Acid strength of hydrated cation
plz explain...as soon as...
Answers
Hydration energy is the heat change accompanying the formation of 1 mole of a specific hydrate. Hydration energy of [Ba(H2O2)2]2+, [Cu(H2O4]2+ and [AI(H2O)6]3+ are approximately 30, 75 and 320 KJ/mol(-ve, exothermic), respectively. This large variation in hydration ratio for the action (AI3+ > Cu2+ >Ba2+) is responsible for high hydration energy . However, closely associated to hydration is the phenomenon of hydrolysis, such as:
Hydration Hydrolysis
Fe3+ + 6H2O → [Fe(H2O)6]3+ → [Fe(H2O)5(OH)2+ + H+
Small and highly charged cation, that is, large charge-to-size ratio, can lead to the rupture of O-H bonds in the hydrated cation to yield hydrolyzed species and the hydrated proton as shown:
[ M(H2O)n ]M+(aq) + H2O <==> [ M (H2O)n-1 (OH ] (aq) (m-1)+ + H3O+.
The larger the charge-to-size (acidity) of the cation, the more polar the O-H bond in the coordinated H2O and the more easily a proton is released as H3O+. On the basis of charge-to-size ratio, the relative acid strength decreases as :
[ Fe(H2O)6 ]3+ > [ V (H2O)6]3+ > [Cr(H2O6]3+ > [Sc(H2O6]3+ > [AI (H2O)6]3+ > [La (H2O)6]3+
Among divalent hydrated cations, the acid strength decrease in the order:
[ Be(H2O)n ]2+ > [Cu(H2O)n]2+ > [ Mg(H2O)n]2+ > [Ca(H2O)n]2+ > [ Ba(H2O)n ]2+
Hope it helps u a lot.....
Hydration energy is the heat change accompanying the formation of 1 mole of a specific hydrate. Hydration energy of [Ba(H2O2)2]2+, [Cu(H2O4]2+ and [AI(H2O)6]3+ are approximately 30, 75 and 320 KJ/mol(-ve, exothermic), respectively. This large variation in hydration ratio for the action (AI3+ > Cu2+ >Ba2+) is responsible for high hydration energy . However, closely associated to hydration is the phenomenon of hydrolysis, such as:
Hydration Hydrolysis
Fe3+ + 6H2O → [Fe(H2O)6]3+ → [Fe(H2O)5(OH)2+ + H+