Consider a -type semiconductor in which and are the number of electrons and holes, respectively.
- A
(A) and (C) only
- B
(B) and (D) only
- C
(A), (B) and (C) only
- D
(A), (C) and (D) only
Consider a -type semiconductor in which and are the number of electrons and holes, respectively.
(A) and (C) only
(B) and (D) only
(A), (B) and (C) only
(A), (C) and (D) only
Correct answer:C
Standard Method
Given: An -type semiconductor with electron concentration and hole concentration .
Find: Which combination of statements is correct.
Evaluate each statement:
(A) Holes are minority carriers — In an -type semiconductor, electrons are the majority carriers, so holes are minority carriers. Hence (A) is true.
(B) The dopant is a pentavalent atom — -type semiconductors are formed by doping with pentavalent impurities, so (B) is true.
(C) for intrinsic semiconductor — The mass action law is
For an intrinsic semiconductor, , so the relation is valid. Hence (C) is true.
Therefore, the correct combination is (A), (B) and (C) only, so the correct option is C.
Note: The first solution block in the source contains an internal inconsistency in its explanation, but the marked correct option and the second approach both support option C.
Statement-wise Analysis
Given: Statements about an -type semiconductor.
Find: The correct option by checking the truth value of each statement.
For -type semiconductor:
Also, under equilibrium,
This relation holds for semiconductors, and for an intrinsic semiconductor specifically, .
Now check the options:
Hence the correct set is (A), (B) and (C) only.
Therefore, the correct option is C.
Assuming that statement (D) is always true because the question begins with an -type semiconductor. This is wrong because statement (D) is written for extrinsic semiconductor in general, which includes both -type and -type semiconductors. Check the exact wording of each statement before judging it.
Thinking that the relation applies only to intrinsic semiconductors and not to doped ones. This is wrong because it is the mass action law under equilibrium. For intrinsic semiconductors it reduces to , but the product relation remains fundamental.
Confusing majority and minority carriers in an -type semiconductor. This is wrong because pentavalent doping contributes extra electrons, making electrons majority carriers and holes minority carriers. Always connect the dopant type with the carrier type.
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