The maximum covlaency for boron and aluminium respectively are
A
4 for both
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B
6 and 4
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C
4 and 6
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D
6 for both
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Solution
The correct option is C 4 and 6 Al+3 stable oxidation at ∴ it can accomodate 6 ligand ∴ covalency 6 (b) 1s22s22p1 No vacant d-orbital. B+3 can maximum accommodate 4 ligand [B(OH)3]− Hence, covlaency for boron and aluminium respectively are 4, 6.
THEORY Important Trends and Anomalous Properties of B:
Tri-chlorides, tri-bromides and tri-iodides of group13 elements are covalent in nature and hydrolysed in water.
Tetrahedral [M(OH)4]– and octahedral [M(H2O)6]3+ exist in an aqueous medium except for boron. Because in boron, d-orbital is absent, so maximum covalency of B is 4. But for other elements (Al, Ga, In, Tl) d-orbitals are available, so maximum covalency can be expected beyond 4.
The monomeric trihalides being electron-deficient, are strong Lewis acids.
F3B+⋅⋅NH3→F3B←NH3
Most of the other metal halides are dimerized through halogen bridging e.g. AlCl3