This document discusses analytical chemistry techniques for precipitation titrations, specifically the determination of chloride ions. It describes two methods - Mohr's method and Volhard's method. Mohr's method titrates a chloride solution against silver nitrate using potassium chromate as an indicator. When all chloride ions are removed, the solution color changes from yellow to reddish brown. Volhard's method also uses silver nitrate but titrates any excess silver ions with ammonium thiocyanate, forming a reddish brown precipitate. The document provides step-by-step procedures for both methods to calculate the concentration of chloride ions in a water sample.
2. Precipitation titration
âą Titrations with precipitating agents are useful for
determining certain analyte. Example: Clâ
can be
determined when titrated with AgNO3
3. Determination of chloride
Principle
âą Chlorides are present in all types of water resources at
a varying concentration depending on the geo-chemical
conditions in the form of CaCl2, MgCl2 and NaCl.
âą Chlorides are introduced into the water resources from
the discharge of effluents from chemical industries,
sewage disposal and seawater intrusion in coastal
region.
âą The concentration of chloride ions more than 250 ppm
is not desirable for drinking purpose. The total chloride
ions can be determined by argentometric method.
(Mohrâs Method)
4. Estimation of chloride (by Mohrâs method)
âą In this method Clâ
ion solution is directly titrated against
AgNO3 using potassium chromate (K2CrO4 ) as the indicator.
AgNO3 + Clâ
AgCl â + NO3
â
(in water) (White precipitate)
âą At the end point, when all the chloride ions are removed.
The yellow colour of chromate changes into reddish brown
due to the following reaction.
2AgNO3 + K2CrO4 Ag2CrO4 â + 2KNO3
(yellow) (Reddish brown)
5. Estimation of chloride
Titration
Estimation of Chloride ion:
20 ml of the given water sample is pipette
out into a clean conical flask. 1 ml of
freshly prepared potassium chromate
solution is added as an indicator and
titrated against standard AgNO3 solution
taken in the burette. The end point is the
change of colour from yellow to reddish
brown colour. Repeat the titration for
concordant values.
6. Calculation:
Volume of AgNO3 used V1 = -------- ml (Burette Reading)
Normality of AgNO3 N1 = -------- N (From Standardisation)
Volume of water sample V2 = 20 ml
Normality of water sample N2 = ?
N2 = V1 x N1
V2
Normality of water sample(chloride ion) N2 = ------ N
Amount of Clâ
ions present in 1 litre = Normality (N1) X Equivalent
weight
Amount of Clâ
ions present in 100 ml = Normality X 35.46 X
the given water sample
=
----------- gms.
1000
100
7. Estimation of chloride (Volhardâs Method)
âą Volhardâs method is used in the estimation of chloride
ions with standard solution of AgNO3
âą It is an example of titration in which indicator forms a
coloured complex ion with the titrant(i.e) silver nitrate.
8. Determination of chloride by Volhard Method
This is an indirect method for chloride determination where
an excess amount of standard Ag+
is added to the chloride
solution containing Fe3+
as an indicator. The excess Ag+
is then
titrated with standard SCN-
solution until a reddish brown
color is obtained which results from the reaction:
NaCl + AgNO3 â AgCl + NaNO3 + excess Ag+
Excess Ag+
+ SCN-
â AgSCN â
Fe3+
(Yellow) + SCN-
= Fe(SCN)2+
(Reddish brown)
9. Determination of Chloride ion
Preparation of standard ammonium thiocyanate
âą By weighing appropriate quantity of ammonium
thiocyanate, its 250ml of 0.1M solution is prepared
in distilled water.
10. Determination of unknown chloride ions
Given chloride solution is diluted to 250ml using
distilled water. From this 20ml solution is pipetted out
into a conical flask to which 20ml of 0.1M AgNO3 is
added.
After shaking the solution,2ml of nitrobenzene and 5ml
of 30% HNO3 and ferric alum are added as indicator.
It is then titrated with standard NH4SCN till reddish
brown colour is obtained to supernatant solution.
Suppose the reading is âxâ ml, Then (20-x)ml will be the
amount of NH4SCN required to precipitate Clâ
ions.
Then the amount of Clâ
ions in given solution can be
calculated.