Chemistry
Chemistry
10th Edition
ISBN: 9781305957404
Author: Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
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Chapter 17, Problem 100AE

In the text, the equation

Δ G = Δ G ° + R T In ( Q )

was derived for gaseous reactions where the quantities in Q were expressed in units of pressure. We also can use units of mol/L for the quantities in Q, specifical.ly for aqueous reactions. With this in mind, consider the reaction

HF ( a q ) H + ( a q ) + F - ( a q )

for which Ka = 7.2 × 10−4 at 25°C. Calculate ∆G for the reaction under the following conditions at 25°C.

a. [HF] = [H+] = [F] = 1.0 M

b. [HF] = 0.98 M, [H+] = [F] = 2.7 × 10−2M

c. [HF] = [H+] = [F] = 1.0 × 10−5 M

d. [HF] = [F] = 0.27 M, [H+] = 7.2 × 10−4M

e. [HF] = 0.52 M, [F] = 0.67 M, [H+] = 1.0 × 10−3M

Based on the calculated ∆G values, in what direction will the reaction shift to reach equilibrium for each of the five sets of conditions?

(a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The value of the Gibb’s free energy change is to be calculated for the given reaction under the given conditions. The direction in which the reaction shifts to reach the equilibrium is to be predicted.

Concept introduction: The Le Chatelier’s principle is basically an equilibrium law. According to which the equilibrium always shifts in the direction which nullify the outside effects. The Le Chatelier’s principle states that the addition of the reactants shifts the equilibrium to the right while the addition of product shifts the equilibrium to the left at constant temperature.

Under the standard conditions the change in Gibb’s free energy is called standard Gibb’s free energy change and is denoted by ΔGο .

To determine: The ΔGο value and the direction in which the reaction shifts to reach the equilibrium.

Answer to Problem 100AE

Answer

The calculated value of ΔGο is 17928.33J/mol_ .

The equilibrium shifts to the left.

Explanation of Solution

Explanation

Given

The reaction is given as,

HF(aq)H+(aq)+F(aq)

Concentration values are given as,

[HF]=[H+]=[F]=1.0M

The given value of Ka is 7.2×104 .

For the given reaction the value of ΔG is calculated by t he formula,

ΔG=RTlnKa

Where,

  • ΔG is the change in Gibb’s free energy.
  • R is the gas constant.
  • T is the temperature in Kelvin.
  • Ka is the acid dissociation constant.

Substitute the value in the above equation.

ΔGο=RTlnKaΔGο=(8.314J/Kmol)(298K)ln(7.2×104)ΔGο=(2477.57)(7.23)ΔGο=17928.33J/mol_

The direction of equilibrium shift is depend upon the following conditions,

ΔGValuesEffectonequilibrium.ΔG=NegativeEquilibriumshiftstotherightΔG=ZeroNoshiftinquilibriumΔG=PositiveEquilibriumshiftstotheleft

The value of reaction quotient Q for the given reaction is calculated as,

Q=[H+][F-][HF]

Where,

  • [H+] is the concentration of the hydride ion.
  • [F-] is the concentration of the fluoride ion.
  • [HF] is the concentration of the hydrogen fluoride.

Therefore, for the given condition the change in Gibb’s free energy is calculated as,

ΔG=ΔGο+RTlnQ

Substitute the value of Q in the above equation.

ΔG=ΔGο+RTlnQΔG=ΔGο+RTln[H+][F-][HF]

Substitute the given values in the above equation.

ΔG=ΔGο+RTln[H+][F-][HF]ΔG=17928.33+(8.314)(298)ln(1)(1)(1)ΔG=17928.33+0ΔG=17928.33

The calculated value of ΔG is positive. Therefore, the equilibrium shifts to the left.

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The value of the Gibb’s free energy change is to be calculated for the given reaction under the given conditions. The direction in which the reaction shifts to reach the equilibrium is to be predicted.

Concept introduction: The Le Chatelier’s principle is basically an equilibrium law. According to which the equilibrium always shifts in the direction which nullify the outside effects. The Le Chatelier’s principle states that the addition of the reactants shifts the equilibrium to the right while the addition of product shifts the equilibrium to the left at constant temperature.

Under the standard conditions the change in Gibb’s free energy is called standard Gibb’s free energy change and is denoted by ΔGο .

To determine: The ΔGο value and the direction in which the reaction shifts to reach the equilibrium.

