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Test: Faraday’s Law of Induction (January 22) - NEET MCQ


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10 Questions MCQ Test Daily Test for NEET Preparation - Test: Faraday’s Law of Induction (January 22)

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Test: Faraday’s Law of Induction (January 22) - Question 1

A magnet is moved towards the coil (i) quickly, (ii) slowly, the induced emf is​

Detailed Solution for Test: Faraday’s Law of Induction (January 22) - Question 1

When a magnet is moved towards the coil quickly, the rate of change of flux is larger than that if the magnetic field is moved slowly, thus larger emf is induced due to quick movement of the coil.

Test: Faraday’s Law of Induction (January 22) - Question 2

A coil of 100 turns is pulled in 0.04 sec. between the poles of a magnet, if its flux changes from 40 x 10-6 Wb per turn to 10-5 Wb per turn, then the average emf induced in the coil is​

Detailed Solution for Test: Faraday’s Law of Induction (January 22) - Question 2

Emf = - N(∆magnetic flux)/∆t
N=100turns
∆magnetic flux= -30×10-6Wb
∆t = 0.04sec
Emf = -(100turns)(-30×10-6)/(0.04sec)
Emf = 0.075V
 

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Test: Faraday’s Law of Induction (January 22) - Question 3

The magnetic flux linked with a coil is changed from 1 Wb to 0.1 Wb in 0.1 second. The induced emf is​

Detailed Solution for Test: Faraday’s Law of Induction (January 22) - Question 3

Change n in magnetic flux Δϕ=0.1−1=−0.9 Weber
Time taken  Δt=0.1 sec
So, emf induced in the coil  E=− Δϕ​/Δt
⟹ E=− (−0.9)​/ 0.1=9 Volts
Hence option C is the correct answer.

Test: Faraday’s Law of Induction (January 22) - Question 4

The principle of electromagnetic induction is used in which of the following phenomenon

Detailed Solution for Test: Faraday’s Law of Induction (January 22) - Question 4

In hydroelectricity the power of a turbine depends on the size of the water drop and the quantity of water flowing through the turbine. The water propels the turbine, which in turn powers an electric generator, which produces electricity under the principle of electromagnetic induction.

Test: Faraday’s Law of Induction (January 22) - Question 5

Magnetic flux φ in Weber in closed circuit of resistance 15 ohm varies with time t sec as φ = 2t² – 3t + 1. The magnitude of induced emf at t = 0.25 sec is 

Detailed Solution for Test: Faraday’s Law of Induction (January 22) - Question 5


= 4t-3
At t = 0.25s
e= 2V

Test: Faraday’s Law of Induction (January 22) - Question 6

If the North Pole of the bar magnet is introduced into a coil at the end A which of the following statements correctly depicts the phenomenon taking place.

Detailed Solution for Test: Faraday’s Law of Induction (January 22) - Question 6

According to Lenz’s law the end A becomes the North Pole to oppose the motion of the magnet.
Hence, option B is correct.
 

Test: Faraday’s Law of Induction (January 22) - Question 7

In which of the following cases with a bar magnet and the coil no induced emf is induced.

Detailed Solution for Test: Faraday’s Law of Induction (January 22) - Question 7

This is because induced emf directly depends on relative motion between the magnet and coil, but if there is no relative motion between them, there will be no emf induced.

Test: Faraday’s Law of Induction (January 22) - Question 8

Which of the following law’s gives the direction of induced emf?

Detailed Solution for Test: Faraday’s Law of Induction (January 22) - Question 8

Lenz’s law is used for determining the direction of induced current.
Lenz’s law of electromagnetic induction states that the direction of induced current in a given magnetic field is such that it opposes the induced change by changing the magnetic field.
Following is the formula of Lenz’s law:
ϵ=−N (∂ϕB/∂t)
Where,

  • ε is the induced emf
  • ∂ΦB is the change in magnetic flux
  • N is the number of turns in the coil
     

Lenz’s law finds application in electromagnetic braking and in electric generators

Test: Faraday’s Law of Induction (January 22) - Question 9

In the expression, what is the significance of negative sign?

Detailed Solution for Test: Faraday’s Law of Induction (January 22) - Question 9

The negative sign signifies that the induced emf always opposes any change in the magnetic flux.

Test: Faraday’s Law of Induction (January 22) - Question 10

The role of inductance is equivalent to:

Detailed Solution for Test: Faraday’s Law of Induction (January 22) - Question 10

Self induction is that phenomenon in which a change in electric current in a coil produces an induced emf in the coil itself.
Now, it is also known as inertia of electricity as for if we were to change electric current through a current carrying coil it will tend to oppose any further change in its emf. This is similar to inertial behavior in mechanics where bodies in either rest or motion tend to oppose any change in their state. Here mass is the inertial property analogous to self inductance.
 

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