Chemistry, Third edition

78 5 · MORE ABOUT BONDING

Example 5.7

Hydrogen bonds also exist between water molecules in liquid water and in ice.

Because each oxygen atom in the water molecule has two lone pairs of electrons,

it can attract two hydrogen atoms from other water molecules (Fig. 5.16).

Comment

Hydrogen bonding has a pronounced effect on the properties of water:

1.Water has a much higher melting or boiling point than compounds of similar

formula containing hydrogen. For example H 2 S, H 2 Se and H 2 Te have the same

general formulae but are all gases at room temperature. Water, of course, is a

liquid at room temperature because more energy is needed to separate H 2 O

molecules. Water molecules have much stronger attractive forces between them,

due to hydrogen bonding, than do H 2 S, H 2 Se and H 2 Te molecules.

2.Water has a high surface tension. The surface of water forms a kind of ‘skin’

on which insects can walk, or a needle can float. The high surface tension of

water is due to hydrogen bonding – the intermolecular forces within the water pull

surface molecules inwards.

3.A remarkable consequence of hydrogen bonding is the low density of ice. A

substance is generally more dense in the solid state than the liquid state, but ice

isless densethan water at 0°C (ice floats on water). The tetrahedral arrangement

of water molecules in ice creates a very open structure (Fig. 5.17). When ice

melts this structure breaks up and the water molecules approach each other

more closely, so that the liquid has a higher density.

Hδ

+

Hδ

+

Hδ

+

Hδ

+

Oδ

Fig. 5.16Hydrogen bonding

in water. Note that the O···H

bonds are longer and weaker

than the O–H bonds.

Icebergs float on water. The open arrangement of water

molecules in ice partially collapses when the substance

melts, so that the liquid has a higher density up to about

4°C.

Fig. 5.17Arrangement of water molecules in ice (dotted

lines show hydrogen bonds).