Explain inert pair effect with reference to carbon family.
Or
Explain C and Si are tetravalent, but Ge, Sn and Pb show divalent.
The general electronic configuration of group 14 elements is [Noble gas] ns2np2, so these elements are expected to show a uniform oxidation state of +4. Carbon and silicon show an oxidation state of +4 only, but tin and lead, however, show oxidation states of +2 and +4.
As we move down the group, the stability of +4 oxidation state decreases and that of+2 oxidation state increases. This means that as we move down the group, the tendency of the s- electron of the valence shell to precipitate in a bond formation decreases. In other words, the pair of s-electrons, 5s in tin and 6s in lead behaves as inert. This is called inert pair effect. Because of inert pair effect, only the np2 electron of tin and lead take part in bonding with the atoms of the other elements. Thus, divalent compounds of tin and lead are stable.
