Respuesta :
we are given the mass of the hydrate and the mass of the water present. In this case, the mass of anhydrous iron iii chloride is equal to 3.29 grams. This means the mass percent of anhydrous part is 60 percent. The mass ratio of anhydrous to hydrate is equal to 162.2 g / x where x is the molar mass of the hydrate. x then is equal to 270. 66 g/mol. Hence the total molar mass of water is equal to 108. 46 g/mol equal to about 6 moles of H20. The molecular formula hence is FeCl3 - 6H2O
Answer: FeCl₃ . 6H₂O,
Explanation:
1) The chemical formula of iron(III) chloride is FeCl₃ (the oxidation number of Fe is 3+, and the oxidation number of Cl is 1-).
2) The formula that you are lookin for the hydrate is of the type FeCl₃ . n H₂O, where n is the number of water molecules per each unit formula of Fe₂O₃.
3) Find the mass of anhydrous FeCl₃ by difference:
mass of FeCl₃ = mass of the sample - mass of the water in the sample
mass of FeCl₃ = 5.49g - 2.20 g = 3.29 g
4) Convert the mass of FeCl₃ in number of moles
number of moles = mass in grams / molar mass
molar mass of FeCl₃ = 55.845 g/mol + 3×35.453 g/mol = 162.204 g/mol
number of moles = 3.29 g / 162.204 g/mol = 0.0203 mol FeCl₃
5) Convert the mass of water in number of moles:
molar mass of water = 18.015 g/mol
number of moles of water = mass in grams / molar mass = 2.20 g / 18.015 g/mol = 0.122 moles H₂O
6) Find the mole ratio of water to iron chloride:
0.122 mol water / 0.0203 mol iron chloride = 6.01 ≈ 6
Therefore, the complete formula of the hydrate is FeCl₃ . 6H₂O,