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Description and strength
These are fundamentally electrostatic interactions (ionic interactions, hydrogen bond, dipole-dipole interactions) or electrodynamic interactions (van der Waals/London forces). Electrostatic interactions are classically described by Coulomb's law, the basic difference between them are the strength of their charge. Ionic interactions are the strongest with integer level charges, hydrogen bonds have partial charges that are about an order of magnitude weaker, and dipole-dipole interactions also come from partial charges another order of magnitude weaker.
|Bond type||Relative strength|
These are interactions that occur between charged species (ions). Like charges repel, while opposite charges attract. These bonds form when the electronegativities between two atoms is large enough that one steals an electron from the other. The now oppositely charged ions are attracted.
Hydrogen bonding occurs when a hydrogen atom is covalently bound to a small highly electronegative atom such as nitrogen, oxygen, or fluorine. The result is a dipolar molecule. The hydrogen atom has a partial positive charge and can interact with another highly electronegative atom in an adjacent molecule (again N, O, or F). This results in a stabilizing interaction that binds the two molecules together. An important example is water:
Hydrogen bonds are found throughout nature. They give water its unique properties so important to life on earth. Hydrogen bonds between hydrogen atoms and nitrogen atoms of adjacent base pairs provide the intermolecular force that bind together the two strands in a molecule of DNA.
Dipole-dipole interactions, also called Keesom interactions after Willem Hendrik Keesom who produced the first mathematical description in 1921, are the forces that occur between two molecules with permanent dipoles. These work in a similar manner to ionic interactions, but are weaker because only partial charges are involved. An example of this can be seen in hydrochloric acid:
(+)(-) (+) (-)
London Dispersion Forces
Also called London forces, instantaneous dipole effects or Van der Waals forces, these involve the attraction between temporarily induced dipoles in nonpolar molecules. This polarization can be induced either by a polar molecule or by the repulsion of negatively charged electron clouds in nonpolar molecules. An example of the former is chlorine dissolving in water:
(+)(-)(+) (-) (+) [Permanent Dipole] H-O-H-----Cl-Cl [Induced Dipole]
An example of the second scenario is found in molecular chlorine:
(+) (-) (+) (-) [Induced Dipole]Cl-Cl------Cl-Cl [Induced Dipole]
London Dispersion forces exist between all atoms.
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