It is simpler to understand.

It accounts for complex bonding interactions.

It is a newer theory.

It only focuses on covalent bonds.

Metal ions and ligands are treated as point charges.

Only s orbitals are considered.

Metal ions are treated as neutral atoms.

Ligands are ignored in the theory.

d xy and d xz

d yz and d z squared

d (x squared minus y squared) and d z squared

d x squared and d y squared

The temperature of the environment

The color of the ligands

The size of the metal ion

The type of d orbitals and identity of ligands

It has no unpaired electrons.

Electrons are spread out with unpaired electrons in EG orbitals.

Electrons are only in T2G orbitals.

All electrons are paired.

They approach the orbitals on the axes.

They approach the orbitals between the axes.

They do not interact with d orbitals.

They only interact with s orbitals.

The temperature of the solution

The strength of the ligands

The color of the complex

The size of the metal ion

Their color

Their solubility

Their boiling point

Their density

By assuming all electrons are paired

By considering the pairing of electrons in orbitals

By ignoring electron interactions

By focusing on s orbitals only

The boiling points of compounds

The density of compounds

The magnetic behaviors and colors of compounds

The melting points of compounds