Examples of Polar and Nonpolar Molecules

Polar Versus Nonpolar Molecular Geometry

Benzene
Benzene is an example of a nonpolar molecule. LAGUNA DESIGN / Getty Images

The two main classes of molecules are polar molecules and nonpolar molecules. Some molecules are clearly polar or nonpolar, while many have some polarity and fall somewhere in between. Here's a look at what polar and nonpolar mean, how to predict whether a molecule will be one or the other, and examples of representative compounds.

Polar Molecules

Polar molecules occur when two atoms do not share electrons equally in a covalent bond.

A dipole forms, with part of the molecule carrying a slight positive charge and the other part carrying a slight negative charge. This happens when there is a difference between the electronegativity of each atom. An extreme difference forms an ionic bond, while a lesser difference forms a polar covalent bond. Fortunately, you can look up electronegativity on a table to predict whether or not atoms are likely to form polar covalent bonds. If the electronegativity difference between the two atoms is between 0.5 and 2.0, the atoms form a polar covalent bond. If the electronegativity difference between the atoms is greater than 2.0, the bond is ionic. Ionic compounds are extremely polar molecules.

Examples of polar molecules include:

  • water - H2O
  • ammonia - NH3
  • sulfur dioxide - SO2
  • hydrogen sulfide - H2S
  • ethanol - C2H6O

Nonpolar Molecules

When molecules share electrons equally in a covalent bond there is no net electrical charge across the molecule.

In a nonpolar covalent bond, the electrons are evenly distributed. You can predict nonpolar molecules will form when atoms have the same or similar electronegativity. In general, if the electronegativity difference between two atoms is less than 0.5, the bond is considered nonpolar, even though the only truly nonpolar molecules are those formed with identical atoms.

Examples of nonpolar molecules include:

  • any of the noble gasses: He, Ne, Ar, Kr, Xe (These are atoms, not technically molecules.)
  • any of the homonuclear diatomic elements: H2, N2, O2, Cl2 (These are truly nonpolar molecules.)
  • carbon dioxide - CO2
  • benzene - C6H6
  • carbon tetrachloride - CCl4
  • methane - CH4
  • ethylene - C2H4
  • hydrocarbon liquids, such as gasoline and toluene
  • most organic molecules

Polarity and Mixing Solutions

If you know the polarity of molecules, you can predict whether or not they will mix together to form chemical solutions. The general rule is that "like dissolves like", which means polar molecules will dissolve into other polar liquids and nonpolar molecules will dissolve into nonpolar liquids. This is why oil and water don't mix: oil is nonpolar while water is polar.

It's helpful to know which compounds are intermediate between polar and nonpolar because you can use them as an intermediate to dissolve a chemical into one it wouldn't mix with otherwise. For example, if you want to mix an ionic compound or polar compound in an organic solvent, you may be able to dissolve it in ethanol (polar, but not by a lot). Then, you can dissolve the ethanol solution into an organic solvent, such as xylene.