I need the answer as soon as possible Just need number 109. Carrier Distribution at Equilibrium, Part 3The equilibrium electron concentration is given by the product of density of states and probability function, n(E) =ge(E)F(E) whereg.(E) and F(E) are the conduction band density of states and Fermi-Dirac probability function,respectivelyUsing the full expression of Fermi-Dirac function, calculate the energy relative to the conduction band edge, E - E, atwhich the electron concentration becomes maximum. This semiconductor has a bandgap of 1.124 ev and thetemperature is 300 K. Further assume that the Fermi level, EF is located precisely at the middle of the bandgap, i.e.Ec - EF = . Answers within 5% error will be considered correct..01295Correct10. Carrier Distribution at Equilibrium, Part 4Repeat the above problem for the case when, Ec - EF = 0.Answers within 5% error will be considered correct.No answerX IncorrectThe answer you gave is not a number.

Now this is an easy as well as clever question. Now if you had derived the expression for the…

10. Carrier Distribution at Equilibrium, Part 4 Repeat the above problem for the case when, Ec - EF = 0. Answers within 5% error will be considered correct. No answer X Incorrect The answer you gave is not a number.

10. Carrier Distribution at Equilibrium, Part 4 Repeat the above problem for the case when, Ec - EF = 0. Answers within 5% error will be considered correct. No answer X Incorrect The answer you gave is not a number.

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Question

I need the answer as soon as possible

Just need number 10
9. Carrier Distribution at Equilibrium, Part 3
The equilibrium electron concentration is given by the product of density of states and probability function, n(E) =
ge(E)F(E) whereg.(E) and F(E) are the conduction band density of states and Fermi-Dirac probability function,
respectively
Using the full expression of Fermi-Dirac function, calculate the energy relative to the conduction band edge, E - E, at
which the electron concentration becomes maximum. This semiconductor has a bandgap of 1.124 ev and the
temperature is 300 K. Further assume that the Fermi level, EF is located precisely at the middle of the bandgap, i.e.
Ec - EF = . Answers within 5% error will be considered correct.
.01295
Correct
10. Carrier Distribution at Equilibrium, Part 4
Repeat the above problem for the case when, Ec - EF = 0.
Answers within 5% error will be considered correct.
No answer
X Incorrect
The answer you gave is not a number.

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