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Electrical Engineering (EE) Exam  >  Electrical Engineering (EE) Tests  >  Test: Electrons & Holes in Semiconductor - Electrical Engineering (EE) MCQ

Test: Electrons & Holes in Semiconductor - Electrical Engineering (EE) MCQ


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10 Questions MCQ Test - Test: Electrons & Holes in Semiconductor

Test: Electrons & Holes in Semiconductor for Electrical Engineering (EE) 2024 is part of Electrical Engineering (EE) preparation. The Test: Electrons & Holes in Semiconductor questions and answers have been prepared according to the Electrical Engineering (EE) exam syllabus.The Test: Electrons & Holes in Semiconductor MCQs are made for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Electrons & Holes in Semiconductor below.
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Test: Electrons & Holes in Semiconductor - Question 1
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Which of the following expressions represents the correct distribution of the electrons in the conduction band? (gc(E)=density of quantum states, fF(E)=Fermi dirac probability

Detailed Solution for Test: Electrons & Holes in Semiconductor - Question 1

The distribution of the electrons in the conduction band is given by the product of the density into Fermi-dirac distribution.

Test: Electrons & Holes in Semiconductor - Question 2
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What is the value of the effective density of states function in the conduction band at 300k?

Detailed Solution for Test: Electrons & Holes in Semiconductor - Question 2


Substituting the values of mn=m0 ,h=6.626*10-34J/s ,k=1.38*10-23 and T=300K, we get
Nc=2.5*1019 cm-3.

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Test: Electrons & Holes in Semiconductor - Question 3
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In a semiconductor which of the following carries can contribute to the current?

Detailed Solution for Test: Electrons & Holes in Semiconductor - Question 3

In a semiconductor, two types of charges are there by which the flow of the current takes place. So, both the holes and electrons take part in the flow of the current.

Test: Electrons & Holes in Semiconductor - Question 4
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Which of the following expressions represent the Fermi probability function?
Detailed Solution for Test: Electrons & Holes in Semiconductor - Question 4

It is the correct formula for the Fermi probability function.

Test: Electrons & Holes in Semiconductor - Question 5
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Electrons from valence band rises to conduction band when the temperature is greater than 0 k. Is it True or False?
Detailed Solution for Test: Electrons & Holes in Semiconductor - Question 5

 As the temperature rises above 0 k, the electrons gain energy and rises to the conduction band from the valence band.

Test: Electrons & Holes in Semiconductor - Question 6
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What is the intrinsic electrons concentration at T=300K in Silicon?
Detailed Solution for Test: Electrons & Holes in Semiconductor - Question 6

 Using the formula,

We get, ni=1.5*1010cm-3.

Test: Electrons & Holes in Semiconductor - Question 7
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The intrinsic Fermi level of a semiconductor depends on which of the following things?
Detailed Solution for Test: Electrons & Holes in Semiconductor - Question 7


From the above formula, Efidepends on all of the options given.

Test: Electrons & Holes in Semiconductor - Question 8
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 What is the difference between the practical value and theoretical value of ni?
Detailed Solution for Test: Electrons & Holes in Semiconductor - Question 8

This is practically proved.

Test: Electrons & Holes in Semiconductor - Question 9
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The thermal equilibrium concentration of the electrons in the conduction band and the holes in the valence band depends upon?
Detailed Solution for Test: Electrons & Holes in Semiconductor - Question 9

The electrons and holes depends upon the effective density of the states and the Fermi energy level given by the formula,

Test: Electrons & Holes in Semiconductor - Question 10
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In which of the following semiconductor, the concentration of the holes and electrons is equal?
Detailed Solution for Test: Electrons & Holes in Semiconductor - Question 10

 In the intrinsic semiconductor, ni=pi that is the number of the electrons is equal to the number of the holes. Whereas in the extrinsic conductor ni is not equal to pi.

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