Iodine Adsorption and Titration with Na2S2O3

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In summary, the initial concentration of the iodine solution before the titration was mixed 2,5424 g I2 and 24,1525 g KI. The solution was made up to 100 ml with water. 150 mg active carbon was mixed with 12,5 ml of the solution and the equilibrium iodine concentration was found to be 0,000544 mol I2 in 10 ml of the filtrate.
  • #1
charlie05
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1/ iodine stock solution: mixed 2,5424 g I2 and 24,1525 g KI and made up to 100 ml with water
2/ 150 mg active carbon is mixed with 12,5 ml jodine solution from point 1 /
3/ At equilibrium were performed filtration and titration with 10 ml of the filtrate with a volumetric solution Na2S2O3 ( conc. 0,075 mol/dm3) - consumption 14,5ml of solution Na2S2O3

Questions:
A/the initial concentration of the iodine solution before the test
B/equilibrium iodine concentration found during titration
C/amount of adsorbed iodine on the sample surface - iodine number...in mg/g
D/ an estimate of the specific surface area of the AC sample assuming a monimolecular layer. Each iodine molecule occupies an area of 0.21nm2.

ad A /iodine content in KI...126,9/166...76,4% of I
in 24,1525 g KI is 18,45251 g I
the amount of iodine in the stock solution...18,45251/2+2,5424= 11,77g I2
concentration of the iodine solution...11,77 g I2 in 100g of solution...117,7 g/dm3 I2...?

reaction of tittration: 2 S2O32−(aq) + I2(aq) → S4O62−(aq) + 2 I−(aq)

2 moles of thiosulfate react with 1 mol I2

consumption of thiosulphate...14,5 ml 0,075 mol/dm3 solution...0,0010875 mol of thiosulfate
equilibrium iodine concentration ...0,000544 mol I2 in 10 ml of the filtrate...0,0544 mol/dm3 I2
 
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  • #2
This is rather chaotic, but some problems are easy to spot.

charlie05 said:
ad A /iodine content in KI...126,9/166...76,4% of I
in 24,1525 g KI is 18,45251 g I
the amount of iodine in the stock solution...18,45251/2+2,5424= 11,77g I2
concentration of the iodine solution...11,77 g I2 in 100g of solution...117,7 g/dm3 I2...?

You are confusing free iodine capable of reacting with with total iodine present in the form of iodine and iodide (and mostly inert in the context).
 
  • #3
so in the solution of I2 in KI I have to count only with the concentration of the original I2?I don't have to count on the amount of KI?

concentration of the iodine solution...2,5424 g I2 in 100g of solution...25,424 g/dm3 I2...?
 
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  • #4
Yes, iodide is there mostly to improve iodine solubility (google triiodide).
 
  • #5
ad B/equilibrium iodine concentration found during titration ?

reaction of titration: 2 S2O32−(aq) + I2(aq) → S4O62−(aq) + 2 I(aq)

2 moles of thiosulfate react with 1 mol I2 consumption of thiosulphate...

14,5 ml 0,075 mol/dm3 solution...0,0010875 mol of thiosulfate

equilibrium iodine concentration ...0,000544 mol I2 in 10 ml of the filtrate...0,0544 mol/dm3 I2

ad C/

amount of adsorbed iodine = original amount of iodine - equilibrium amount of iodine during titration

the original amount of iodine added to the activated carbon:
12,5 ml of solution, concentration 25,424 g I2/dm3...0,3178 g I2...0,00125 mol I2
 

FAQ: Iodine Adsorption and Titration with Na2S2O3

What is iodine adsorption and titration with Na2S2O3?

Iodine adsorption and titration with Na2S2O3 is a chemical process used to determine the concentration of iodine in a solution. It involves the reaction between iodine and sodium thiosulfate, which results in the formation of a colorless complex. The amount of sodium thiosulfate used in the reaction can be used to calculate the concentration of iodine present in the solution.

Why is iodine adsorption and titration with Na2S2O3 important?

Iodine adsorption and titration with Na2S2O3 is important because it is a reliable and accurate method for determining the concentration of iodine. Iodine is a crucial nutrient for the human body and its deficiency can lead to health problems. This process is also used in various industries, such as food and pharmaceutical, to ensure the proper amount of iodine is present in their products.

What equipment is needed for iodine adsorption and titration with Na2S2O3?

The equipment needed for iodine adsorption and titration with Na2S2O3 includes a burette, pipette, conical flask, beaker, and a standard solution of sodium thiosulfate. Other equipment such as a burette stand, dropper, and a magnetic stirrer may also be used to facilitate the process.

How is the endpoint of the titration determined?

The endpoint of the titration is determined by adding a starch indicator to the solution. The starch will react with the iodine to form a blue-black color. As the reaction nears its endpoint, the blue-black color will disappear and the solution will become colorless. The endpoint is reached when the solution remains colorless for at least 30 seconds.

What are the factors that can affect the accuracy of iodine adsorption and titration with Na2S2O3?

The accuracy of iodine adsorption and titration with Na2S2O3 can be affected by several factors, such as the purity of the chemicals used, the accuracy of the equipment, and the skill of the operator. Other factors such as temperature, pH, and the presence of impurities in the solution can also affect the accuracy of the results.

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