Complete the table (as outlined above) for the following molecules/molecular ions. No adherence to the Lewis octet rule is indicated. Complete those that are assigned by your laboratory instructor.

Transcribed Image Text:

### VSEPR Theory and Molecular Geometry #### Example Molecule: Methane (CH₄) The table below demonstrates the application of the Valence Shell Electron Pair Repulsion (VSEPR) theory to determine the molecular geometry of methane. | Molecule or Molecular Ion | Lewis Structure | Valence Shell Electron Pairs | Bonding Electron Pairs | Nonbonding Electron Pairs | VSEPR Formula | Approx. Bond Angle | Geometric Shape | |---------------------------|-----------------|-----------------------------|------------------------|--------------------------|---------------|--------------------|-----------------| | 1. CH₄ | H<br>:_HC_H:<br>H | 4 | 4 | 0 | AX₄ | 109.5° | tetrahedral | ### Additional Exercises For practice, complete the VSEPR table for the following molecules without strict adherence to the Lewis octet rule. Refer to your laboratory instructor for further guidance. 1. **SnF₂** 2. **SnF₄** Remember to determine the number of valence shell electron pairs, the number of bonding and nonbonding electron pairs, the VSEPR formula, approximate bond angles, and the geometric shape in a similar manner to the table above. This exercise aims to solidify the understanding of molecular shapes and bond angles using VSEPR theory, crucial for predicting molecular geometry and bonding properties.