H
0.037
Si
0.117C
0.078P
0.110N
0.070s
0.1040
0.066Cl
0.099STRUCTURE AND BONDING 49F
0.064Deductions of bond lengths for any unknown can be made by adding
bond radii, but these theoretical values often differ from the experi-
mental values; the greatest deviations occur when elements of widely
different electronegativities are joined together.ELECTRONEGATIVITY
If two like atoms form a covalent bond by sharing an electron pair,
for examplexF*XX XX Fxit is clear that the pair will be shared equally. For any two unlike
atoms, the sharing is always unequal and depending on the nature
of the two atoms (A and B say) we can have two extreme possibilitiesor A :B i.e. A+ B"
A + B->A : B ^
equal
sharing Xor A; g ie A- B +and an ionic bond is formed. There are many compounds which lie
between truly covalent (equal sharing) and truly ionic. The bond
between two atoms A and B is likely to be ionic rather than covalent
(with A forming a positive ion and B a negative ion) if:- A and B have small charges
- A is large
- B is small
Tables 2.1, 2.2, 2.3 and 2.4 give data for atomic radii, ionisation
energies and electron affinities which allow these rough rules to be
justified.
Pauling and others have attempted to define an 'electronegativity
scale' by which the inequality of sharing might be assessed. Some of
Pauling's electronegativity values are shown in Table 2.11. The
greater the differences in the electronegativities of the two elements
joined by a covalent bond, the less equally the electrons are