Discussion
Numerous
methods are based on the reducing properties of iodine ion:
2I-
→
I2 + 2e-
Iodine,
the reaction product, is ordinarily titrated with a standard sodium thiosulfate
solution, with stretch serving as the indicator:
I2
+ 2S2O32- →
2I- + S4O62-
Solution
of sodium thiosulfate are conveniently standardized by titration of the iodine
produced when an unmeasured excess of potassium iodide is added to a known
volume of an acidified standard potassium iodate solution. The reaction is
IO3-
+ 5I- + 6H+ →
3I2 + 3H2O
Note
that each mole of iodate results in the production of three moles of iodine.
The procedure that follows is based on this reaction.
Preparation
of Solutions
1.
Potassium
iodate, 0.0100M. Dry about 1.2g primary-standard KIO3 at 110℃ for at least 1 hr and
cool in a desiccator. Weight (to the nearest 0.1mg) about 1.1g into a 500 mL
volumetric flask; use a powder funnel to ensure quantitative transfer of the
solid. Rinse the funnel well, dissolve the KIO3 in about 200 mL of
distilled water, dilute to the mark, and mix thoroughly.
Potassium iodate
2.
Starch
indicator. Add 1g of starch into 100 mL boiling water. Stir it. Leave to cool
down.
Procedure
1.
Pipet
50.00 mL aliquots of standard iodate solution into 250 mL conical flasks.
2.
Treat
each sample individually from this point to minimize error resulting from the
air oxidation of iodide ion.
3.
Introduce
2 g of iodate-free KI, and swirl the flask to hasten solution.
Potassium iodide with some iodine from it's desomposition
Potassium iodide solution with some iodine
4.
Add
2 mL of 6M HCl, and immediately titrate with thiosulfate until the solution
becomes pale yellow.
After adding HCl, the solution turned into dark brown immediately
5.
Introduce
5 mL of starch indicator, and titrate with constant stirring to the disappearance
of the blue color.
6.
Calculate
the molarity of the iodine solution.
Experimental
Record
Weight
of potassium iodate
|
0.220g
|
=1.028
mmol
|
|
Molarity
of Potassium Iodate
|
0.0103
M
|
Weight
of Na2S2O3 sample (hexahydrate)
|
25.060
g
|
Theoretical
Molarity of Na2S2O3 (aq)
|
0.1010
M
|
Consumption
of Na2S2O3 (aq)
|
27.00
Ml
|
26.80
mL
|
|
Average
|
26.90
mL
|
Molarity
of Na2S2O3 (aq)
|
0.0890
M
|
Assay
of Na2S2O3
|
0.0890/0.1010
x 100%
|
=
88.12%
|
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