Which type of hybridisation explains the trigonal bipyramidal shape of `SF_4`?

When hybridisation involving d-orbitals are considered then all the five d-orbitals are not degenerate, rather d_(x^(2)-y^(2)),d_(s^(2)) and d_(xy),d_(zx) form two different sets of orbitals and orbitals of appropriate set is involved in the hybridisation. Molecule having trigonal bipyramidal geometry and sp^(3) d hybridisation, d-orbitals involved is :

When hybridisation involving d-orbitals are considered then all the five d-orbitals are not degenerate, rather d_(x^(2)-y^(2)),d_(s^(2)) and d_(xy),d_(zx) form two different sets of orbitals and orbitals of appropriate set is involved in the hybridisation. Molecule having trigonal bipyramidal geometry and sp^(3) d hybridisation, d-orbitals involved is :

As PF_(5) molecule is sp^(3) d hybridised and is trigonal bipyramidal (TbP) shape Which d-orbital is involved in sp^(3) d hyridisation .

Write down the hybridization of central atom and shape of SF_(4).

Name the types of hybridisation which lead to the following geometries Trigonal bipyramidal.

In allene (C_(3)H_(4)) , the type(s) of hybridisation of the carbon atoms, is (are)

Why is that in the SF_(4) molecule, the lone pair of electrons occupies an equatorial position in the overall trigonal bipyramidal arrangement in preferencr to an axial position ?

Which of the following species have a trigonal planar shape ?

The state of hybridisation for the transition state of hydrolysis mechanism of BCI_(3) and SF_(4) are respectively

Hybridisation and shape of BrF_(5) is :