Valence Shell Electron Pair Repulsion (VSEPR) Theory

1. Valence Shell Electron Pair Repulsion (VSEPR) Theory Valence shell electrons will arrange themselves about a central atom so that replusions among them are as small as possible Used to determine the Molecular Geometry (Shape) of a molecule (Lewis Dot structures only give us the order of bonding) Count the # of regions of high electron density: a region of high e- density is a bond (single, double or triple) or a lone pair.

2. CO2 • Lewis Dot Structure • O=C=O • only tells us the bonding and not the Geometry • VSEPR • # of high e- density regions around the central atom • 2 bonds and 0 lone pairs • Linear O=C=O OCO  180o • Therefore, the Molecular Geometry (Shape) is linear

3. BF3 Lewis Dot Structure VSEPR # of high e- density regions around the central atom 3 bonds and 0 lone pairs Trigonal Planar FBF  120o  the Molecular Geometry (Shape) is Trigonal Planar

4. H H C H H CH4 Lewis Dot Structure VSEPR # of high e- density regions around the central atom 4 bonds and 0 lone pairs Tetrahedral HCH  109.5o  the Molecular Geometry (Shape) is Tetrahedral

5. F F F P F F PF5 Lewis Dot Structure VSEPR # of high e- density regions around the central atom 5 bonds and 0 lone pairs Trigonal Bipyramidal FPF 90.0o & 120.0o & 180.0o  the Molecular Geometry (Shape) is Trigonal Bipyramidal

6. F F SF6 Lewis Dot Structure VSEPR # of high e- density regions around the central atom 6 bonds and 0 lone pairs Octahedral FSF 90.0o & 180.0o  the Molecular Geometry (Shape) is Octahedral S F F F F