http://www.ck12.org Chapter 9. Covalent Bonding
Lesson Summary
- Valence shell electron pair repulsion (VSEPR) theory is a technique for predicting the molecular geometry of
a molecule. A molecule’s shape provides important information that can be used to understand its chemical
and physical properties. - According to VSEPR, covalent bonds and lone pairs distribute themselves around a central atom in such a
way as to maximize their distance from each other. - Electron domain geometries are based on the total number of bonds and lone pairs, while molecular geometries
look only at the arrangements of atoms and bonding pairs.
Lesson Review Questions
- What is the basic principle of VSEPR theory?
- How many covalent bonds would there be attached to a central atom in the following configurations:
a. tetrahedral
b. octahedral
c. trigonal planar
d. linear - What is the difference between the electron domain geometry and the molecular geometry?
- How do lone pairs act differently than bonding pairs in terms of electron repulsion?
- Using the VSEPR method, predict the molecular geometries (including bond angles) for each of the following
molecules:
a. SF 2
b. PBr 3
c. AlCl 3
d. TeCl 6
e. HCN
Further Reading / Supplemental Links
Video on VSEPR theory: http://www.youtube.com/watch?v=FhVkCH9COZo
Possible shapes of molecules according to VSEPR theory: http://www.youtube.com/watch?v=i3FCHVlSZc4
Points to Consider
- How might molecular geometry affect how molecules interact with one another?