The molecular geometry is octahedral.
It's trigonal pyramidal. You can do an easy calculation by considering the number of valence electrons, in this case 26, and then drawing a Lewis structure. The Lewis structure will have 8 electrons on each of the Oxygen atoms and a single lone pair on the sulfur. This lone pair gives Sulfite sp3 hybridized orbitals and trigonal pyramidal geometry.
The molecular geometry of C2H2Br2 is trigonal planar.The molecular geometry of C2H2Br2 is trigonal planar.
The molecular geometry of secl2 is BENT.
See-saw is the molecular geometry, and trigonal bi-pyramidal is the orbital geometry.
trigonal bipyramidal
The electronic geometry of sulfite ion (SO3^2-) is trigonal planar. In this structure, there are three regions of electron density around the sulfur atom, forming a trigonal planar shape.
Think of the sulfite ion as a molecule with its geometry and dipole moment AND a net charge. The electron pair geometry is tetrahedral and the molecular geometry is trigonal pyramidal and because of its asymmetrical shape and polar bonds, sulfite has a net dipole moment (2.04D ). The ion is polar.
Sulfite ion.
The chemical symbol for the sulfite ion is SO3^2-.
The correct name for the SO32- polyatomic ion is sulfite ion.
The IF4- ion has a square pyramidal molecular geometry with the iodine atom at the apex and the four fluorine atoms at the base vertices.
The answer is Hydrogen Sulfite, because there is only one Hydrogen and its attached to the Sulfite ion.
The ion hydronium has a pyramidal form, H atoms forming the base.
The name for SO32 is sulfite ion.
The symbol for sulfite is SO3^2-.
H3O: Trigonal pyramidal CO3^2-: Trigonal planar SF6: Octahedral