Nitrogen has no d-orbital in its valence shell and therefore it cannot

Which of the following statement(s) is // are correct regarding anomalous behaviour of first member of group 13-18 elements ? I. This is due to the absence of d-orbital in valence shell. II. This is due to the presence of p-orbital in valence shell. III. This is due to the presence of d-orbital in valence shell. Choose the correct option.

Sulphur and rest of the elements of group 16 are less electronegative than oxygen, Therefore, their atoms cannot take electrons easily. They can acquire ns^2 np^6 configuration by sharing two electrons with the atoms of other elements and thus, exhibit +2 oxidation state in their compounds. In addition to this, their atoms have vacant d-orbitals in their valence shell to which electrons can be promoted from the p and s-orbitals of the same shell. As a result, they can show +4 and + 6 oxidation states. Oxygen exhibits +2 oxidation state in

Be forms [BeF_(4)]^(2-) , but Al forms [AiF_(6)]^(3-) . Reason (R ): Be does not have d -orbitals in the valence shell but Al has.

The number of half filled orbitals in the valence shell of halogens is

An element of p-block in which last electron enters into s-orbital of valence shell insteatd of p-orbital is :

Statement-1 : In tetrahedral hybridisation, i.e., in sp^(3) hybridisation all p-orbitals of valence shell are involved and non p-orbitals of valence shell are involved and no p-orbitals is left for forming pi- bonds. Statement-2 :: Central atom cannot form double bonds in the molecules or species having sp^(3) hybridisation.