Some people take iron tablets as a dietary supplement - Scottish Highers Chemistry - Question 7 - 2017

The reaction is self-indicating. Permanganate (MnO₄⁻) provides a color change from purple to colorless as it is reduced, making it easy to determine the endpoint without the need for a separate indicator.

The titration must be conducted under acidic conditions to provide H⁺ ions necessary for the reduction of permanganate ions (MnO₄⁻) to manganese ions (Mn²⁺) during the reaction.

The volume of 14.55 cm³ was taken as it represents the mean value of the three trials, providing a more reliable average than any individual reading.

First, calculate the moles of MnO₄⁻ used in the titration:

Moles of MnO₄⁻ = Concentration × Volume = 0.020 ext{ mol l}^{-1} × rac{14.55}{1000} ext{ l} = 0.000291 ext{ moles}.

Using the stoichiometry from the reaction:

5 Fe²⁺ + MnO₄⁻ → 5 Fe³⁺ + Mn²⁺

Thus, moles of Fe²⁺ = 5 × moles of MnO₄⁻ = 5 × 0.000291 = 0.001455 moles.

Now, for concentration:

Concentration of Fe²⁺ = rac{0.001455 ext{ moles}}{0.025 ext{ l}} = 0.0582 ext{ mol l}^{-1}.

A standard solution is a solution of accurately known concentration, which is commonly used in titrations to determine the concentration of another solution.

A graduated pipette could be used to accurately measure 25.0 cm³ samples of the iron tablet solution.

Given that five iron tablets contain 0.00126 moles of Fe²⁺, the mass of iron in total is:

Mass = Moles × Molar mass = 0.00126 × 55.85 ext{ g/mol} = 0.0704 ext{ g} = 70.4 ext{ mg}.

To find the average mass per tablet, divide by 5:

Average mass per tablet = rac{70.4 ext{ mg}}{5} = 14.08 ext{ mg}.

The recommended amount of iron per day is 14.8 mg. A 100 g serving of cereal contains 12.0 mg of iron, so a 30 g serving contains:

Iron in 30 g = rac{12.0 ext{ mg}}{100 ext{ g}} × 30 ext{ g} = 3.6 ext{ mg}.

Therefore, the percentage of the daily recommended amount is:

Percentage = rac{3.6 ext{ mg}}{14.8 ext{ mg}} imes 100 ext{ ext{ %}} hickapprox 24.32 ext{ ext{ %}}.