8.10
COMPARISON OF SOLID TYPES
Table 8.4Covalent and van der Waals radii in Å ofselected nonmetalsHrcov0.32rvdw1.2
C N O F rcov0.77 0.75 0.73 0.72
rvdw1.70 1.5 1.40 1.35
Si P S Clrcov1.11 1.06 1.02 0.99
rvdw2.10 1.9 1.85 1.80
GeAsSeBrrcov1.22 1.20 1.17 1.14
rvdw2.02.001.95Table 8.5A summary of the key properties of the different types of solids.
Type Particles Forces Strength* Examples
MetallicAtomsMetallic bondsVariableNa, Cu, Ag, FeIonicIonsIonic bondsStrongNaCl, NHCl 4Network covalent AtomsCovalent bondsStrongC, ZnS, SiO2MolecularMoleculesIntermolecularWeak to moderateH^2O, sugar, SO(^2)
- The strength of interaction is indicative of the melting point of the solid and how hard it is because these forces must be overcome to melt the solid or to break it. Example 8.10
Which compound in each pair h
as the higher melting point?
a) MgO or NaF
Both contain a metal and a nonmetal and ar
e therefore ionic. The strength of the
interaction in ionic solids increases with the charge on the ions, so we predict that the interaction of the Mg
2+ ion with the O
2- should be much greater than that between Na
1+^
and F
1-. The melting points are 2800
oC for MgO and 988
oC for NaF.
b) NaCl or Cl
(^2)
NaCl is ionic, but Cl
is molecular. Ionic substances 2
usually have higher melting points
than molecular substances, so NaCl is expected to have the higher melting point. Indeed, NaCl is a solid at room conditions, while Cl
is a gas. 2
c) SiO
or SO 2
(^2)
Neither contains a metal, so it might appear t
hat they are both molecular solids, however,
SiO
(quartz) is a covalent solid with no identifiable SiO 2
molecules. Consequently, 2
covalent bonds must be broken to melt SiO
. SO 2
, on the other hand, is molecular and 2only relatively weak intermolecular forces must be broken to melt it. SiOmelts at 1700 2oC, while SOmelts at -73 2oC.Chapter 8 Solid Materials© byNorthCarolinaStateUniversity