Final answer:
The solubility of salts with anions from weak bases increases in acidic solutions. Al(OH)3 is an example of such a salt, as it becomes more soluble when acid protonates the hydroxide ions, leading to increased solubility. So the correct option is A.
Step-by-step explanation:
The solubility of salts in acidic solutions compared to pure water can be understood in the context of the common ion effect and Le Chatelier's principle. Salts composed of a weak base and a strong acid will be more soluble in an acidic solution due to the protonation of the anion, which reduces the common ion effect and drives the dissolution reaction forward.
Al(OH)3 is a salt of a weak base (Al(OH)₂⁺) and a strong base (OH⁻). The presence of an acid such as HCl will protonate the OH⁻, forming water and thus removing the common ion effect on the solubility equilibrium. As a result, the solubility of Al(OH)3 increases in an acidic solution compared to pure water.
Other compounds such as BaF2, PbCl2, Hg2Br2, NiS, and AgI are also likely to have increased solubility in acidic solutions if they contain anions that can react with the added H⁺ ions. For example, NiS, containing the weak base anion S²⁻, will react with H⁺ to form H₂S, enhancing its solubility in acidic solutions.