The attraction and repulsion forces that exist between atoms are what determine the bonding of molecules. These forces hold the atoms together. Intermolecular force is the combination of repelling and attractive forces between molecules that results from polarity. There are four types intermolecular forces.

Hydrogen bonding

London dispersion force

Ion u2013 dipole power

Dipole u2013 dipole force

Ionic u2013 bond

All molecules have dispersion force, but not all molecules have the same electronegativity or intermolecular forces. There is a significant difference in electronegativity between molecules that have dipoleu2013dipole interactions.

Hydrogen bond: Hydrogen bonds to strong electronegative atoms.

Dipole u2013 Dipole: This force occurs between two polar compounds.

London dispersion force (weak force): This force is present within all compounds.

Noncovalent interactions are intermolecular interactions between molecules that do not involve covalent bonding.

Below are the types of intermolecular force:

uf0a7 The Vander Waals forces These weak forces of attraction exist within the molecule.

uf0a7 Electrostatic interactions: A molecule with a permanent dipole interacts using dipole-dipole interaction with other polar molecules.

uf0a7 Intermolecular hydrogen bonding: When the hydrogen atom is attached directly to the electronegative, it exhibits intermolecular hydrogen bonding.

uf0a7 Intermolecular force of attraction: Compounds that have electrostatic attraction between opposingly charged ions because of the ion/ion interactions. These strong intermolecular forces of attraction are very strong.

uf0a7 ion-dipole interaction: These interactions between the ions of solvent and dipole of the solvent are called ion-dipole relations.

Below is the relative strength of intermolecular forces