Resistance is fundamentally the ability of the material to restrict the passage of electric current. Thus, just as material properties such as density, size, magnetisation etc. Change with temperature, so does resistance. Resistance is really a bulk property; the resistivity, on the other hand, is a material property. We shall talk about the temperature dependence of resistivity in this article.
Resistivity of Metals
The resistivity (ρ) of metals is dependent on the relaxation time (τ) of the free electrons in the metal as
ρ ∝
(See our article on drift velocity)
The relaxation time is dependent on the mean free path (λ) and the root-mean-square speed
τ =
ρ ∝
Since the root-mean-square speed increases with temperature and mean free path, the resistivity and hence the resistance of the metal also rises.
This is mostly linear and is given as:
Where,
Graph of Resistivity Vs Temperature of metals
Resistivity of Semiconductors
The number of charge carriers in semiconductors is lesser than that of insulators. Semiconductors like Silicon and Germanium contains lesser charges than those of metals but has more charges than in insulators. These carriers are generated by the thermal breaking of bonds. Thus, as the temperature rises, more number of covalent bonds break, releasing more electrons which lowers the resistivity rapidly. This temperature dependence is usually exponential which makes semiconductors very useful in electronic circuits detecting small changes in temperature.
Graph of Resistivity Vs Temperature of Semiconductors
Learn to apply your conceptual knowledge to real-world applications with us at BYJU’S!
Comments