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Assertion & Reason Test: Semiconductor Electronics - NEET MCQ


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10 Questions MCQ Test Topic-wise MCQ Tests for NEET - Assertion & Reason Test: Semiconductor Electronics

Assertion & Reason Test: Semiconductor Electronics for NEET 2024 is part of Topic-wise MCQ Tests for NEET preparation. The Assertion & Reason Test: Semiconductor Electronics questions and answers have been prepared according to the NEET exam syllabus.The Assertion & Reason Test: Semiconductor Electronics MCQs are made for NEET 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Assertion & Reason Test: Semiconductor Electronics below.
Solutions of Assertion & Reason Test: Semiconductor Electronics questions in English are available as part of our Topic-wise MCQ Tests for NEET for NEET & Assertion & Reason Test: Semiconductor Electronics solutions in Hindi for Topic-wise MCQ Tests for NEET course. Download more important topics, notes, lectures and mock test series for NEET Exam by signing up for free. Attempt Assertion & Reason Test: Semiconductor Electronics | 10 questions in 20 minutes | Mock test for NEET preparation | Free important questions MCQ to study Topic-wise MCQ Tests for NEET for NEET Exam | Download free PDF with solutions
Assertion & Reason Test: Semiconductor Electronics - Question 1
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Directions : In the following questions, A statement of Assertion (A) is followed by a statement of Reason (R). Mark the correct choice as.

Assertion (A): The resistivity of a semiconductor decreases with temperature.

Reason (R): The atoms of a semiconductor vibrate with larger amplitude at higher temperature there by increasing it's resistivity.

Detailed Solution for Assertion & Reason Test: Semiconductor Electronics - Question 1

To solve the given question, we will analyze both the assertion and the reason provided.

Step 1: Understand the Assertion
The assertion states that "The resistivity of a semiconductor decreases with temperature."

Explanation: In semiconductors, as the temperature increases, more charge carriers (electrons and holes) are generated due to the breaking of covalent bonds. This increase in charge carriers enhances the conductivity of the semiconductor. Since resistivity (ρ) is inversely related to conductivity (σ), we can conclude that as conductivity increases, resistivity decreases.

Step 2: Understand the Reason
The reason states that "The atoms of a semiconductor vibrate with larger amplitude at higher temperature thereby increasing its resistivity."

Explanation: While it is true that atoms in a semiconductor vibrate more at higher temperatures, this does not lead to an increase in resistivity. Instead, the increased vibration can lead to more collisions among charge carriers, but the primary effect at higher temperatures is the generation of more charge carriers. Therefore, this reasoning is incorrect because it contradicts the assertion.

Assertion & Reason Test: Semiconductor Electronics - Question 2
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Directions : In the following questions, A statement of Assertion (A) is followed by a statement of Reason (R). Mark the correct choice as.

Assertion (A): Silicon is preferred over Germanium for making semiconductor devices.

Reason (R): The energy gap of Germanium is more than the energy gap of Silicon.

Detailed Solution for Assertion & Reason Test: Semiconductor Electronics - Question 2

Silicon is preferred over Germanium for making semiconductor devices. The assertion is true.

The energy gap of Germanium is about 0.7 eV, where as the energy gap of Silicon is 1.1 eV. Hence, the reason is false.

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Assertion & Reason Test: Semiconductor Electronics - Question 3
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Directions : In the following questions, A statement of Assertion (A) is followed by a statement of Reason (R). Mark the correct choice as.

Assertion (A): Zener diode is used as a voltage regulator.

Reason (R): Zener diode operated in reverse biased condition.

Detailed Solution for Assertion & Reason Test: Semiconductor Electronics - Question 3
Zener diode is used as a voltage regulator in reverse biased condition. So, both assertion and reason are true, but the reason does not explain the assertion.
Assertion & Reason Test: Semiconductor Electronics - Question 4
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Directions : In the following questions, A statement of Assertion (A) is followed by a statement of Reason (R). Mark the correct choice as.

Assertion (A): When diode is used as a rectifier, its specified reverse breakdown voltage should not be exceeded.

Reason (R): When p-n junction diode crosses the reverse break down voltage, it get destroyed.
Detailed Solution for Assertion & Reason Test: Semiconductor Electronics - Question 4
When a diode is used as a rectifier, it has to face both positive and negative halves of the alternating voltage.
Assertion & Reason Test: Semiconductor Electronics - Question 5
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Directions : In the following questions, A statement of Assertion (A) is followed by a statement of Reason (R). Mark the correct choice as.

