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Assertion & Reason Test: Electromagnetic Induction - 2 - Grade 12 MCQ


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10 Questions MCQ Test - Assertion & Reason Test: Electromagnetic Induction - 2

Assertion & Reason Test: Electromagnetic Induction - 2 for Grade 12 2024 is part of Grade 12 preparation. The Assertion & Reason Test: Electromagnetic Induction - 2 questions and answers have been prepared according to the Grade 12 exam syllabus.The Assertion & Reason Test: Electromagnetic Induction - 2 MCQs are made for Grade 12 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Assertion & Reason Test: Electromagnetic Induction - 2 below.
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Assertion & Reason Test: Electromagnetic Induction - 2 - Question 1

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 two identical loops of copper and Aluminium are rotated with same speed in the same magnetic field, the induced e.m.f. will be the same.

Reason (R): Resistance of the two loops are equal.

Detailed Solution for Assertion & Reason Test: Electromagnetic Induction - 2 - Question 1
Induced e.m.f. in a rotating loop in a magnetic field depends on the area of the loop, number of turns, speed of rotation and magnetic field strength. It does not depend on the material of the coil. So, when two identical loops of copper and aluminium are rotated with the same speed in the same magnetic field, the induced e.m.f. will be the same. So, the assertion is true. Resistance of the two loops cannot be equal. Resistance of the copper loop is less than that of the aluminium loop. So, the reason is false.
Assertion & Reason Test: Electromagnetic Induction - 2 - Question 2

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): If the number of turns of a coil is increased, it becomes more difficult to push a bar magnet towards the coil.

Reason (R): The difficulty faced is according to Lenz’s law.

Detailed Solution for Assertion & Reason Test: Electromagnetic Induction - 2 - Question 2
As it is tried to push a bar magnet towards a coil, magnetic flux increases. According to Faraday’s law induced e.m.f. is generated. As the number of turns increases, induced e.m.f. increases. According to Lenz’s law, Induced e.m.f. always opposes the change in magnetic flux that causes the induction of e.m.f. So, the induced e.m.f. will oppose the motion of the bar magnet towards the coil. As the number of turns increases, opposition increases. Hence both assertion and reason are true and the reason explains the assertion properly.
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Assertion & Reason Test: Electromagnetic Induction - 2 - Question 3

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 cores of electromagnets are made of soft iron.

Reason (R): Coercivity of soft iron is small.

Detailed Solution for Assertion & Reason Test: Electromagnetic Induction - 2 - Question 3
The core of an electromagnet should be such that it gets magnetized easily. Also, it loses magnetism easily as soon as the magnetizing field is removed. Soft iron has this property. So, soft iron is used as the core electromagnet. So the assertion is true. Coercivity is a measure of the ability of a ferromagnetic substance to withstand external magnetic field without becoming demagnetized. For soft iron, it should be very low. Coercivity is low for soft iron. So, reason is also true. Also, reason properly explains the assertion.
Assertion & Reason Test: Electromagnetic Induction - 2 - Question 4

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): Self inductance may be called the inertia of electricity.

Reason (R): Due to self inductance, opposing induced e.m.f. is generated in a coil as a result of change in current or magnetic flux linked with the coil.

Detailed Solution for Assertion & Reason Test: Electromagnetic Induction - 2 - Question 4
Inertia is defined as the tendency of an object to resists its change of state of motion. Induced e.m.f. in a coil is changed by the change in current or magnetic flux. The property by which a coil opposes these parameters to incur any change in induced e.m.f. is known as self-inductance. Hence, self inductance may be called the inertia of electricity. So, the assertion and reason both are true but reason cannot explain why so happens.
Assertion & Reason Test: Electromagnetic Induction - 2 - Question 5

Directions: These questions consist of two statements, each printed as Assertion and Reason. While answering these questions, you are required to choose any one of the following four responses.

Assertion : Faraday’s laws are consequence of conservation of energy.

Reason : In a purely resistive ac circuit, the current legs behind the emf in phase.

Detailed Solution for Assertion & Reason Test: Electromagnetic Induction - 2 - Question 5
In purely resistive circuit, the current and emf are in the same phase.
Assertion & Reason Test: Electromagnetic Induction - 2 - Question 6

Directions: These questions consist of two statements, each printed as Assertion and Reason. While answering these questions, you are required to choose any one of the following four responses.

Assertion : Lenz’s law violates the principle of conservation of energy.

Reason : Induced emf always opposes the change in magnetic flux responsible for its production.

Detailed Solution for Assertion & Reason Test: Electromagnetic Induction - 2 - Question 6
Lenz’s law (that the direction of induced emf is always such as to oppose the change that cause it) is direct consequence of the law of conservation of energy.
Assertion & Reason Test: Electromagnetic Induction - 2 - Question 7

Directions: These questions consist of two statements, each printed as Assertion and Reason. While answering these questions, you are required to choose any one of the following four responses.

Assertion : Acceleration of a magnet falling through a long solenoid decreases.

Reason : The induced current produced in a circuit always flow in such direction that it opposes the change to the cause that produced it.

Detailed Solution for Assertion & Reason Test: Electromagnetic Induction - 2 - Question 7
The induced current in the ring opposes the motion of falling magnet. Therefore, the acceleration of the falling magnet will be less than that due to gravity.
Assertion & Reason Test: Electromagnetic Induction - 2 - Question 8

Directions: These questions consist of two statements, each printed as Assertion and Reason. While answering these questions, you are required to choose any one of the following four responses.

Assertion : An emf can be induced by moving a conductor in a magnetic field.

Reason : An emf can be induced by changing the magnetic field.

Detailed Solution for Assertion & Reason Test: Electromagnetic Induction - 2 - Question 8
In both the cases, the magnetic flux will change, and so there is an induced current.
Assertion & Reason Test: Electromagnetic Induction - 2 - Question 9

Directions: These questions consist of two statements, each printed as Assertion and Reason. While answering these questions, you are required to choose any one of the following four responses.

Assertion : Eddy currents are produced in any metallic conductor when magnetic flux is changed around it.

Reason : Electric potential determines the flow of charge.

Detailed Solution for Assertion & Reason Test: Electromagnetic Induction - 2 - Question 9
Both the statements are independently correct.
Assertion & Reason Test: Electromagnetic Induction - 2 - Question 10

Directions: These questions consist of two statements, each printed as Assertion and Reason. While answering these questions, you are required to choose any one of the following four responses.

Assertion : When number of turns in a coil is doubled, coefficient of self-inductance of the coil becomes 4 times.

Reason : This is because L α N2.

Detailed Solution for Assertion & Reason Test: Electromagnetic Induction - 2 - Question 10
Both are true
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