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Properties of ionic compounds

have regular structures, called giant . In a giant ionic lattice, there are strong electrostatic forces of attraction acting in all directions between the oppositely charged ions. The structure and bonding of ionic compounds explain their .

Learn more on the properties of ionic compounds in this podcast.

High melting points and boiling points

See the study guide on the three states of matter to see how bonding and structure are related to the properties of substances.

Energy must be transferred to a substance to make it melt or boil. This energy overcomes the strong electrostatic forces of attraction which act in all directions between the oppositely charged ions:

  • some forces are overcome during melting
  • all remaining forces are overcome during boiling

The more energy needed, the higher the or . Since the electrostatic forces of attraction between oppositely charged ions are strong, their melting and boiling points are high.

Explanation

Ionic compounds are held together by between the oppositely charged . These forces are usually referred to as . As the contains such a large number of ions, a lot of energy is needed to overcome this ionic bonding so ionic compounds have high melting and boiling points.

The strength of the ionic bonds depends on the charge on the ions. Ions with higher charge will have stronger forces between them, so will need more energy in order to overcome these forces.

CompoundMelting pointBoiling point
NaCl801掳颁1,413掳颁
MgO2,852掳颁3,600掳颁
CompoundNaCl
Melting point801掳颁
Boiling point1,413掳颁
CompoundMgO
Melting point2,852掳颁
Boiling point3,600掳颁

Ionic bonds between Mg2+ and O2- ions are stronger than those between Na+ and Cl- ions

Conducting electricity

A substance can electricity if:

  • it contains , such as ions, and
  • these particles are free to move from place to place

An ionic compound can conduct electricity when:

  • it has to form a liquid, or
  • it has dissolved in water to form an solution

Both these processes allow ions to move from place to place. Ionic compounds cannot conduct electricity in the solid state because their ions are held in fixed positions and cannot move.