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Acid / Base Titrations

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Acid / Base Titrations Changes in Acid-Base Reaction Systems Titration Terminology Titration the progressive transfer of a solution from a buret (called the ... – PowerPoint PPT presentation

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Title: Acid / Base Titrations


1
Acid / Base Titrations
  • Changes in Acid-Base Reaction Systems

2
Titration Terminology
  • Titration the progressive transfer of a
    solution from a buret (called the titrant) into a
    measured volume of another solution (called the
    sample).
  • Equivalence point the volume of titrant
    required to neutralize the sample ( mol acid
    mol base).
  • Endpoint the pH at the equivalence point of a
    titration.
  • Indicator a chemical which is added to the
    sample that changes colour at the equivalence
    point of a titration.
  • Buffering region a horizontal region of the pH
    curve where pH is not changing significantly.

3
pH curves
  • A pH curve is a graph showing the continuous
    change in pH during a titration (an acid-base
    reaction)
  • Titration of NaOH and Na2CO3 with
    HCl
  • 14
  • pH
  • 7
  • 0
  • vol. of titrant (HCl) added (mL)

4
Interpreting pH curves
  • Titration of NaOH with HCl
  • 14
  • buffer region
    titrant
  • pH endpoint equivalence
    point
  • 7 X

  • equivalence
    point volume

  • buffer region
  • 0
  • 0 10 20
    30 40
  • volume of titrant added (mL)

5
Which is the titrant?
  • Take 2 titrations involving NaOH and HCl
  • pH pH
  • vol. of titrant
    vol. of titrant
  • HCl is titrant
    NaOH is titrant
  • (pH high to low)
    (pH low to high)

6
Choosing an Indicator
  • pH curves are used to determine which
    indicator(s) are suitable for a particular
    titration
  • The goal is to get an indicator that changes
    colour in the same region as the endpoint of your
    titration
  • Titration of NaOH with
    HCl
  • 14
    unsuitable alizarin yellow (too early)
  • pH
    good indicators bromothymol blue,
  • 7
    litmus and phenol red


  • unsuitable orange IV (too late)
  • 0
  • vol. of titrant (HCl) added (mL)

7
Multiple Endpoints
  • Titration of Na2CO3 with HCl
  • 14
  • endpoint 1


  • 8 X
  • pH endpoint 2

  • equivalence point volume 1
  • 4 X
    equivalence point volume 2

  • 0
  • 0 10 20
    30 40
  • volume of titrant added (mL)

8
Choosing Indicators for Multiple Endpoints
  • Titration of Na2CO3 with HCl
  • 14
  • endpoint 1 - metacresol purple
    (7.4-9.0)


  • 8 X
  • pH endpoint 2 methyl orange (3.2-4.4)

  • 4 X

  • 0
  • 0 10 20
    30 40
  • volume of titrant added (mL)

9
Polyprotic Acids and Bases
  • Polyprotic acids are those which can donate more
    than one proton in most cases, it is equal to
    the number of hydrogens in the chemical formula
  • E.g. H2SO4 can donate 2 protons
  • E.g. H3PO4 can donate 3 protons
  • Polyprotic bases are those which can accept more
    than one proton in most cases it is equal to the
    magnitude of the charge on the anion
  • E.g. CO3 2- can accept 2 protons
  • E.g. PO4 3- can accept 3 protons

10
Explaining Polyprotic Endpoints
  • Titration of Na2CO3 with HCl
  • 14


  • 8 X endpoint 1
  • pH

  • 4 X
    endpoint 2

  • 0
  • 0 10 20
    30 40
  • volume of titrant added (mL)

11
Explaining Polyprotic Endpoints
  • Titration of Na2CO3 with HCl
  • 14


  • 8 X H3O CO3
    2- H2O HCO3 -
  • pH

  • 4 X
    H3O HCO3 - H2O H2CO3
  • 0
  • 0 10 20
    30 40
  • volume of titrant added (mL)

12
Other Polyprotic Systems
  • Consider the titration of phosphoric acid, H3PO4,
    with sodium hydroxide, NaOH
  • 11
  • X
    endpoint 2
  • pH
  • X endpoint 1
  • 0
  • Vol. of NaOH (mL)

13
Other Polyprotic Systems
  • Consider the titration of phosphoric acid, H3PO4,
    with sodium hydroxide, NaOH
  • 11 HPO42- OH - H2O PO43-
    (not observed)
  • H2PO4- OH- H2O HPO42- X
  • pH
  • X H3PO4 OH -
    H2O H2PO4 -
  • 0
  • Vol. of NaOH (mL)
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