What is the Difference Between Axial and Equatorial Position?

The difference between axial and equatorial positions lies in the orientation of the bonds in a cyclohexane molecule. These positions are a result of the chair conformation, which is the most stable conformation of cyclohexane.

• Axial positions: Axial bonds are oriented perpendicular to the plane of the ring. They are vertical bonds that are pointed either up or down, parallel to the symmetry axis of the ring. Due to their orientation, axial positions next to each other point in opposite directions.
• Equatorial positions: Equatorial bonds are oriented around the plane of the ring, resembling a horizontal bond. They radiate away from the "equator" of the ring. Equatorial positions next to each other also point in opposite directions.

To summarize, axial bonds are vertical and perpendicular to the ring structure, while equatorial bonds are horizontal and parallel to the ring structure.

Comparative Table: Axial vs Equatorial Position

The difference between axial and equatorial positions can be best understood in the context of cyclohexane, a molecule with a six-membered carbon ring. When a substituent is added to cyclohexane, it can take either an axial or equatorial position. Here is a comparison of the two positions:

In summary, axial positions are perpendicular to the plane of the ring and are aligned parallel to the symmetry axis of the ring, while equatorial positions are located about the periphery of the carbon ring and are approximately horizontal. Equatorial positions are generally more stable than axial positions due to fewer unfavorable interactions caused by steric hindrance.