Question:
Assertion (A): We cannot form a p-n junction diode by taking a slab of a p-type semiconductor and physically joining it to another slab of an n-type semiconductor.
Reason (R): In a p-type semiconductor, \( n_e \gg n_h \) while in an n-type semiconductor \( n_h \gg n_e \).
Assertion (A): We cannot form a p-n junction diode by taking a slab of a p-type semiconductor and physically joining it to another slab of an n-type semiconductor.
Reason (R): In a p-type semiconductor, \( n_e \gg n_h \) while in an n-type semiconductor \( n_h \gg n_e \).
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A p-n junction diode can be formed by joining p-type and n-type semiconductors. The electron and hole concentrations in each type of semiconductor are different.
Updated On: May 3, 2025
- Both Assertion (A) and Reason (R) are true and Reason (R) is the correct explanation of Assertion (A)
- Both Assertion (A) and Reason (R) are true, but Reason (R) is not the correct explanation of Assertion (A).
- Assertion (A) is true, but Reason (R) is false.
- Assertion (A) is false and Reason (R) is also false.
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The Correct Option is D
Solution and Explanation
The assertion is false because a p-n junction diode can indeed be formed by joining a p-type semiconductor with an n-type semiconductor. This forms a p-n junction where the free electrons from the n-type material combine with holes in the p-type material to form the depletion region.
The reason is true because in a p-type semiconductor, the number of electrons \( n_e \) is small and the number of holes \( n_h \) is large. In an n-type semiconductor, the number of electrons \( n_e \) is large, while the number of holes \( n_h \) is small. Thus, the assertion is false and the reason is true.
The reason is true because in a p-type semiconductor, the number of electrons \( n_e \) is small and the number of holes \( n_h \) is large. In an n-type semiconductor, the number of electrons \( n_e \) is large, while the number of holes \( n_h \) is small. Thus, the assertion is false and the reason is true.
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