A P-type semiconductor can be obtained by adding
(1) Arsenic to pure silicon
(2) Gallium to pure silicon
(3) Antimony to pure germanium
(4) Phosphorous to pure germanium
The valence of an impurity added to germanium crystal in order to convert it into a P-type semiconductor is
(1) 6
(2) 5
(3) 4
(4) 3
The valency of the impurity atom that is to be added to germanium crystal so as to make it an N-type semiconductor, is
1. 6
2. 5
3. 4
4. 3
Silicon is a semiconductor. If a small amount of As is added to it, then its electrical conductivity
(1) Decreases
(2) Increases
(3) Remains unchanged
(4) Becomes zero
A piece of copper and the other of germanium are cooled from the room temperature to 80 K, then which of the following would be a correct statement
(1) Resistance of each increases
(2) Resistance of each decreases
(3) Resistance of copper increases while that of germanium decreases
(4) Resistance of copper decreases while that of germanium increases
To obtain a P-type Si semiconductor, we need to dope pure Si with
(1) Aluminium
(2) Phosphorous
(3) Oxygen
(4) Germanium
The electrical conductivity of a semiconductor
(1) Decreases with the rise in its temperature
(2) Increases with the rise in its temperature
(3) Does not change with the rise in its temperature
(4) First increases and then decreases with the rise in its temperature
When a semiconductor is heated, its resistance
(1) Decreases
(2) Increases
(3) Remains unchanged
(4) Nothing is definite
In an insulator, the forbidden energy gap between the valence band and conduction band is of the order of
(1) 1 MeV
(2) 0.1 MeV
(3) 1 eV
(4) 15 eV