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What is the molecular geometry of sulfur trioxide (so3) This means the bond angles between the oxygen atoms are approximately 120° Learn its lewis structure and bond angle.

SO3 Lewis structure, Molecular geometry, Bond angle, Shape

The bond angles are approximately 120° due to the trigonal planar arrangement of the oxygen atoms around the sulfur This arrangement results from the presence of the lone pair on the sulfur atom, influencing the overall geometry and angles. Final answer the bond structure of the sulfite ion (so₃²⁻) consists of one sulfur atom bonded to three oxygen atoms, with resonance structures allowing for one double bond and two single bonds.

Let us learn about so3 molecular geometry and bond angles, so3 molecular geometry and bond angles examples, sulphur trioxide lewis structure, what causes so3 to generate double bonds, how sulphur breaks the octet rule.

The lewis dot structure for so₃²⁻ shows sulfur bonded to three oxygens with a lone pair The electron geometry is tetrahedral, the molecular geometry is trigonal pyramidal, the hybridization is sp³, and the bond angle is approximately 106°