Chapter 12 - Problems - Page 513: 12.102

See explanation below.

1 Concept : Like metal atoms, large numbers of nonmetal and metalloid atoms can form bands of Molecular Orbitals. Band theory explains differences in electrical conductivity and the effect of temperature among these three classes of substances in terms of the presence of an energy gap between their valence and conduction bands. Following are the three types of elements on this basis : Conductors : The valence and conduction bands of a conductor have no energy gap between them, so electrons flow when a tiny electrical potential difference is applied. When the temperature is raised, greater random motion of the atoms hinders electron movement: conductivity decreases when a metal is heated. Semiconductors : In a semiconductor, a small energy gap exists between the valence and conduction bands. Thermally excited electrons can cross the gap, allowing a small current to flow: in contrast to a conductor, conductivity increases when a semiconductor is heated. Insulators : In an insulator, a large energy gap exists between the bands: no current is observed even when the substance is heated. 2 (a) Antimony : Antimony is a Metalloid, and hence can be classified as a semiconductor. The conductivity of semiconductors increases on heating, as discussed above. Hence, when Antimony is heated, it's conductivity will increase. Ans :Conductivity Increases 3 (b) Tellurium : Tellurium is a Metalloid, and hence can be classified as a semiconductor. The conductivity of semiconductors increases on heating, as discussed above. Hence, when Tellurium is heated, it's conductivity will increase. Ans : Conductivity Increases 4 (c) Bismuth : Bismuth is a metal, and hence is classified as a conductor. When the temperature is raised, greater random motion of the atoms hinders electron movement in metals, and thus, conductivity decreases when a metal is heated. Ans : Conductivity Decreases