Chemistry Lecture 4: Titration PDF

Summary

This document provides a chemistry lecture on titration, covering topics such as learning outcomes, different types of analysis, and calculations. The lecturer details the general procedure, criteria, and various types of indicators used in titration experiments.

Full Transcript

Chemistry
Lecture 4:

Areej A. M. Osman
MSc. Pharm. Chem. U of K 2020
BSc. Pharmacy U of K 2014
Learning outcomes
By the end of this lecture the student should be able to:
Define titration
Describe the titration process
Determine the types of titrations
Define indicators
Discuss end point detection
Calculate concentration of unknown samples

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Chemical Analysis
(A)Classical:
1- Qualitative methods:
Identification by color, indicators, boiling points, odors.

2- Quantitative methods:
Measurment of mass or volume (e.g. gravimetric, volumetric)

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Chemical Analysis
(B)Non-classical or Instrumental
1- Qualitative instrumental analysis:
It is the measurement of a property indicates presence of
analyte.
2- Quantitative instrumental analysis:
It is that magnitude of measured property is proportional to
concentration of analyte.

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Volumetric methods (Titration):
It determins the volume of a solution of accurately known
concentration which is required to react quantitatively with a
measured volume of a solution of the substance to be
determined.
It has four different types according to the chemical reaction
that occurs.
Acid-base titrations
Precipitation titrations
Oxidation reduction titrations
Complexometric titrations
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Volumetric methods (Titration):
The solution of accurately known concentration is called
standard solution or the titrant.
The substance being titrated is termed the titrand or the
analyte.
The standard solution is usually added from a long graduated
tube called burette, to react with the analyte.
The end of the reaction is determined by a substance the makes
a visual change known as the indicator.
The volume of the titrant is then used to determine the
concentration of the analyte.
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Equivalence point and end point
The equivalence point of a titration is a theoretical point that
can not be determined experimentally.
Instead, we can only estimate its position by observing some
physical change associated with the condition of
equivalence.
This change is called the end point for titration.

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General titration process
Prepare the standard solution (titrant) and wash the burette
with distilled water the with standard solution.
Prepare the sample solution (titrand, analyte) and transfer it
into a clean conical flask (Erlenmeyer flask).
Add the indicator to the analyte solution.
Start the titration by adding standard solution from the burette
until the color (generally) of the sample solution changes.
Record the volume of standard solution and calculate the
concentration of the analyte.
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Titration Criteria
To use titrations in analysis, the following conditions are
essential:
1- There must be a simple complete reaction between standard
solution and analyte, expressed by a chemical equation.
2- The reaction should be relatively fast.
3- Detectable, There must be an alteration in some physical or
chemical property of the solution at the equivalence point.
4- An indicator should be used to define the end point of the
reaction by a change in physical properties (eg color).
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Standard solution
Standard solution is the reagent of exactly known
concentration that is used in titrimetric analysis.
Standard solutions play a central role in all titrimetric method
of analysis.
Therefore we need to consider the desirable properties for
such solutions, how they are prepared and how their
concentration are expressed.

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Properties of standard solution
1- Sufficiently stable so that it is only necessary to determine
the concentration once.
2- React rapidly with the analyte so that the time required
between additions of reagent is minimized.
3- React more or less completely with the analyte so that
satisfactory end points are realized.
4- Undergo a selective reaction with the analyte that can be
described by simple balanced equation.
Indicators
An indicator is a substance that is capable to make a visual
change when the sample is completely consumed.
Different types of titrations need different types of
indicators.
The visual change the happens is a result of structural
change in the indicator.
The moment this visual change happens is the end point of
the titration.
Indicators
Examples of indicators:
Indicators
Examples of indicators:
Indicators
Examples of indicators:
Titration Process
Wash the burette with tab water, distilled water and the
titrant.
Fill the burette with the titrant and adjust the volume.
Weigh the analyte and transfer it into the conical flask.
Add a suitable amount of solvent to dissolve the analyte.
Add 2-3 drops of the indicator.
Start the titration until the color changes
Record the volume and calculate the analyte’s concentration
Titration Calculations
In the titration, number of moles react with each other.
NaOH + HCl → NaCl + H2O
Molar ratio: 1 mole NaOH = 1 mole HCl
no. of moles = M x V (mL) / 1000
=
no of moles = wt /Mwt
=
Titration Calculations
10 mL of NaOH solution was titrated with HCl standard
solution (0.2M) the volume of HCl cosumed was found 15
mL, what is the molarity of NaOH?
NaOH + HCl → NaCl + H2O
1 mole : 1 mole
=

= ,M= = 0.3 M
Titration Calculations
25 mL of NaOH solution was titrated with H2SO4 standard
solution (0.1M) the volume of the acid cosumed was found
20 mL, what is the molarity of NaOH?
2 NaOH + H2SO4 → Na2SO4 + H2O
2 mole : 1 mole
=

= ,M= = 0.08 M
 Any question?

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