Question 1

Which one of the following statements concerning electron energy bands in solids is true?&#10;A) the bands occur as a direct consequence of the Fermi-Dirac distribution function&#10;B) electrical conduction arises from the motion of electrons in completely filled bands&#10;C) within a given band, all electron energy levels are equal to each other&#10;D) an insulator has a large energy separation between the highest filled band and the lowest empty band&#10;E) only insulators have energy bands

Accepted Answer

an insulator has a large energy separation between the highest filled band and the lowest empty band

Question 2

At T = 0 K the probability that a state 0.50 eV below the Fermi level is occupied is: A) 0 B) 5.0 *10^-⁹ C) 5.0* 10^-⁶ D) 5.0 * 10^-³ E) 1

Accepted Answer

1&#10;

Question 3

Ther Fermi energy of a metal depends primarily on:&#10;A) the temperature&#10;B) the volume of the sample&#10;C) the mass density of the metal&#10;D) the size of the sample&#10;E) the number density of conduction electrons

Accepted Answer

the number density of conduction electrons

Question 4

At T = 0 K the probability that a state 0.50 eV above the Fermi level is occupied is: A) 0 B) 5.0*10^-⁹ C) 5.0 * 10^-⁶ D) 5.0 * 10^-³ E) 1

Accepted Answer

The answer of At T = 0 K the probability...

Question 5

If E₀ and E_T are the average energies of the "free" electrons in a metal at 0 K and room temperature respectively, then the ratio E_T/E₀ is approximately: A) 0 B) 1 C) 100 D) 10⁶ E) infinity

Accepted Answer

The answer of If E₀ and E_T are the average...

Question 6

The density of states for a metal depends primarily on:&#10;A) the temperature&#10;B) the energy associated with the state&#10;C) the density of the metal&#10;D) the volume of the sample&#10;E) none of these

Accepted Answer

The answer of The density of states for a metal...

Question 7

For a metal at absolute temperature T, with Fermi energy E_F, the occupancy probability is given by: A) B) C) D) E)

Accepted Answer

The answer of For a metal at absolute temperature T,...

Question 8

In a pure metal the collisions that are characterized by the mean free time  $ \tau $ in the expression for the resistivity are chiefly between:&#10;A) electrons and other electrons&#10;B) electrons with energy about equal to the Fermi energy and atoms&#10;C) all electrons and atoms&#10;D) electrons with energy much less than the Fermi energy and atoms&#10;E) atoms and other atoms

Accepted Answer

The answer of In a pure metal the collisions that...

Question 9

A certain material has a resistivity of 7.8* 10³ $\Omega$.m at room temperature and it increases as the temperature is raised by 100$\degree$C. The material is most likely: A) a metal B) a pure semiconductor C) a heavily doped semiconductor D) an insulator E) none of the above

Accepted Answer

The answer of A certain material has a resistivity of...

Question 10

A certain material has a resistivity of 7.8 *10^-⁸ $\Omega$ .m at room temperature and it increases as the temperature is raised by 100$\degree$C. The material is most likely: A) a metal B) a pure semiconductor C) a heavily doped semiconductor D) an insulator E) none of the above

Accepted Answer

The answer of A certain material has a resistivity of...

Question 11

A certain metal has 5.3 *10²⁹ conduction electrons/m³ and an electrical resistivity of 1.9* 10^-⁹$\Omega$ m.The average time between collisions of electrons with atoms in the metal is: A) 5.6 * 10^-³³ s B) 1.3*10^-³¹ s C) 9.9 * 10^-²² s D) 4.6 * 10^-¹⁵ s E) 3.5*10^-¹⁴ s

Accepted Answer

The answer of A certain metal has 5.3 *10²⁹ conduction...

Question 12

The Fermi-Dirac probability function P(E) varies between: A) 0 and 1 B) 0 and infinity C) 1 and infinity D) -1 and 1 E) 0 and E_F

Accepted Answer

The answer of The Fermi-Dirac probability function P(E) varies between:&#10;A)...

Question 13

Electrons in a full band do not contribute to the current when an electric field exists in a solid because:&#10;A) the field cannot exert a force on them&#10;B) the individual contributions cancel each other&#10;C) they are not moving&#10;D) they make transitions to other bands&#10;E) they leave the solid

Accepted Answer

The answer of Electrons in a full band do not...

