The molecular geometry of SF6 is octahedral.
Sulfur hexafluoride is a common example of an octahedral molecule. The central sulfur atom is bonded to six fluorine atoms. In molybdenum hexacarbonyl, a central molybdenum atom is bonded to six carbonyl groups. A carbonyl group is a carbon atom triple bonded to an oxygen atom.
Answer: SF6 (or sulfur hexafluoride) is a covalent compound since both sulfur and fluorine are non-metallic elements.
The number of planar atoms in SF6 is 5. This is because the structure of SF6 is octahedral. There are 4 planar atoms in fluorine and 1 in sulfur.
Sulphur forms 6 bond pairs. It therefore requires 6 hybrid orbitals and hence the hybridization sp3d2this molecule has an octahedral structure.
The molecule of SF6 has a symmetrical shape, ie; orthogonal geometry. The fluorine atom is more electronegative than the sulfur atom, causing the fluorine atom to slightly attract the bonded pair of electrons.
If we look at the molecular geometry of the molecule, we can say that the SF6 molecule has an octahedral shape because it has eight sides. However, the central atom binds to six fluorine atoms, the shape of SF6 is octahedral.
PCl5 has a trigonal-bipyramidal geometry. In this case, the axial ties are slightly longer than the equatorial ties. This is because the axial bonds experience greater repulsion from other bonds than the equatorial bonds. SF6 has an octahedral structure.
SF6. This highly symmetrical molecule has many symmetry elements: It has 3 four-fold rotation axes, 4 three-fold rotation axes, 6 two-fold rotation axes, a reversal point, 9 mirror planes, plus -3 and -4 axes.
According to the structure, there is no lone pair and 6 pairs of bonds.
SF6 has an octahedral molecular geometry and is inherently non-polar.
The molecular geometry of SF4 is a seesaw with a pair of valence electrons. The nature of the molecule is polar. These atoms form a trigonal bipyramidal shape. The equatorial fluorine atoms have a bond angle of 102° instead of the actual angle of 120°.