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Titrations

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Titrations Main Idea: Titrations are an application of acid-base neutralization reactions that require the use of an indicator. * – PowerPoint PPT presentation

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Title: Titrations


1
Titrations
  • Main Idea Titrations are an application of
    acid-base neutralization reactions that require
    the use of an indicator.

2
Stoichiometry
  • The stoichiometry of an acid-base neutralization
    reaction is the same as that of any other
    reaction that occurs in solution (they are double
    displacement reactions, after all).
  • For example, in the reaction of sodium hydroxide
    and hydrogen chloride, 1 mol of NaOH neutralizes
    1 mol of HCl
  • NaOH (aq) HCl (aq) ? NaCl (aq) H2O (l)
  • Stoichiometry provides the basis for a procedure
    called titration, which is used to determine the
    concentrations of acidic and basic solutions.

3
Titration
  • Titration is a method for determining the
    concentration of a solution by reacting a known
    volume of that solution with a solution of known
    concentration.
  • If you wish to find the concentration of an acid
    solution, you would titrate the acid solution
    with a solution of a base of known concentration.
  • You could also titrate a base of unknown
    concentration with an acid of known concentration.

4
In the titration of an acid by a base, the pH
meter measures the pH of the acid solution in the
beaker as a solution of a base with a known
concentration is added from the buret.
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5
How is an acid-base titration performed?
  • The figure on the previous slide illustrates one
    type of setup for the titration procedure
    outlined on the next slide.
  • In the procedure pictured on Slide 4, a pH meter
    is used to monitor the change in pH as the
    titration progresses.

6
Titration Procedure
  1. A measured volume of an acidic or basic solution
    of unknown concentration is placed in a beaker.
    The electrodes of a pH meter are immersed in this
    solution, and the initial pH of the solution is
    read and recorded.
  2. A buret is filled with the titrating solution of
    known concentration. This is called the standard
    solution, or titrant.
  3. Measured volumes of the standard solution are
    added slowly and mixed into the solution in the
    beaker. The pH is read and recorded after each
    addition. This process continues until the
    reaction reaches the equivalence point, which is
    the point at which moles of H ion from the acid
    equal moles of OH- ion from the base.

7
In the titration of a strong acid by a strong
base, a steep rise in the pH of the acid solution
indicates that all of the H ions from the acid
have been neutralized by the OH- ions of the
base. The point at which the curve flexes is the
equivalence point of the titration. Bromthymol
blue is an indicator that changes color at
thisequivalence point. Notice that
phenolphthalein andmethyl red dont match the
exact equivalence point, but the slope is so
steep that it doesntmatter.
8
Strong-Strong Titration
  • The previous slide shows how the pH of the
    solution changes during the titration of 50.0 mL
    of 0.100 M HCl, a strong acid with 0.100 M NaOH,
    a strong base.
  • The inital pH of the 0.100 M HCl is 1.00.
  • As NaOH is added, the acid is neutralized and the
    solutions pH increases gradually.
  • When nearly all of the H ions from the acid have
    been used up, the pH increases dramatically with
    the addition of an exceedingly small volume of
    NaOH.
  • This abrupt change in pH occurs at the
    equivalence point of the titration.
  • Beyond the equivalence point, the addition of
    more NaOH again results in the gradual increase
    in pH.

9
The equivalence point here is not at a pH of 7.
Phenolphthalein is an indicator that changes
color at this equivalence point. Notice that the
starting pH is different and the region of change
is smaller.
10
Acid-Base Indicators
  • Chemists often use a chemical dye rather than a
    pH meter to detect the equivalence point of an
    acid-base titration.
  • Chemical dyes whose colors are affected by acidic
    and basic solutions are called acid-base
    indicators.
  • Many natural substances act as indicators.
  • If you use lemon juice in your tea, you might
    have noticed that the brown color of tea gets
    lighter when lemon juice is added.
  • Tea contains compounds called polyphenols that
    have slightly ionizable hydrogen atoms and
    therefore are weak acids.
  • Adding acid in the form of lemon juice to a cup
    of tea lessens the degree of ionization, and the
    color of the un-ionized polyphenols becomes more
    apparent.
  • Chemists have several choices in selecting
    indicators.
  • Bromthymol blue is a good choice for the
    titration of a strong acid with a strong base,
    and phenolphthalein changes color at the
    equivalence point of a titration of a weak acid
    with a strong base.

11
Titration with an Indicator
12
Whats the Point of a Titration Again?
  • To find the unknown concentration of an acid or a
    base.
  • So you perform the actual titration noting the
    volume you started with and how much volume of
    the titrant you added and then...
  • Math! (Oh no! Not math! Anything but math!)

13
Titration Calculations An Example
  • The balanced equation of a titration reaction is
    the key calculating the unknown molarity. For
    example, sulfuric acid is titrated with sodium
    hydroxide according to this equation
  • H2SO4 (aq) 2 NaOH (aq) ? Na2SO4 (aq) 2 H2O
    (l)
  • Calculate the moles of NaOH in the standard from
    the titration data molarity of the base (MB) and
    the volume of the base (VB). In other words, MB
    VB (mol/L)(L) mol NaOH in standard
  • From the equation, you know that the mole ratio
    of NaOH to H2SO4 is 21. Two moles of NaOH are
    required to neutralize 1 mol of H2SO4. mol H2SO4
    titrated mol NaOH in standard x (1 mol H2SO4 /
    2 mol NaOH)
  • MA represents the molarity of the acid and VA
    represents the volume of the acid in liters. MA
    mol H2SO4 titrated/VA

14
In Short Form...
  • MAVA MBVB (mol acid/mol base)
  • This is the mole
    ratio
  • Does this make sense? Lets find out using the
    definition of molarity (mol/L) and dimensional
    analysis...
  • MAVA MBVB (mol acid/mol base)
  • (mol acid/L acid)(L acid) (mol base/L base)(L
    base) (mol acid/mol base)
  • mol acid mol base (mol acid/mol base)
  • mol acid mol acid
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