If the temperature of a semiconductor is increased, then the forbidden gap will

If the temperature of semiconductor will increase then the forbiddengap will

Assertion: If the temperature of a semiconductor is increased then its resistance decreases. Reason: The energy gap between conduction band and valence band is very small

Statement-1 : When the temperature of a semiconductor is increased, then its resistance decreases. Statement-2 : The energy gap between conduction band and valence band is very small for semiconductor.

If the temperature of semiconductor is increased the number of electrons in the valence band will

Increase in temperature of a semiconductor , will be

A semiconducting material has a band gap if 1 eV.Acceptor impurities are doped into it which create acceptor level 1meV above the valence band.Assume that the transition form one energy level to the otheris almost forbidden if kT is less than 1//50 of the energy gap.Also,if kT is more than twice the gap, the upper levels have maximum polution.The temperature of the semiconductor is increaased form 0K.The concentration of the holes increase with temperature and after a certain temperature it becomes approximately constant.As the tamperature is further increased the hole concentration again starts increasing at certain temperature, Find the order of the temperature range in which the hoel concentration remains approximately constant.

Assertion (A): As the temperature of a semiconductor increases, its resistance decreases. Reason (R ): The energy gap between conduction band and valence band is small.

In a pure conductor, the value of the forbidden energy gap is

Forbidden energy gap in a semiconductor is