Semiconductor Electronics-Materials, Devices And Simple Circuits MCQs With Answers – Part 2 (Class 12 Physics)
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Semiconductor Electronics-Materials, Devices and Simple Circuits MCQs with Answers – Part 2 (Class 12 Physics)

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111. A claim says: “An \(n\)-type semiconductor is formed by adding electrons directly from a battery into pure silicon.” The better interpretation is:
ⓐ. the claim is suitable because a battery converts every silicon atom into phosphorus
ⓑ. \(n\)-type material is formed by donor doping, not battery charging
ⓒ. the claim is suitable only when holes become majority carriers
ⓓ. \(n\)-type material cannot contain any impurity atom
112. A \(p\)-type semiconductor is formed when silicon is doped with:
ⓐ. a trivalent impurity such as boron
ⓑ. a pentavalent impurity such as phosphorus
ⓒ. a divalent metal that removes the band gap completely
ⓓ. only extra free electrons from a battery
113. In a silicon crystal doped with boron, one covalent bond around each boron atom is incomplete because boron:
ⓐ. has five valence electrons
ⓑ. has no nucleus
ⓒ. has an overlapping conduction band like a metal
ⓓ. has three valence electrons
114. In a \(p\)-type semiconductor, the majority and minority carriers are respectively:
ⓐ. electrons and holes
ⓑ. donor ions and protons
ⓒ. neutrons and electrons
ⓓ. holes and electrons
115. The acceptor energy level in a \(p\)-type semiconductor is generally shown:
ⓐ. just below the conduction band
ⓑ. just above the valence band
ⓒ. outside the crystal as a battery terminal
ⓓ. exactly equal to the resistance of the sample
116. When an acceptor atom accepts an electron in a silicon crystal, the acceptor atom becomes:
ⓐ. a mobile positive hole
ⓑ. a free conduction electron
ⓒ. a fixed negative ion
ⓓ. a donor atom with five valence electrons
117. A doped semiconductor has \(n_h\gg n_e\), but the sample is electrically neutral overall. The best reason is:
ⓐ. holes are balanced by fixed negative acceptor ions
ⓑ. holes have no effective charge
ⓒ. electrons and protons are both absent from the material
ⓓ. the semiconductor contains no impurity atoms
118. Match the doped-semiconductor descriptions.
Column IColumn II
P. \(n\)-type semiconductor1. Holes are majority carriers
Q. \(p\)-type semiconductor2. Electrons are majority carriers
R. Ionised donor atom3. Fixed positive ion
S. Ionised acceptor atom4. Fixed negative ion
The suitable matching is:
ⓐ. P-1, Q-2, R-4, S-3
ⓑ. P-2, Q-1, R-3, S-4
ⓒ. P-2, Q-3, R-1, S-4
ⓓ. P-4, Q-1, R-3, S-2
119. A passage describes a doped crystal.
A small amount of gallium is introduced into pure silicon. Each gallium atom forms only three covalent bonds directly. An electron from a neighbouring bond can move into the incomplete bond, leaving a hole behind.
The impurity action described in the passage is:
ⓐ. donor action producing \(n\)-type material
ⓑ. intrinsic pair generation with no impurity effect
ⓒ. acceptor action producing \(p\)-type material
ⓓ. metallic band overlap producing a conductor
120. Consider the following statements about \(n\)-type and \(p\)-type semiconductors. I. \(n\)-type semiconductors are produced using donor impurities. II. \(p\)-type semiconductors are produced using acceptor impurities. III. A doped semiconductor must be electrically charged overall. The valid statements are:
ⓐ. II and III only
ⓑ. I and III only
ⓒ. I and II only
ⓓ. I, II, and III
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