Answer to Problem 100AE

Answer

In the given reaction equilibrium shifts to the left.

Explanation of Solution

Explanation

Given

For the given reaction the concentration values are given as,

[HF]=0.98[H+]=2.7×102M[F]=2.7×102M

The effect on equilibrium for the given reaction is calculated as,

ΔG=ΔGο+RTln[H+][F-][HF]ΔG=17928.33+(8.314)(298)ln(2.7×102)(2.7×102)(0.98)ΔG=17928.3317860.45ΔG=+67.87

The calculated value of ΔG is positive. Therefore, the equilibrium shifts to the left.

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The value of the Gibb’s free energy change is to be calculated for the given reaction under the given conditions. The direction in which the reaction shifts to reach the equilibrium is to be predicted.

Concept introduction: The Le Chatelier’s principle is basically an equilibrium law. According to which the equilibrium always shifts in the direction which nullify the outside effects. The Le Chatelier’s principle states that the addition of the reactants shifts the equilibrium to the right while the addition of product shifts the equilibrium to the left at constant temperature.

Under the standard conditions the change in Gibb’s free energy is called standard Gibb’s free energy change and is denoted by ΔGο .

To determine: The direction in which the reaction shifts to reach the equilibrium.

Answer to Problem 100AE

Answer

In the given reaction equilibrium shifts to the right.

Explanation of Solution

Explanation

Given

For the given reaction the concentration values are given as,

[HF]=1.0×105M[H+]=1.0×105M[F]=1.0×105M

The effect on equilibrium for the given reaction is calculated as,

ΔG=ΔGο+RTln[H+][F-][HF]ΔG=17928.33+(8.314)(298)ln(1.0×105)(1.0×105)(1.0×105)ΔG=17928.3328524.07ΔG=10595.74J

The calculated value of ΔG is negative. Therefore, the equilibrium shifts to the right.

(d)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The value of the Gibb’s free energy change is to be calculated for the given reaction under the given conditions. The direction in which the reaction shifts to reach the equilibrium is to be predicted.

Concept introduction: The Le Chatelier’s principle is basically an equilibrium law. According to which the equilibrium always shifts in the direction which nullify the outside effects. The Le Chatelier’s principle states that the addition of the reactants shifts the equilibrium to the right while the addition of product shifts the equilibrium to the left at constant temperature.

Under the standard conditions the change in Gibb’s free energy is called standard Gibb’s free energy change and is denoted by ΔGο .

To determine: The direction in which the reaction shifts to reach the equilibrium.

Answer to Problem 100AE

Answer

In the given reaction the equilibrium is not shifted.

Explanation of Solution

Explanation

Given

For the given reaction the concentration values are given as,

[HF]=0.27M[H+]=7.2×104M[F]=0.27M

The effect on equilibrium for the given reaction is calculated as,

ΔG=ΔGο+RTln[H+][F-][HF]ΔG=17928.33+(8.314)(298)ln(0.27)(2.7×104)(0.27)ΔG=17928.3317928.33ΔG=0

The calculated value of ΔG is zero. Therefore, there is no shift in the equilibrium.

(e)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The value of the Gibb’s free energy change is to be calculated for the given reaction under the given conditions. The direction in which the reaction shifts to reach the equilibrium is to be predicted.

Concept introduction: The Le Chatelier’s principle is basically an equilibrium law. According to which the equilibrium always shifts in the direction which nullify the outside effects. The Le Chatelier’s principle states that the addition of the reactants shifts the equilibrium to the right while the addition of product shifts the equilibrium to the left at constant temperature.

Under the standard conditions the change in Gibb’s free energy is called standard Gibb’s free energy change and is denoted by ΔGο .

To determine: The direction in which the reaction shifts to reach the equilibrium.

Answer to Problem 100AE

Answer

In the given reaction equilibrium shifts to the left.

Explanation of Solution

Explanation

Given

For the given reaction the concentration values are given as,

[HF]=0.52[H+]=1.0×103M[F]=0.67M

The effect on equilibrium for the given reaction is calculated as,

ΔG=ΔGο+RTln[H+][F-][HF]ΔG=17928.33+(8.314)(298)ln(0.67)(1.0×103)(0.52)ΔG=17928.3316487.5ΔG=+1441.5

The calculated value of ΔG is positive. Therefore, the equilibrium shifts to the left.

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