Solubility - Solubility of Ionic Compounds in Water

Solubility of Ionic Compounds in Water

Some ionic compounds (salts) dissolve in water, which arises because of the attraction between positive and negative charges (see: solvation). For example, the salt's positive ions (e.g. Ag+) attract the partially negative oxygens in H₂O. Likewise, the salt's negative ions (e.g. Cl−) attract the partially positive hydrogens in H₂O. Note: oxygen is partially negative because it is more electronegative than hydrogen, and vice-versa (see: chemical polarity).

AgCl_(s) Ag+_(aq) + Cl−_(aq)

However, there is a limit to how much salt can be dissolved in a given volume of water. This amount is given by the solubility product, K_sp. This value depends on the type of salt (AgCl vs. NaCl, for example), temperature, and the common ion effect.

One can calculate the amount of AgCl that will dissolve in 1 liter of water, some algebra is required.

K_sp = × (definition of solubility product)

K_sp = 1.8 × 10−10 (from a table of solubility products)

=, in the absence of other silver or chloride salts,

2 = 1.8 × 10−10

= 1.34 × 10−5

The result: 1 liter of water can dissolve 1.34 × 10−5 moles of AgCl_(s) at room temperature. Compared with other types of salts, AgCl is poorly soluble in water. In contrast, table salt (NaCl) has a higher K_sp and is, therefore, more soluble.