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How much iron is in an iron tablet?

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Presentation on theme: "How much iron is in an iron tablet?"— Presentation transcript:

1 How much iron is in an iron tablet?
Group members: Choi Chuen Ching (5) Fong Ka Yee (6) Leung Chi Lai (12) Lui Lai Sin (16)

2 Aim To investigate how much iron is in iron tablets.
2. To compare the percentage of iron in iron tablets from two different manufacturer. 3. To find out which one is worth buying.

3 Why iron is essential to our body?
~the formation of haemoglobin. If we do not have enough iron in our diet, what will happen? The deficiency of iron : anaemia What can be done if we suffer from anaemia? ~ consult doctor ~need to take iron tablet under the guidance of doctor.

4 How can we prevent anaemia?
obtain iron from : ~Liver ~eggs ~beef ~green leafy vegetables, etc. Daily requirement of iron: Male : 10mg Female : 18mg

5 Principles A. Standardization of Potassium Permanganate Solution
Potassium permanganate (KMnO4) ~slowly decomposes in sunlight ~readily oxidizes organic matter. ∴stored in brown bottle and has to be standardized before use. Reagents for the standardization of KMnO4 : ~oxalic acid ~sodium oxalates ~ammonium iron(II) sulphate ~arenious oxide. KMnO4 does not require a chemical indicator for the detection of end point . Because : KMnO4 is deep purple in color and is reduced to almost colorless solution (Mn2+ salts are light pink in color).

6 In this experiment : Primary standard to standardize the KMnO4 solution : ~ Solid ammonium iron(II) sulphate (AIS) ~> stable at room temperature ~> can be obtained in pure state ∴ It can be used as a primary standard in redox titration. However, A neutral solution of AIS is unstable and iron will precipitate out as the hydroxide. Therefore it should be dissolved in an acidified solution, preferably oxygen free. In this experiment, a standard ammonium iron(II) sulphate solution is used to standardize the potassium permanganate solution. The overall equation for the reaction is: MnO4- + 5Fe2+ + 8H+    Mn2 + 5Fe3+ + 4H2O

7 B. Determination of the mass of iron in one gram of the iron tablet
The iron in iron tablets comes from hydrated iron(II) sulphate (FeSO4.7H2O) (sometimes called hydrated ferrous sulphate). As its name suggests, iron(II) sulphate contains Fe2+ ions. These react with the MnO4- ions in the potassium permanganate as shown in the equation below: 5Fe2+ + MnO4 + 8H+     5Fe3+ + Mn2+ + 4H2O The colour of the potassium permanganate disappears as it reacts with the Fe2+ ions. This provides a way of deciding when the titration is complete because, when all the Fe2+ ions are gone, just one drop extra of potassium permanganate solution will make the titration mixture turn pale purple.

8 Procedures A. Standardization of potassium manganate(VII) solution
About 9.8g of ammonium iron(II) sulphate was accurately weighed out. Then it was dissolved in 25ml of sulphuric acid. The mixture was diluted with distilled water and was made up to exactly 250.0ml of solution. 25.0ml of this solution was pipetted into a conical flask. 25ml of 1M sulphuric acid was added to it. It was titrated with potassium manganate(VII) solution until a permanent pink colour was obtained (would not disappear after 30 seconds). The molaruty of the manganate(VII) solution was calculated.

9 B. Determination of the mass of iron in one gram of the iron tablet
1)  Five iron tablets were weighed accurately and their masses were recorded. . 2)  They were grinded up in a mortar and were pestled with about 5 cm3 of 1M sulphuric acid.

10 3)  The acid and tablets were transferred through a small filter funnel into a cm3 volumetric flask. The mortar and pestle were rinsed with further quantities of acid, each portion were transferred carefully into the flask, until all trace of the iron tablets had gone. 4)  The funnel was rinsed with more acid, and then 1M sulphuric acid was added to the flask until the solution reaches the cm­3 mark. The flask was stoppered and was inverted several times to mix the solution.

11 5)   25.0 cm3 of the solution was pipetted from the volumetric flask and was transferred to a conical flask. 6)   A burette was filled with the potassium manganate(VII) solution. 7)   The potassium manganate(VII) solution was titrated against the solution in the conical flask. The volume of potassium manganate(VII) solution used at the end point was recorded. 8)   The above steps were repeated but using different brands of iron tablets in step (1).

