Question

If the effective mass of holes is greater than the effective mass of electrons in semiconductor material, Question 3 options: the intrinsic Fermi energy is slightly above the center of the bandgap. the bandgap is wider than it would be if the situation were reversed. there is no effect on the intrinsic Fermi energy level. the intrinsic Fermi energy is slightly below the center of the bandgap.

Answer 1

When the effective mass of holes is greater than the effective mass of electrons in semiconductor material, the intrinsic Fermi energy is slightly below the center of the bandgap.

Step-by-step explanation:

When the effective mass of holes is greater than the effective mass of electrons in semiconductor material, the intrinsic Fermi energy is slightly below the center of the bandgap.

Answer 2

The intrinsic Fermi energy is slightly below the center of the bandgap ( option A )

Step-by-step explanation:

Given that the effective mass of holes is > than the effective mass of electrons in a semiconductor the Intrinsic Fermi energy is slightly below the center of the bandgap.

Intrinsic Fermi energy is experienced/present in the occupation of energy levels in the valence or conduction bands of an intrinsic conductor