![]() The hybridization has been assigned based on the central atom and not resonance.Thus, it will never form \rm sp^3d hybridization. The hybrid orbitals are formed by the combination of the atomic orbital.The atom with single pi electrons has fulfilled s orbital and 2 electron sin the p orbital by sharing of bond, Thus, the hybridization has been \rm sp^2. In the valence bond theory, the atomic orbitals combine to form the hybrid orbits for bond sharing.It has been based on the delocalization over the entire molecule. The hybrid orbitals are localized over the bond, while delocalization has been related to MOT.Thus, the hybridization of the atom has been \rm sp^3. The central atom with 4 electrons results in the distribution of electrons in 1 s and 3 p orbitals.The sharing of electrons results in the hybrid atomic levels. The atoms have been resulted in the formation of the covalent bond, by the sharing of the electrons. All the resonance structures must have the central atom in the same hybridization state. The electron domain geometry of the molecule is considered when assigning hybridization and not the resonance structures. Oxygen has an empty n=3 level hence it can not have d-orbitals involved in hybridization. Remember that in ethene for instance, carbon has one pi bond and an octet of electrons. When an atom has a single pi bond and on octet of electrons, then it must be sp2 hybridized. Hybridized orbitals are localized on central atoms in a molecule while delocalized orbitals spread across the entire molecule.Īccording to valence bond theory, the number of atomic orbitals that combined to give hybrid orbitals must be equal to the number of hybrid orbitals formed. Hybridization is a valence bond concept while delocalization is a molecular orbital theory concept. This is the case in ammonia, water, hydrogen sulphide, methane etc. When a central atom has four electron groups attached to it, then it must be sp3 hybridized. FalseĪll resonance structures must be considered when assigning hybridization. Sometimes oxygen atoms will be sp3d hybridized in organic molecules. TrueĪtoms with a single pi bond and an octet are sp2 hybridized. The number of hybrid orbitals is equal to the number of atomic orbitals that are blended together. Hybrid orbitals are delocalized over the entire molecule. Central atoms with four electron groups will be sp3 hybridized.
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