Question:

Which of the following hybridisations has planar geometry?

Updated On: Jun 14, 2022
  • $s p^{3} d$
  • $ dsp^{3} $
  • $ dsp^{2} $
  • $ sp^{3} $
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The Correct Option is C

Solution and Explanation

$s p^{3} d$ - Trigonal bipyramidal geometry
$d s p^{3}$ - Trigonal bipyramidal geometry
$d s p^{2}$-Square planar geometry
$s p^{3}$ - Tetrahedral geometry
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Concepts Used:

Hybridisation

Hybridization refers to the concept of combining atomic orbitals in order to form new hybrid orbitals that are appropriate to represent their bonding properties. Hybridization influences the bond length and bond strength in organic compounds

Types of Hybridization:

sp Hybridization

sp hybridization is observed while one s and one p orbital inside the identical principal shell of an atom mix to shape two new equal orbitals. The new orbitals formed are referred to as sp hybridized orbitals.

sp2 Hybridization

sp2 hybridization is observed whilst ones and p orbitals of the same shell of an atom blend to shape three equivalent orbitals. The new orbitals formed are referred to as sp2 hybrid orbitals.

sp3 Hybridization

When one ‘s’ orbital and 3 ‘p’ orbitals belonging to the identical shell of an atom blend together to shape 4 new equal orbitals, the sort of hybridization is referred to as a tetrahedral hybridization or sp3.

sp3d Hybridization

sp3d hybridization involves the joining of 3p orbitals and 1d orbital to form 5 sp3d hybridized orbitals of identical energy. They possess trigonal bipyramidal geometry.

sp3d2 Hybridization

With 1 s three p’s and two d’s, there is a formation of 6 new and identical sp3d2 orbitals.