Concept explainers
Refer to the Ksp value from Table 17.2 to calculate the solubility of iron(ll) hydroxide in pure water in grams per 100.0 ml of solution.
Table 17.2 Selected Solubility-Product Constants (Ksp) at 25 ?C
Compound | Formula | Ksp | Compound | Formula | Ksp |
Barium fluoride | BaF2 | 2.45 × 10−5 | Lead(II) chloride | PbCl2 | 1.17 × 10−5 |
Barium sulfate | BaSO4 | 1.07 × 10−10 | Lead(II) bromide | PbBr2 | 4.67 × 10−6 |
Calcium carbonate | CaCO3 | 4.96 × 10−9 | Lead(II) sulfate | PbSO4 | 1.82 × 10−8 |
Calcium fluoride | CaF2 | 1.46 × 10−10 | Lead(II) sulfide | PbS | 9.04 × 10−29 |
Calcium hydroxide | Ca(OH)2 | 4.68 × 10−6 | Magnesium carbonate | MgCO3 | 6.82 × 10−6 |
Calcium sulfate | CaSO4 | 7.10 × 10−5 | Magnesium hydroxide | Mg(OH)2 | 2.06 × 10−13 |
Copper(II) sulfide* | CuS | 1.27 × 10−36 | Silver chloride | AgCl | 1.77 × 10−10 |
Iron(II) carbonate | FeCO3 | 3.07 × 1011 | Silver chromate | Ag2CrO4 | 1.12 × 10−12 |
Iron(II) hydroxide | Fe(OH)2 | 4.87 × 10−17 | Silver bromide | AgBr | 5.36 × 10−13 |
Iron(II) sulfide* | FeS | 3.72 × 10−19 | Silver iodide | AgI | 8.51 × 10−17 |
*Sulfide equilibrium is of the type:
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