IONIC AND COVALENT COMPOUNDS – TWO EXTREMESwhere ‘——’ represents a covalent bond, where one electron has been donated from
each atom, and ‘—’ represents a coordinate covalent bond, where both electrons
arise from one atom (in this case the nitrogen). In this way, all the atoms in the
molecule end up with the electronic configuration of an inert gas. There is no differ-
ence in an ‘ordinary covalent bond’ and a coordinate bond once they are formed (the
electrons no longer ‘belong’ to a particular atom taking part in the covalent bond) and the
above structure is often represented asHF
||
H—N—B—F
||
HF57Coordinate bonding
(i) Draw a Lewis structure for carbon monoxide (CO), bearing mind it contains a multiple bond
and a coordinate bond. Draw the structural formula of the molecule.
(ii)Draw a Lewis structure for the hydrated hydrogen ion, or hydronium ion H 3 O+.
(iii)Draw a Lewis structure for the ammonium ion, NH 4 +.Exercise 4G
Ionic and covalent compounds – two
extremes
Although sodium chloride is regarded by chemists as an ionic compound and the
hydrogen molecule considered to be ‘completely covalent’, the vast majority of
chemical compounds fall between these two extremes. Water, for example, is
regarded as a covalent substance, and its molecules are neutral overall, but the
molecules do have a slight positive charge at one end and an equal negative charge at
the other end, i.e. there is a slight degree of ionic character. By the same token some
compounds which are generally regarded as ionic, such as calcium iodide (CaI 2 ),
have some covalent character.
Polar covalent molecules
The electrons in a bond between two identical atoms, such as that present in H 2 , can be
considered to be equally shared between both of them. If the atoms are not identical,
however, the electrons may be more attracted to one atom than the other. For example
in hydrogen fluoride, HF, the Lewis structure might be more accurately written as
Fluorine attracts electrons in a covalent bond much more than hydrogen – it has a
highelectronegativity. Because the shared electrons are more associated with the
fluorine atom rather than the hydrogen atom, the structural formula of the molecule
is sometimes written as
H—F4.5