What is the Difference Between Hybridized and Unhybridized Orbitals?

The main difference between hybridized and unhybridized orbitals lies in their formation and the type of bonds they form:

Hybridized Orbitals:

• Hybridized orbitals are a combination of unhybridized orbitals.
• They are formed when atomic orbitals mix, resulting in a new set of orbitals that are suitable for bonding.
• Hybridized orbitals have energy levels between those of the unhybridized orbitals they are composed of.
• They are used to form sigma (σ) bonds, which are the strongest type of covalent bonds.
• Examples of hybridized orbitals include sp, sp², and sp³ hybrid orbitals.

Unhybridized Orbitals:

• Unhybridized orbitals are the regular atomic orbitals that are not mixed with other atomic orbitals.
• They are used to form pi (π) bonds, which are weaker than sigma bonds.
• Unhybridized p orbitals overlap side-by-side to form π bonds.

In summary, hybridized orbitals are a combination of unhybridized orbitals and are used to form strong sigma bonds, while unhybridized orbitals remain in their original state and are used to form weaker pi bonds.

Comparative Table: Hybridized vs Unhybridized Orbitals

The main difference between hybridized and unhybridized orbitals lies in their formation and the type of bonds they form. Here is a comparison table highlighting the differences:

In summary, hybridized orbitals are a result of atomic orbitals combining to form new orbitals that help explain molecular shape and are suitable for forming σ bonds. On the other hand, unhybridized orbitals are regular atomic orbitals that are used in the formation of π bonds.