12 Result Trial 1 2 3 Initial/ml 0.10 0.20 0.00 Final/ml 24.90 25.00
Standardization of potassium permanganate solution Trial 1 2 3 Initial/ml 0.10 0.20 0.00 Final/ml 24.90 25.00 24.70 Vol. Used/ml 24.80 Average volume used = 24.80ml

13 Trial 1 2 3 Initial/ml 0.00 3.00 5.70 8.40 Final/ml 11.20 Vol. Used/ml
Enteric-coated 167mg iron tablets Weight of 5 tablets = 1.067g Trial 1 2 3 Initial/ml 0.00 3.00 5.70 8.40 Final/ml 11.20 Vol. Used/ml 2.70 2.80 Average volume used = 2.73ml

14 Trial 1 2 3 Initial/ml 0.95 6.45 17.50 22.85 Final/ml 11.85 28.25
Enteric-coated 300mg iron tablets Weight of 5 tablets = 1.580g Trial 1 2 3 Initial/ml 0.95 6.45 17.50 22.85 Final/ml 11.85 28.25 Vol. Used/ml 5.50 5.40 5.45 Average volume used = 5.42ml

15 After calculation, we found that there is 142
After calculation, we found that there is mg of iron present in the “167mg tablet” and mg of iron present in the “300mg tablet”. Then we decided to remove the coating of the tablet and see whether the coating will affect the iron content.

16 How about the iron tablets without enteric-coating?

17 Trial 1 2 3 Initial/ml 0.00 2.55 4.90 7.25 Final/ml 9.65 Vol. Used/ml
167mg iron tablets after removing the enteric-coat Weight of 5 tablets = 0.959g Trial 1 2 3 Initial/ml 0.00 2.55 4.90 7.25 Final/ml 9.65 Vol. Used/ml 2.35 2.40 Average volume used = 2.37ml

18 Trial 1 2 3 Initial/ml 36.20 40.70 45.00 39.10 Final/ml 40.60 49.30
300mg iron tablets after removing the enteric-coat Weight of 5 tablets = 1.312g Trial 1 2 3 Initial/ml 36.20 40.70 45.00 39.10 Final/ml 40.60 49.30 43.40 Vol. Used/ml 4.40 4.30 Average volume used = 4.30ml

19 After calculation, we found that there is 138
After calculation, we found that there is mg of iron present in the “167mg tablet” and mg of iron present in the “300mg tablet”.

20 Discussion Christo “167mg tablet” Apotec “300mg tablet”
Manufacturer of the iron tablets: “167mg tablet” --- Christo Pharmaceutical LTD HK “300mg tablet” --- Apotec Inc. The table showing the mass of iron present in an iron tablet Manufacturer Mass Christo “167mg tablet” Apotec “300mg tablet” Tablets with enteric-coating 142.76mg 191.42mg Tablets without enteric-coating 138.48mg 182.88mg

21 Tablets with enteric-coating 14.3% 19.1%
It is found that the difference between the experimental value and the described value of the Christo is smaller than that of Apotec. The table showing the % of iron present in an iron tablet Manufacturer % of iron Christo “167mg tablet” Apotec “300mg tablet” Tablets with enteric-coating 14.3% 19.1% Tablets without enteric-coating 13.9% 18.3%

22 Source of error: ~The iron tablets are not completely dissolved in sulphuric acid. ~The percentage of iron in enteric-coating may not be the same as that of the inner part of the tablets. ~Potassium permanganate may decompose so that the volume of KMnO4 added may not accurate enough. ~The colour of the coating may affect the observation of end point during titration.

23 Observations: We found that the “300mg tablet” is more difficult to dissolved in sulphuric acid. Improvement: ~Potassium permanganate solution should be used immediately after pouring out of the brown bottle.

24 Conclusion We found that the difference between the experimental value and the described value of “167mg tablet” was smaller than that of “300mg tablet”. Therefore the manufacturer of “167mg tablet” (i.e.Christo Pharmaceutical LTD HK)is more reliable than that of “300mg tablet” (i.e. Apotec Inc.). On the other hand, the price of both kinds of tablets were the same. So “300mg tablet” is more worth buying than “167mg tablet”.

25 The End


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