Application OF Hydration Energy || Solubility OF Ionic Compounds

Types OF Solvent - Polar-non Polar || Hydration and HE || Application OF HE-Size || Ionic Mobility || Conductivity || Lattice Energy || Solubility OF Ionic Compound || Born-Haber Cycle || Hydrides-metallic and non-metallic || Composition OF Acidic Strength

Color OF Compounds || Solubility OF Ionic Compounds

Application OF Fajan's Rule || Covalent character in Ionic Compounds || Melting point || Solubility in water || Colour imparting Tendency

||Ionic Bond||Polarisation and Fajan's Rule||Applications OF Polarisation||Solubility and Solubility Order

Statement-1 : Solubility of ionic compounds in water depends on both the lattice energy and the hydration energy. Statement-2 : Ionic compounds dissolve in water when their hydration energy exceeds the lattice energy.

The solubility of most salts depends on the lattice energy of the solid and the hydration energy of the ions. On descending the group, the hydration energy decreases more rapidly than the lattice energy, hence the compound become less soluble as the metals gets larger. however, with the fluorides and hydroxides and the lattice energy decreases more rapidly than the hydration energy and so their solubility increases on descending the group. Q. Which of the following is correct order of solubility of sulphates of alkaline earth metals?

The solubility of most salts depends on the lattice energy of the solid and the hydration energy of the ions. On descending the group, the hydration energy decreases more rapidly than the lattice energy, hence the compound become less soluble as the metals gets larger. however, with the fluorides and hydroxides and the lattice energy decreases more rapidly than the hydration energy and so their solubility increases on descending the group. Q. The most soluble hydroxide will be

Condition suitable for high solubility of ionic compound in solvent should be: