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zorro
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Hybridisation of SO2 and SeO2
Why is the hybridisation of S in SO2 sp2 where as it is sp3 in SeO2 ?
Why is the hybridisation of S in SO2 sp2 where as it is sp3 in SeO2 ?
Hybridisation is the mixing of atomic orbitals to form new hybrid orbitals with different shapes and energies. It is important in understanding the structure of molecules because it helps determine the bond angles and molecular geometry, which in turn affects the properties and reactivity of the molecule.
The hybrid orbitals of SO2 and SeO2 are determined by the number of bonding and lone pairs of electrons around the central atom. In both molecules, the central atom has two bonding pairs and one lone pair, leading to a hybridisation of sp2.
The main difference between the hybridisation of SO2 and SeO2 is the electronegativity of the central atom. Sulfur has a lower electronegativity compared to selenium, leading to a slightly larger bond angle and a more polar molecule in SO2 compared to SeO2.
The hybridisation of SO2 and SeO2 affects the polarity of the molecules as it determines the electron density and arrangement around the central atom. In both cases, the hybrid orbitals are directed towards the oxygen atoms, making the molecules polar due to unequal sharing of electrons.
Yes, the hybridisation of SO2 and SeO2 can affect their chemical properties. The different hybridisation leads to different bond angles and molecular geometries, which can impact the strength and reactivity of the bonds. This, in turn, can affect the physical and chemical properties of the molecules such as boiling and melting points, acidity, and basicity.