5 Steps to a 5 AP Chemistry

 147

Bonding

IN THIS CHAPTER

Summary:The difference between elements and compounds was discussed

in the Basics chapter, and chemical reactions were discussed in the Reaction

and Periodicity chapter. But what are the forces holding together a com-

pound? What is the difference in bonding between table salt and sugar?

What do these compounds look like in three-dimensional space?

Compounds have a certain fixed proportion of elements. The periodic

table often can be used to predict the type of bonding that might exist

between elements. The following general guidelines apply:

metals+nonmetals→ionic bonds

nonmetal+nonmetal→covalent bonds

metal+metal→metallic bonding

We will discuss the first two types of bonding, ionic and covalent, in some

depth. Metallic bonding is a topic that is very rarely encountered on the AP

exam. Suffice it to say that metallic bonding is a bonding situation between

metals in which the valence electrons are donated to a vast electron pool

(sometimes called a “sea of electrons”), so that the valence electrons are free

to move throughout the entire metallic solid.

The basic concept that drives bonding is related to the stability of the noble

gas family (the group VIIIA or group 18 elements). Their extreme stability (lower

energy state) is due to the fact that they have a filled valence shell, a full com-

plement of eight valence electrons. (Helium is an exception, Its valence shell,

the 1s, is filled with two electrons.) This is called the octet rule. During chemical

reactions, atoms lose, gain, or share electrons in order to achieve a filled

valence shell, to complete their octet. By completing their valence shell in this

fashion they become isoelectronic, having the same number and arrangement

CHAPTER

11

KEY IDEA