Question 14

A certain material has a resistivity of 7.8 *10³ $\Omega$. m at room temperature and it decreases as the temperature is raised by 100$\degree$C. The material is most likely: A) a metal B) a pure semiconductor C) a heavily doped semiconductor D) an insulator E) none of the above

Accepted Answer

The answer of A certain material has a resistivity of...

Question 15

In a metal at 0 K, the Fermi energy is:&#10;A) the highest energy of any electron&#10;B) the lowest energy of any electron&#10;C) the mean thermal energy of the electrons&#10;D) the energy of the top of the valence band&#10;E) the energy at the bottom of the conduction band

Accepted Answer

The answer of In a metal at 0 K, the...

Question 16

The speed of an electron with energy equal to the Fermi energy for copper is on ther order of: A) 10⁶m/s B) 10^-⁶m/s C) 10 m/s D) 10^-¹m/s E) 109 m/s

Accepted Answer

The answer of The speed of an electron with energy...

Question 17

The occupancy probability for a state with energy equal to the Fermi energy is:&#10;A) 0&#10;B) 0.5&#10;C) 1&#10;D) 1.5&#10;E) 2

Accepted Answer

The answer of The occupancy probability for a state with...

Question 18

The number density n of conductions electrons, the resistivity $\rho$, and the temperature coefficient of resistivity $\infty$ are given below for five materials. Which is a semiconductor? A) n = 10²⁹ m^-³, $\rho$ = 10^-⁸ $\Omega$ . m, $\infty$ = +10^-³ K^-¹ B) n = 10²⁸ m^-³, $\rho$= 10^-⁹ $\Omega$ . m, $\infty$ = -10^-³ K^-¹ C) n = 10²⁸ m^-³, $\rho$= 10^-⁹ $\Omega$ . m, $\infty$ = +10^-³ K^-¹ D) n = 10¹⁵ m^-³, $\rho$ = 10³ $\Omega$ . m,$\infty$ = -10^-² K^-¹ E) n = 10²² m^-³, $\rho$= 10^-⁷ $\Omega$ . m, $\infty$= +10^-³ K^-¹

Accepted Answer

The answer of The number density n of conductions electrons,...

Question 19

Possible units for the density of states function N(E) are: A) J/m³ B) 1/J C) m^-³ D) J^-¹.m^-³ E) kg/m³

Accepted Answer

The answer of Possible units for the density of states...

Question 20

The energy gap (in eV) between the valence and conduction bands of an insulator is of the order: A) 10^-¹⁹ B) 0.001 C) 0.1 D) 10 E) 1000

Accepted Answer

The answer of The energy gap (in eV) between the...

Question 21

The energy level diagram shown applies to:  &#10;A) a conductor&#10;B) an insulator&#10;C) a semiconductor&#10;D) an isolated molecule&#10;E) an isolated atom

Accepted Answer

The answer of The energy level diagram shown applies to:...

Question 22

An acceptor replacement atom in silicon might have ______ electrons in its outer shell.&#10;A) 3&#10;B) 4&#10;C) 5&#10;D) 6&#10;E) 7

Accepted Answer

The answer of An acceptor replacement atom in silicon might...

Question 23

A given doped semiconductor can be identified as p or n type by:&#10;A) measuring its electrical conductivity&#10;B) measuring its magnetic susceptibility&#10;C) measuring its coefficient of resistivity&#10;D) measuring its heat capacity&#10;E) performing a Hall effect experiment

Accepted Answer

The answer of A given doped semiconductor can be identified...

Question 24

Application of a forward bias to a p-n junction:&#10;A) narrows the depletion zone&#10;B) increases the electric field in the depletion zone&#10;C) increases the potential difference across the depletion zone&#10;D) increases the number of donors on the n side&#10;E) decreases the number of donors on the n side

Accepted Answer

The answer of Application of a forward bias to a...

