Chemistry (Chang), 9th Edition

Chapter 20: Metallurgy and the Chemistry of Metals

Chapter Summary

1. Depending on their reactivities, metals exist in nature in either the free or combined state.

2. Recovering a metal from its ore is a three-stage process. First, the ore must be prepared. The metal is then separated, usually by a reduction process, and finally, it is purified.

3. The methods commonly used for purifying metals are distillation, electrolysis, and zone refining.

4. Metallic bonds can be thought of as the force between positive ions immersed in a sea of electrons. In terms of band theory, the atomic orbitals merge to form energy bands. A substance is a conductor when electrons can be readily promoted to the conduction band, where they are free to move through the substance.

5. In insulators, the energy gap between the valence band and the conduction band is so large that electrons cannot be promoted into the conduction band. In semiconductors, electrons can cross the energy gap at higher temperatures, and therefore conductivity increases with increasing temperature as more electrons are able to reach the conduction band.

6. n-Type semiconductors contain donor impurities and extra electrons. p-Type semiconductors contain acceptor impurities and “positive holes.”

7. The alkali metals are the most reactive of all the metallic elements. They have an oxidation number of + 1 in their compounds. Under special conditions, some of them also form uninegative ions.

8. The alkaline earth metals are somewhat less reactive than the alkali metals. They almost always have an oxidation number of + 2 in their compounds. The properties of the alkaline earth elements become increasingly metallic from top to bottom in their periodic group.

9. Aluminum does not react with water due to the formation of a protective oxide; its hydroxide is amphoteric.