Chemistry: Atoms First
Chemistry: Atoms First
3rd Edition
ISBN: 9781259638138
Author: Julia Burdge, Jason Overby Professor
Publisher: McGraw-Hill Education
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Chapter 17, Problem 17.36QP

A 10.0-mL solution of 0.300 M NH3 is titratee with a 0.100 M HCl solution. Calculate the pH after the following additions of the HCl solution: (a) 0.0 mL, (b) 10.0 mL, (c) 20.0 mL, (d) 30.0 mL, (e) 40.0 mL.

(a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

The pH of titration NH3VsHCl on adding various amount of HCl has to be calculated.

Concept introduction:

  • pH is the logarithm of the reciprocal of the concentration  of H3O+  in a solution.
  •   pH is used to determine the acidity or basicity of an aqueous solution.
  • pH=-log[H3O+]
  • The point at which amount of standard solution and analyte becomes equal and neutralisation happens in titration is called equivalence point.
  • pH=pKa+log[conjugate base][acid] is Henderson-Hasselbalch equation
  • Buffer solution is defined as a solution that oppose changes in pH while adding little amount of either an acid or a base.

To find: the pH when no HCl is added.

Answer to Problem 17.36QP

pH = 11.36

Explanation of Solution

Concentration of NH3 is 0.300M

Concentration of HCl is 0.100M

Kbvalue for ammonia is 1.8 ×10-5Kb=[NH4+ ][OH- ][NH3]1.8 ×10-5=x2(0.300-x)xisverysmallandneglectit,x = [OH-] = 2.3 ×10-3MpOH=-log[OH-]=-log(2.3 ×10-3)pOH=2.64pH = 14.00 - 2.64 = 11.36

When there is no HCl added, pH of solution can be determined by calculating the ammonia pH .  The pH of ammonia in water can be determined from base dissociation constant.  From the concentration of hydroxide ion, the pH is calculated by taking negative log of hydroxide ion.

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

The pH of titration NH3VsHCl on adding various amount of HCl has to be calculated.

Concept introduction:

  • pH is the logarithm of the reciprocal of the concentration  of H3O+  in a solution.
  •   pH is used to determine the acidity or basicity of an aqueous solution.
  • pH=-log[H3O+]
  • The point at which amount of standard solution and analyte becomes equal and neutralisation happens in titration is called equivalence point.
  • pH=pKa+log[conjugate base][acid] is Henderson-Hasselbalch equation
  • Buffer solution is defined as a solution that oppose changes in pH while adding little amount of either an acid or a base.

To find: the pH when 10mL HCl is added.

Answer to Problem 17.36QP

pH = 9.55

Explanation of Solution

Find the number of moles of NH3andHCl

NumberofmolesofNH3 in 10 mL=10.0 mL×0.300 mol1000mL=3.0×10-3molNumberofmolesofHCl in 10 mL=10.0 mL×0.100 mol1000mL=1.0×10-3mol

The number of moles of ammonia and HCl can be calculated using volume and given concentration of the ammonia and HCl .

Find the pH when 10mL HCl is added

NH3(aq)HCl(aq)NH4Cl(aq)Initial concentration(M): 3.00 ×10-3 1.0 ×10-30Change in concentration (M):-1.0 ×10-3 -1.0 ×10-3+1.0 ×10-3Finalconcentration (M): 2.00 ×10-30+1.0 ×10-3pH=pKa+log[conjugate base][acid]pH=-log(5.6 ×10-10)+log2.0 ×10-31.0 ×10-3pH=9.55

When HCl adds to ammonia, the volume of solution rises which varies the concentration of solution but the moles remain same.  The number of moles after addition of HCl changes and is given in the table.  The Henderson-Hasselbalch equation can be used to calculate the pH because the solution acts as buffer system.  From the equation and using acid dissociation constant, the pH is calculated.

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

The pH of titration NH3VsHCl on adding various amount of HCl has to be calculated.

Concept introduction:

  • pH is the logarithm of the reciprocal of the concentration  of H3O+  in a solution.
  •   pH is used to determine the acidity or basicity of an aqueous solution.
  • pH=-log[H3O+]
  • The point at which amount of standard solution and analyte becomes equal and neutralisation happens in titration is called equivalence point.
  • pH=pKa+log[conjugate base][acid] is Henderson-Hasselbalch equation
  • Buffer solution is defined as a solution that oppose changes in pH while adding little amount of either an acid or a base.