Question 25

For a pure semiconductor at room temperature the temperature coefficient of resistivity is determined primarily by:&#10;A) the number of electrons in the conduction band&#10;B) the number of replacement atoms&#10;C) the binding energy of outer shell electrons&#10;D) collisions between conduction electrons and atoms&#10;E) none of the above

Accepted Answer

The answer of For a pure semiconductor at room temperature...

Question 26

Acceptor atoms introduced into a pure semiconductor at room temperature:&#10;A) increase the number of electrons in the conduction band&#10;B) increase the number of holes in the valence band&#10;C) lower the Fermi level&#10;D) increase the electrical resistivity&#10;E) none of the above

Accepted Answer

The answer of Acceptor atoms introduced into a pure semiconductor...

Question 27

Donor atoms introduced into a pure semiconductor at room temperature:&#10;A) increase the number of electrons in the conduction band&#10;B) increase the number of holes in the valence band&#10;C) lower the Fermi level&#10;D) increase the electrical resistivity&#10;E) none of the above

Accepted Answer

The answer of Donor atoms introduced into a pure semiconductor...

Question 28

In an unbiased p-n junction:&#10;A) the electric potential vanishes everywhere&#10;B) the electric field vanishes everywhere&#10;C) the drift current vanishes everywhere&#10;D) the diffusion current vanishes everywhere&#10;E) the diffusion and drift currents cancel each other

Accepted Answer

The answer of In an unbiased p-n junction:&#10;A) the electric...

Question 29

At room temperature kT is about 0.0259 eV. The probability that a state 0.50 eV above the Fermi level is occupied at room temperature is: A) 1 B) 0.05 C) 0.025 D) 5.0 * 10^-⁶ E) 4.1 *10^-⁹

Accepted Answer

The answer of At room temperature kT is about 0.0259...

Question 30

The contact electric field in the depletion region of a p-n junction is produced by:&#10;A) electrons in the conduction band alone&#10;B) holes in the valence band alone&#10;C) electrons and holes together&#10;D) charged replacement atoms&#10;E) an applied bias potential difference

Accepted Answer

The answer of The contact electric field in the depletion...

Question 31

For a pure semiconductor the Fermi level is:&#10;A) in the conduction band&#10;B) well above the conduction band&#10;C) in the valence band&#10;D) well below the valence band&#10;E) near the center of the gap between the valence and conduction bands

Accepted Answer

The answer of For a pure semiconductor the Fermi level...

Question 32

A hole refers to:&#10;A) a proton&#10;B) a positively charged electron&#10;C) an electron which has somehow lost its charge&#10;D) a microscopic defect in a solid&#10;E) the absence of an electron in an otherwise filled band

Accepted Answer

The answer of A hole refers to:&#10;A) a proton&#10;B) a...

Question 33

If the density of states is N(E) and the occupancy probability is P(E), then the density of unoccupied states is:&#10;A) N(E) + P(E)&#10;B) N(E)/P(E)&#10;C) N(E) - P(E)&#10;D) N(E)P(E)&#10;E) P(E)/N(E)

Accepted Answer

The answer of If the density of states is N(E)...

Question 34

At room temperature kT is about 0.0259 eV. The probability that a state 0.50 eV below the Fermi level is unoccupied at room temperature is: A) 1 B) 0.05 C) 0.025 D) 5.0 *10^-⁶ E) 4.1*10^-⁹

Accepted Answer

The answer of At room temperature kT is about 0.0259...

Question 35

For a metal at room temperature the temperature coefficient of resistivity is determined primarily by:&#10;A) the number of electrons in the conduction band&#10;B) the number of impurity atoms&#10;C) the binding energy of outer shell electrons&#10;D) collisions between conduction electrons and atoms&#10;E) none of the above

Accepted Answer

The answer of For a metal at room temperature the...

Question 36

The energy level diagram shown applies to:  &#10;A) a conductor&#10;B) an insulator&#10;C) a semiconductor&#10;D) an isolated atom&#10;E) a free electron gas

Accepted Answer

The answer of The energy level diagram shown applies to:...

Question 37

A pure semiconductor at room temperature has: A) more electrons/m³ in its conduction band than holes/m³ in its valence band B) more electrons/m³ in its conduction band than a typical metal C) more electrons/m³ in its valence band than at T = 0 K D) more holes/m³ in its valence band than electrons/m³ in its valence band E) none of the above

Accepted Answer

The answer of A pure semiconductor at room temperature has:&#10;A)...