Assertion (A): The number of electrons in a p-type silicon semiconductor is less than the number of electrons in intrinsic silicon semiconductor at room temperature.

Reason (R): It is due to law of mass action.
Detailed Solution for Assertion & Reason Test: Semiconductor Electronics - Question 5
In p-type semiconductor, electron is the minority charge carrier. So, number of electrons is less than the number of electrons in intrinsic semiconductor. So the assertion is true. According to the law of mass action = n2i = ne × nh. In intrinsic semiconductor, ne = nh . So in p-type semiconductor, ne < nh. So reason is also true.
Assertion & Reason Test: Semiconductor Electronics - Question 6
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Directions : In the following questions, A statement of Assertion (A) is followed by a statement of Reason (R). Mark the correct choice as.

Assertion (A): As the temperature of a semiconductor increases, its resistance decreases.

Reason (R): The energy gap between conduction band and valence band is small.
Detailed Solution for Assertion & Reason Test: Semiconductor Electronics - Question 6
As temperature rises, the electrons of valence band sufficient energy and jump to the conduction band. Thus, the resistivity decreases. So the assertion is true.

In semiconductors the energy gap between conduction band and valence band is small. Due to this, the electrons in the conduction band can gain sufficient thermal energy with temperature rise and can easily jump across the small energy gap to reach the conduction band. Thus, conductivity increases and resistance decreases.

Assertion & Reason Test: Semiconductor Electronics - Question 7
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Directions : In the following questions, A statement of Assertion (A) is followed by a statement of Reason (R). Mark the correct choice as.

Assertion (A): Semiconductors do not obey Ohm's law.

Reason (R): V-I characteristic of semiconductors is linear.
Detailed Solution for Assertion & Reason Test: Semiconductor Electronics - Question 7
Semiconductors do not obey Ohm's law. So the assertion is true. V-I characteristic of a semiconductor is non-linear. Hence the reason is false.
Assertion & Reason Test: Semiconductor Electronics - Question 8
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Directions : In the following questions, A statement of Assertion (A) is followed by a statement of Reason (R). Mark the correct choice as.

Assertion (A): Ideal diode shows zero resistance in forward bias and infinite resistance in reverse bias.

Reason (R): Depletion region of a p-n junction diode extends in reverse bias and contracts in reverse bias.
Detailed Solution for Assertion & Reason Test: Semiconductor Electronics - Question 8
In forward bias condition, the depletion region of a p-n junction diode contracts and the majority charge carriers can cross the junction very easily. So, the resistance becomes low (ideally 0).

In reverse bias condition, the depletion region of p-n junction diode expands and the majority charge carriers cannot cross the junction. So, the resistance increases (ideally ∞).

So, the assertion and reason both are true and reason explains the assertion.

Assertion & Reason Test: Semiconductor Electronics - Question 9
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Directions : In the following questions, A statement of Assertion (A) is followed by a statement of Reason (R). Mark the correct choice as.

Assertion (A): When a p-n junction diode is reverse biased, a feeble reverse current flows known as reverse saturation current.

Reason (R): In reverse bias condition, the minority carries can cross the junction.
Detailed Solution for Assertion & Reason Test: Semiconductor Electronics - Question 9
When a p-n junction is reverse biased, then the majority charge carriers cannot cross the junction. So, no forward current flows. But in reverse direction, a feeble current flows which is known as reverse saturation current. So, the assertion is true.

In p-side there are few electrons as minority charge carrier and in n-side, there are few holes as minority charge carriers. In reverse bias condition, the holes at n-side feel a pull exerted by the negative polarity of the voltage source connected to the p-side. Similarly, the electrons at p-side feel a pull exerted by the positive polarity of the voltage source connected to the n-side. So, these minority carries now can cross the junction and give rise to a feeble current in the opposite direction. Hence, the reason is also true and it explains the assertion.

Assertion & Reason Test: Semiconductor Electronics - Question 10
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Directions : In the following questions, A statement of Assertion (A) is followed by a statement of Reason (R). Mark the correct choice as.

Assertion (A): In a semiconductor, the conduction electrons have a higher mobility than holes.

Reason (R): The electrons experience fewer collisions.
Detailed Solution for Assertion & Reason Test: Semiconductor Electronics - Question 10
Electrons experience many collisions. The mobility of electrons is more because they require less energy to move, not because they are lighter.
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