To find: the pH when 20mL KOH is added

Answer to Problem 17.36QP

pH = 8.95

Explanation of Solution

To find the number of moles of NH3andHCl

NumberofmolesofNH3 in 10 mL=10.0 mL×0.300 mol1000mL=3.0×10-3molNumberofmolesofHCl in 20 mL=20.0 mL×0.100 mol1000mL=2.00×10-3mol

The number of moles of acetic acid can be calculated using volume and given concentration of the KOH .

Find the pH when 20mL KOH is added.

NH3(aq)HCl(aq)NH4Cl(aq)Initial concentration(M): 3.00 ×10-3 2.0 ×10-30Change in concentration (M):-2.0 ×10-3 -2.0 ×10-3+2.0 ×10-3Finalconcentration (M): 1.00 ×10-30+2.0 ×10-3pH=pKa+log[conjugate base][acid]pH=-log(5.6 ×10-10)+log1.0 ×10-32.0 ×10-3pH=8.95

When HCl adds to ammonia, the volume of solution rises which varies the concentration of solution but the moles remain same.  The number of moles after addition of HCl changes and is given in the table.  The Henderson-Hasselbalch equation can be used to calculate the pH because the solution acts as buffer system.  From the equation and using acid dissociation constant, the pH is calculated.

(d)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

The pH of titration NH3VsHCl on adding various amount of HCl has to be calculated.

Concept introduction:

  • pH is the logarithm of the reciprocal of the concentration  of H3O+  in a solution.
  •   pH is used to determine the acidity or basicity of an aqueous solution.
  • pH=-log[H3O+]
  • The point at which amount of standard solution and analyte becomes equal and neutralisation happens in titration is called equivalence point.
  • pH=pKa+log[conjugate base][acid] is Henderson-Hasselbalch equation
  • Buffer solution is defined as a solution that oppose changes in pH while adding little amount of either an acid or a base.

To find: the pH when 30mL HCl is added.

Answer to Problem 17.36QP

pH = 5.19

Explanation of Solution

M(NH4+)=3.00×10-3mol0.0400L=0.0750MNH4+(aq) H2O(l)  H3O+(aq) NH3(aq)Initial concentration(M): 0.0750 00Change in concentration (M):-x +x+xEquilibriumconcentration (M): 0.0750-xxxKb value for ammonia is 1.8 ×10-5Ka=KwKa=1.0 ×10-141.8 ×10-5=5.6×10-10Ka=[H3O+][NH3][NH4+]5.6×10-10=x20.0750-xxisverysmallandneglectit,x = [H3O+] = 6.5 ×10-6MpH=-log[H3O+]=-log(6.09 ×10-6)pH=5.19

By adding 30mLHCl , we reached equivalence point and equal number of moles of acetic acid 3.00 ×10-3mol reacts with 3.00 ×10-3mol of HCl .  At equivalence point 3.00 ×10-3mol of ammonium chloride present in solution.  The concentration of hydrogen ion can be calculated from the final concentration of hydrogen ion in equilibrium table using base dissociation constant.  The pH is determined by taking negative logarithm of  hydrogen ion concentration.

(e)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

The pH of titration NH3VsHCl on adding various amount of HCl has to be calculated.

Concept introduction:

  • pH is the logarithm of the reciprocal of the concentration  of H3O+  in a solution.
  •   pH is used to determine the acidity or basicity of an aqueous solution.
  • pH=-log[H3O+]
  • The point at which amount of standard solution and analyte becomes equal and neutralisation happens in titration is called equivalence point.
  • pH=pKa+log[conjugate base][acid] is Henderson-Hasselbalch equation
  • Buffer solution is defined as a solution that oppose changes in pH while adding little amount of either an acid or a base.

To find: the pH when 40mL HCl is added.

Answer to Problem 17.36QP

pH = 1.70

Explanation of Solution

Find the number of moles of HCl

NumberofmolesofHCl in 40 mL=40.0 mL×0.100 mol1000mL=4.00×10-3mol

The number of moles of HCl can be calculated using volume and given concentration of the HCl .

Find the pH when 40mL HCl is added

NH3(aq)HCl(aq)NH4Cl(aq)Initial concentration(M): 3.00 ×10-3 4.0 ×10-30Change in concentration (M):-3.0 ×10-3 -3.0 ×10-3+3.0 ×10-3Finalconcentration (M): 01.00 ×10-3+3.0 ×10-3ThemolarityofHClin0.0500LafterreactingM(HCl)=1.00×10-3mol0.0500 L=0.0200 MpH =-log(0.0200) = 1.70

The number of moles after addition of HCl changes and is given in the table.  By calculating the strength of HCl , the pH of the solution determined.

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Chapter 17 Solutions

Chemistry: Atoms First

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