Question 38

A donor replacement atom in silicon might have ______ electrons in its outer shell.&#10;A) 1&#10;B) 2&#10;C) 3&#10;D) 4&#10;E) 5

Accepted Answer

The answer of A donor replacement atom in silicon might...

Question 39

The energy level diagram shown applies to:  &#10;A) a conductor&#10;B) an insulator&#10;C) a semiconductor&#10;D) an isolated molecule&#10;E) an isolated atom

Accepted Answer

The answer of The energy level diagram shown applies to:...

Question 40

For an unbiased p-n junction, the energy at the bottom of the conduction band on the n side is:&#10;A) higher than the energy at the bottom of the conduction band on the p side&#10;B) lower than the energy at bottom of the conduction band on the p side&#10;C) lower than energy at the top of the valence band on the n side&#10;D) lower than energy at the top of the valence band on the p side&#10;E) the same as the energy at the bottom of the conduction band on the p side

Accepted Answer

The answer of For an unbiased p-n junction, the energy...

Question 41

A light emitting diode emits light when:&#10;A) electrons are excited from the valence to the conduction band&#10;B) electrons from the conduction band recombine with holes from the valence band&#10;C) electrons collide with atoms&#10;D) electrons are accelerated by the electric field in the depletion region&#10;E) the junction gets hot

Accepted Answer

The answer of A light emitting diode emits light when:&#10;A)...

Question 42

Which of the following is NOT true when a back bias is applied to a p-n junction?&#10;A) Electrons flow from the p to the n side&#10;B) Holes flow from the p to the n side&#10;C) The electric field in the depletion zone increases&#10;D) The potential difference across the depletion zone increases&#10;E) The depletion zone narrows

Accepted Answer

The answer of Which of the following is NOT true...

Question 43

The gap between the valence and conduction bands of a certain semiconductor is 0.85eV. When this semiconductor is used to form a light emitting diode, the wavelength of the light emitted: A) is in a range above 1.5*10^-⁶ m B) is in a range below 1.5 *10^-⁶ m C) is always 1.5 *10^-⁶ m D) is in a range centered on 1.5 *10^-⁶ m E) has nothing to do with the gap

Accepted Answer

The answer of The gap between the valence and conduction...

Question 44

When a forward bias is applied to a p-n junction the concentration of electrons on the p side:&#10;A) increases slightly&#10;B) increases dramatically&#10;C) decreases slightly&#10;D) decreases dramatically&#10;E) does not change

Accepted Answer

The answer of When a forward bias is applied to...

Question 45

Switch S is closed to apply a potential difference V across a p-n junction as shown. Relative to the energy levels of the n-type material, with the switch open, the electron levels of the p-type material are:

A) unchanged
B) lowered by the amount e^-^Ve^/^kT
C) lowered by the amount Ve
D) raised by the amount e^-^Ve^/^kT
E) raised by the amount Ve

Accepted Answer

The answer of Switch S is closed to apply a...

Question 46

&#34;LED&#34; stands for:&#10;A) Less Energy Donated&#10;B) Light Energy Degrader&#10;C) Luminescent Energy Developer&#10;D) Laser Energy Detonator&#10;E) none of the above

Accepted Answer

The answer of &#34;LED&#34; stands for:&#10;A) Less Energy Donated&#10;B) Light...

Question 47

A sinusoidal potential difference V_in = V_msin($ \omega $t) is applied to the p-n junction as shown. Which graph correctly shows V_out as a function of time? A) I B) II C) III D) IV E) V

Accepted Answer

The answer of A sinusoidal potential difference V_in = V_msin(\(...

Question 48

Application of a forward bias to a p-n junction:&#10;A) increases the drift current in the depletion zone&#10;B) increases the diffusion current in the depletion zone&#10;C) decreases the drift current on the p side outside the depletion zone&#10;D) decreases the drift current on the n side outside the depletion zone&#10;E) does not change the current anywhere

Accepted Answer

The answer of Application of a forward bias to a...

Deck 41: Conduction of Electricity in Solids