Why is `BF_(3)` a Lewis acid?

Assertion: BF_(3) is weaker lewisi acid than BC l_(3) . Reason: BF_(3) is less electron deficient thann BCl_(3) .

Boron, the first member of group 13 (p-block) is a typical non-metal. H exists in two allotropic forms. The compounds of boron are mainly electron deficient as well as Lewis acids. For example, all the trihalides of boron (BX_(3)) are Lewis acids. The expected order of acidic strength based on the electro negativity of halogen atoms is : BF_(3)gtBC l_(3)gtBBr_(3)gtBl_(3) . But the actual order is the reverse. This is explained with the help of the concept of back bonding (p pi- p pi) . Among the hydrides of boron. diborane has a bridged structure. In the reaction: BF_(3)+3LiBH_(4)rarr3liF+X is

Explain why BF_(3) is a weaker Lewis acid than BCl_(3) .

Give reason for the following BF_(3) act as weak Lewis acid.

The tendency of bF_(3), BCl_(3) and BBr_(3) behave as Lewis acid decreases in the sequnece

Assertion BF_(3) is a weaker Lewis acid than BCI_(3) Reasoning In BF_(3) molecule, back bonding (ppi-ppi) is stronger than in BCI_(3) .