acrylic acid.

C3H3O2H(aq)C3H3O2(aq)H+(aq)Initial(M):0.1000Chang(M):xxxEquilibrium(M):0.10xxx

The expression for the acid dissociation constant for the given reaction is,

Ka=[C3H3O2][H+][C3H3O2H]

Substitute the value of Ka and equilibrium concentrations in the above equation.

Ka=[C3H3O2][H+][C3H3O2H]5.6×105=(x)(x)(0.10x)x2=5.6×105(0.10x)

Simplify the above equation,

5.6×105(0.10x)=x2x=2.33×103

Thus, the concentration [H+] is 2.33×103M_ .

The dissociation reaction of acrylic acid is,

C3H3O2H(aq)C3H3O2-(aq)+H+(aq)

The pH value of acrylic acid is 2.63_ .

The change in concentration of [H+] is 2.33×103M .

The pH is calculated using the formula,

pH=log10[H+]

Substitute the value of concentration of H+ in the above equation.

pH=log10[H+]=log10[2.33×103]=2.63_

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The acid dissociation constant Ka   and molarity of acrylic acid and sodium acrylate are given. By using these values, the pH value of solution of acrylic acid and sodium acrylate and percent dissociation of solution of acrylic acid is to be calculated.

Concept introduction: The equilibrium constant Kb is the ratio of product of equilibrium concentrations of product to the equilibrium concentration of reactant base.

The equilibrium constant Ka is the ratio of product of equilibrium concentrations of product to the equilibrium concentration of reactant acid.

To determine: The percent dissociation of solution of acrylic acid.

Answer to Problem 153AE

Answer

The percent dissociation of acrylic acid is 2.38%_ .

Explanation of Solution

Explanation

The dissociation reaction of acrylic acid is,

C3H3O2H(aq)C3H3O2(aq)+H+(aq)

The percent dissociation of solution of acrylic acid is 2.38%_ .

The concentration of [H+] is 2.33×103M . It is the amount of acrylic acid dissociated.

Formula

The percent dissociation is calculated using the formula,

Percent dissociation=AmountofacrylicaciddissociatedConcentrationofacrylicacidatequilibrium×100=x(0.10x)×100%

Substitute the value of x from part (a) in the above equation.

Percent dissociation=x(0.10x)×100%=2.33×103M(0.102.33×103)M×100%=2.38%_

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The acid dissociation constant Ka   and molarity of acrylic acid and sodium acrylate are given. By using these values, the pH value of solution of acrylic acid and sodium acrylate and percent dissociation of solution of acrylic acid is to be calculated.

Concept introduction: The equilibrium constant Kb is the ratio of product of equilibrium concentrations of product to the equilibrium concentration of reactant base.

The equilibrium constant Ka is the ratio of product of equilibrium concentrations of product to the equilibrium concentration of reactant acid.

To determine: The pH value of solution of sodium acrylate.

Answer to Problem 153AE

Answer

The pH value of sodium acrylate is 8.48_ .

Explanation of Solution

Explanation

The base dissociation reaction of sodium acrylate is,

C3H3O2(aq)+H2O(l)C3H3O2H(aq)+OH(aq)

The base dissociation constant of sodium acrylate is 1.786×1010_ .

Given

The initial concentration of sodium acrylate is 0.05M .

It is assumed that the change in concentration of [OH] is x .

Make the ICE table for the above reaction.

C3H3O2(aq)+H2O(l)C3H3O2H+OH(aq)Initial(M):0.0500Change(M):xxxEquilibrium(M):0.05xxx

The expression for dissociation constant for the given reaction is,

Kb=[C3H3O2H][OH][C3H3O2]

Substitute the equilibrium concentrations in the above expression.

Kb=(x)(x)(0.050x)M (1)

The acid dissociation constant of acrylic acid is 5.6×105 .

The relation between Kb and Ka is,

Ka×Kb=Kw

Where,

  • Kw is ion- product constant of water (1.0×1014) .

Substitute the values of Ka and Kw in the above equation.

Ka×Kb=Kw5.6×105×Kb=1.0×1014Kb=1.786×1010_

The stated reaction is,

C3H3O2(aq)+H2O(l)C3H3O2H(aq)+OH(aq)

The concentration of [OH] is 2.987×106M_ .

The base dissociation constant is 1.786×1010 .

Substitute the value of Kb in equation (1).

Kb=(x)(x)(0.050x)1.786×1010=x2(0.050x)x2=1.786×1010(0.050x)

Simplify the above equation,

x2=1.786×1010(0.050x)x=2.987×106

Thus, the concentration [OH] is 2.987×106M_ .

The pH value of sodium acrylate is 8.48_ .

The concentration of [OH] is 2.987×106M .

Formula

The pOH is calculated using the formula,

pOH=log10[OH]

Substitute the value of [OH] in the above equation.

pOH=log10[OH]=log10[2.987×106]=5.52

The relation between pOH and pH is,

pH+pOH=14

Substitute the value of pOH in the above equation.

pH+pOH=14pH=145.52=8.48_

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Chapter 14 Solutions

Bundle: Chemistry, 10th + Laboratory Handbook for General Chemistry, 3rd + Student Resource Center Printed Access Card + Student Solutions Manual for ... Access Card for Zumdahl/Zumdahl/DeCoste

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