72 5 · MORE ABOUT BONDING
Metallic bonding
As we have seen, metals have very distinctive properties. Any successful model of the
bonding in metals must account for these properties. Metals have a crystallinestruc-
ture – a crystal can be regarded as a rigid substance in which particles are arranged in a
repeating pattern. We can regard a metallic crystal as consisting of a lattice of positive
ions, surrounded by a cloud of electrons which are free to move. The electrostatic
attraction between the positive ions and the negatively charged cloud of electron
density ‘glues’ the whole structure together. Each atom of the metal has given up its
outer (i.e. valence) electrons to become a positive ion. These valence electrons form
part of the electron cloud and, because they are free to move, they no longer ‘belong’ to
the particular atom from which they have been released. This is illustrated in Fig. 5.6.
The model explains the properties of metals:1.Metals are shiny because the free electrons absorb light that falls on
the metal and then re-emit the light back. Most of the light that falls
on the metal is re-emitted, so the metal appears shiny. This is why
metals are used in mirrors. Most metals are a silvery colour – the
red/gold colours of copper and gold occur because they absorb some
wavelengths of visible light more than others.2.The free electrons in the structure allow metals to conduct electricity
5.5
Polar and non-polar molecules
- Which of the following molecules have an
overall dipole moment?
(i) CS 2 (ii)NH 3 (iii)SiCl 4
(iv)H 2 S (v)CHCl 3. - An electron density map for hydrogen fluoride,
HF, is shown below in Fig. 5.4.
(i)iDoes the molecule have a dipole?
(ii)In which direction is the dipole?
Exercise 5G
Fig. 5.4Electron density map for
hydrogen fluoride. (Note that the
electron density increases going from
the outer to the inner contours.)BOX 5.2
Demonstrating the polarity of
molecules
You can easily demonstrate that water
molecules are polar by rubbing a plastic ruler
with a dry duster, then bringing it close to a
narrow stream of water flowing from a burette
(do not allow the ruler to touch the water!).
The stream of water will bend because the
polar water molecules are attracted to the
charged rod. Do the same experiment with
hexane, instead of water. Hexane molecules
are non-polar and the stream of hexane
should not be deflected (Fig. 5.5).Fig. 5.5Demonstration of the polarity of
hexane and water molecules.Fig. 5.6Metallic bonding.