Table of Contents
- 1 Why is the starch added almost at the end of the titration rather than at the beginning?
- 2 What is the source of blue black color formed during the standardization of sodium thiosulfate?
- 3 Why sodium bicarbonate is added in iodometric titration?
- 4 What is the purpose of starch in the titration?
- 5 Why potassium iodide is used in iodometric titration?
- 6 What is the principle of iodometric titration?
- 7 Why is sodium carbonate used in the preparation of the sodium thiosulfate solution?
- 8 Why do we need excess iodide in the formation of copper salt?
- 9 What happens when Cu(II) reacts with iodide?
- 10 What happens when you mix potassium iodide and iodine?
Why is the starch added almost at the end of the titration rather than at the beginning?
The Starch-Iodide complex is not very soluble in water, so the starch is added near the endpoint of an Iodine titration, when the Iodine concentration is low. This eliminates errors due to the fact that some Iodine may remain adsorbed on the complex and go undetected.
What is the source of blue black color formed during the standardization of sodium thiosulfate?
starch indicator
As has been mentioned above, the endpoint in a titration of iodine with thiosulfate is signaled by the color change of the starch indicator. When starch is heated in water, various decomposition products are formed, among which is beta-amylose which forms a deep blue-black complex with iodine.
What is the reducing agent in iodometric titration?
Redox titration using sodium thiosulphate, Na 2S 2O 3 (usually) as a reducing agent is known as iodometric titration since it is used specifically to titrate iodine.
Why sodium bicarbonate is added in iodometric titration?
Why is sodium bicarbonate added in iodometry? – Quora. Sodium thiosulfate the usual titrant used for iodometric titrations. To keep the thiosulfate solution stable, NaHCO3 , which is a weak base helps to keep the solution slightly alkaline to slow down the decomposition of thiosulfate.
What is the purpose of starch in the titration?
Starch is a viable indicator in the titration process because it turns deep dark blue when iodine is present in a solution. When starch is heated in water, decomposition occurs and beta-amylose is produced. Beta-amylose combines with iodine, resulting in a dark blue color change.
What is the purpose for including starch in the sodium thiosulfate solution?
Starch is now used as an indicator for the presence of iodine. At the beginning of the titration, due to the relatively high concentration of I2 in the solution, the colour appears a deep brown/reddish brown (which is in fact due to the presence of (I3)- ions which exists in an equilibrium with I2 and I- ).
Why potassium iodide is used in iodometric titration?
Potassium iodide is used because of low solubility of iodine. The liberated iodine forms an unstable complex KI3 with KI. A few minutes should be allowed before titration, since the rate of reaction between I ions and the oxidant is slow.
What is the principle of iodometric titration?
The Basic Principle of iodometric titration is to determine the concentration of an oxidising agent in solution. iodometry involves indirect titration of iodine liberated by reaction with the analyte.In an iodometric titration, a starch solution is used as an indicator since it can absorb the I2 that is released.
What is the role of sodium thiosulphate in iodometric titration?
Iodometry is used to determine the concentration of oxidizing agents through an indirect process involving iodine as a mediator. In the presence of iodine, thiosulphate ions are quantitatively oxidized to tetrathionate ions.
Why is sodium carbonate used in the preparation of the sodium thiosulfate solution?
Preparation of Standard Sodium Thiosulfate Solution Dissolve approximately 0.1 g of sodium carbonate in one liter of distilled water. The sodium carbonate is added to adjust the pH of the solution to about 9 or 10.
Why do we need excess iodide in the formation of copper salt?
The next step, however, is that the C u X + ions will combine with iodide to form insoluble C u I. Thus, we need excess iodide. At any of these points, you could decide to include counterions. For example, your iodide could be K I and your copper salt could be C u S O X 4. That would give:
Does Copper(II) iodide dissolve in potassium sulfate?
Here we can see that solid white copper (II) iodide precipitates and potassium sulfate dissociates into its ions. Since copper (II) iodide is very unstable, it decomposes into copper (I) iodide and iodine:
What happens when Cu(II) reacts with iodide?
Aqueous Cu (II) is a modest oxidizing agent; iodide is a modest reducing agent. Cu (I) is a soft Lewis acid, iodide is a soft Lewis base, C u I is very insoluble (look up its K X s p — see here .) Iodine reacts with excess iodide to give triiodide anion. However, isolate the ” C u I ,” wash, and titrate with thiosulfate.
What happens when you mix potassium iodide and iodine?
Adding potassium iodide to iodine in water rapidly converts the molecular iodine (I2) to the much more soluble triiodide ion (I3-). An equimolar solution of iodine and potassium iodide is called Lugol’s solution. The iodine in Lugol’s solution is mostly in the form of triiodide ion, in equilibrium with molecular iodine.
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