Answer:
The molar solubility of Fe(OH)₃ in pure water is 2.0x10⁻¹⁰ M.
Explanation:
First, remember that the molar solubility of a compound is the maximum molar concentration of solute in a specific solvent. In this case, the solute is Fe(OH)₃ and the solvent is water.
- To calculate the molar solubility of a compound, we have to start by writing the dissociation reaction and make sure it is balanced. You can check the attachment for better understanding.
- The molar solubility of each dissociated species is represented by the letter "s" and multiply by its coefficient.
- The molar solubility is calculated from the Ksp of a compound. The Ksp is the Solubility Product Constant, so we have to make the product of molar solubility of each specie:
Kps = [Fe⁺³].[OH⁻]³
It is very important to raise to the power indicated by the coefficient the solubility of each specie when we write it in the Ksp equation.
After a few mathematical steps for clearing the solubility "s" we find that the result is 1.96x10⁻¹⁰ M that it is approximately to 2.0x10⁻¹⁰ M.
Note:
The molar solubility has units of molarity which is represented in chemistry by capital letter M not small letter m. Small letter m represents molality in chemistry. Molarity and molality are differents, be careful.
