Introductory Chemistry: A Foundation
Introductory Chemistry: A Foundation
9th Edition
ISBN: 9781337399425
Author: Steven S. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
Question
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Chapter 15, Problem 73QAP
Interpretation Introduction

(a)

Interpretation:

The volume of 1.00M

NaOH required to neutralize the given solution is to be calculated.

25.0mL of 0.154M acetic acid.

Concept Introduction:

The atomic mass of an element is defined as the sum of number of protons and number of neutrons. Molar mass of an element is determined from atomic mass of an element.

The number of moles is calculated by the formula,

Moles=MassgMolarmass

The molarity is calculated by the formula,

Molarity=NumberofmolesofsoluteVolumeofsolutionL.

Expert Solution
Check Mark

Answer to Problem 73QAP

The volume of 1.00M

NaOH required to neutralize the given solution is 3.85mL.

Explanation of Solution

The value of M1, V1 and M2 is given to be 0.154M, 25.0mL and 1.00M respectively.

The balanced equation when NaOH reacts with HC2H3O2 is shown below.

NaOH+HC2H3O2H2O+C2H3O2Na

The above reaction indicates that one equivalent of NaOH is required to neutralize one equivalent of HC2H3O2.

The relationship between concentration and volume of NaOH and HC2H3O2 solutions is shown below.

M1V1=M2V2

Where,

  • M1 is the molarity of HC2H3O2 solution.
  • V1 is the volume of HC2H3O2 solution.
  • M2 is the molarity of NaOH solution.
  • V2 is the volume of NaOH solution.

Rearrange an above expression to calculate V2 which is needed to neutralize HC2H3O2 solution.

V2=M1×V1M2

Substitute the value of M1, M2 and V1 in the above expression.

V2=0.154M×25.0mL1.00M=3.85mL

Therefore, the volume of 1.00M

NaOH required to neutralize the given solution is 3.85mL.

Interpretation Introduction

(b)

Interpretation:

The volume of 1.00M

NaOH required to neutralize the given solution is to be calculated.

35.0mL of 0.102M hydrofluoric acid

Concept Introduction:

The atomic mass of an element is defined as the sum of number of protons and number of neutrons. Molar mass of an element is determined from atomic mass of an element.

The number of moles is calculated by the formula,

Moles=MassgMolarmass

The molarity is calculated by the formula,

Molarity=NumberofmolesofsoluteLitersofsolution.

Expert Solution
Check Mark

Answer to Problem 73QAP

The volume of 1.00M

NaOH required to neutralize the given solution is 3.57mL.

Explanation of Solution

The value of M1, V1 and M2 is given to be 0.102M, 35.0mL and 1.00M respectively.

The balanced equation when NaOH reacts with HF is shown below.

NaOH+HFH2O+NaF

The above reaction indicates that one equivalent of NaOH is required to neutralize one equivalent of HF.

The relationship between concentration and volume of NaOH and HF solutions is shown below.

M1V1=M2V2

Where,

  • M1 is the molarity of HF solution.
  • V1 is the volume of HF solution.
  • M2 is the molarity of NaOH solution.
  • V2 is the volume of NaOH solution.

Rearrange an above expression to calculate V2 which is needed to neutralize HF solution.

V2=M1×V1M2

Substitute the value of M1, M2 and V1 in the above expression.

V2=0.102M×35.0mL1.00M=3.57mL

Therefore, the volume of 1.00M

NaOH required to neutralize the given solution is 3.57mL.

Interpretation Introduction

(c)

Interpretation:

The volume of 1.00M

NaOH required to neutralize the given solution is to be calculated.

10.0mL of 0.143M phosphoric acid.

Concept Introduction:

The atomic mass of an element is defined as the sum of number of protons and number of neutrons. Molar mass of an element is determined from atomic mass of an element.

The number of moles is calculated by the formula,

Moles=MassgMolarmass

The molarity is calculated by the formula,

Molarity=NumberofmolesofsoluteLitersofsolution.

Expert Solution
Check Mark

Answer to Problem 73QAP

The volume of 1.00M

NaOH required to neutralize the given solution is 4.29mL.

Explanation of Solution

The value of M1, V1 and M2 is given to be 0.143M, 10.0mL and 1.00M respectively.

The balanced equation when NaOH reacts with H3PO4 is shown below.

3NaOH+H3PO43H2O+Na3PO4

The above reaction indicates that three equivalents of NaOH required to neutralize one equivalent of H3PO4.

The relationship between concentration and volume of NaOH and H3PO4 solutions is shown below.

3×M1V1=M2V2

Where,

  • M1 is the molarity of H3PO4 solution.
  • V1 is the volume of H3PO4 solution.
  • M2 is the molarity of NaOH solution.
  • V2 is the volume of NaOH solution.

Rearrange an above expression to calculate V2 which is needed to neutralize H3PO4 solution.

V2=3×M1×V1M2

Substitute the value of M1, M2 and V1 in the above expression.

V2=3×0.143M×10.0mL1.00M=3×1.431.00mL=4.29mL

Therefore, the volume of 1.00M

NaOH required to neutralize the given solution is 4.29mL.

Interpretation Introduction

(d)

Interpretation:

The volume of 1.00M

NaOH required to neutralize the given solution is to be calculated.

35.0mL of 0.220M sulfuric acid

Concept Introduction:

The atomic mass of an element is defined as the sum of number of protons and number of neutrons. Molar mass of an element is determined from atomic mass of an element.

The number of moles is calculated by the formula,

Moles=MassgMolarmass

The molarity is calculated by the formula,

Molarity=NumberofmolesofsoluteLitersofsolution.

Expert Solution
Check Mark

Answer to Problem 73QAP

The volume of 1.00M

NaOH required to neutralize the given solution is 15.4mL.

Explanation of Solution

The value of M1, V1 and M2 is given to be 0.220M, 35.0mL and 1.00M respectively.

The balanced equation when NaOH reacts with H2SO4 is shown below.

2NaOH+H2SO42H2O+Na2SO4

The above reaction indicates that two equivalents of NaOH required to neutralize one equivalent of H2SO4.

The relationship between concentration and volume of NaOH and H2SO4 solutions is shown below.

2×M1V1=M2V2

Where,

  • M1 is the molarity of H2SO4 solution.
  • V1 is the volume of H2SO4 solution.
  • M2 is the molarity of NaOH solution.
  • V2 is the volume of NaOH solution.

Rearrange an above expression to calculate V2 which is needed to neutralize H2SO4 solution.

V2=2×M1×V1M2

Substitute the value of M1, M2 and V1 in the above expression.

V2=2×0.220M×35.0mL1.00M=2×7.71.00mL=15.4mL

Therefore, the volume of 1.00M

NaOH required to neutralize the given solution is 15.4mL.

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Chapter 15 Solutions

Introductory Chemistry: A Foundation

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