(A) According to Faraday's law of electromagnetic induction,the induced electromotive force $(e)$ is given by $e = -N \frac{d\phi}{dt}$.Since the coil

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(A) According to Faraday's law of electromagnetic induction,the induced electromotive force $(e)$ is given by $e = -N \frac{d\phi}{dt}$.Since the coil and the magnet are moving in the same direction with the same speed $V$,their relative velocity is zero.As a result,the magnetic flux $(\phi)$ linked with the coil remains constant over time.Therefore,$\frac{d\phi}{dt} = 0$.Consequently,the induced e.m.f. is zero.

Class 12 Physics Electromagnetic Induction Faraday's and Lenz's Law

Medium

The coil and magnet are moved in the same direction with the same speed $V$. The induced e.m.f. is

MHT CET 2024 All MHT CET

A
zero.
B
proportional to $V$.
C
proportional to $V^{-1}$.
D
finite but does not depend on $V$.

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Electromagnetic Induction

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Faraday's and Lenz's Law

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The coil and magnet are moved in the same direction with the same speed $V$. The induced e.m.f. is

Similar Questions

Discuss Faraday's experiment of bar magnet and coil for generation of electric current in coil.

What is electromagnetic induction?

The magnetic flux linked with a coil varies as $\phi = 3t^{2} + 4t + 9$. The magnitude of the emf induced at $t = 2 \text{ s}$ is: (in $\text{ V}$)

The magnetic flux through a coil perpendicular to its plane and directed into the paper is varying according to the relation $\phi = (2t^2 + 4t + 6) \, mWb$. The $emf$ induced in the loop at $t = 4 \, s$ is ....... $V$.

Assertion $(A)$: It is more difficult to push a magnet into a coil with a greater number of turns.Reason $(R)$: The $emf$ induced in a coil opposes the motion of a magnet when it is moved towards the coil.

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Assertion $(A)$: It is more difficult to push a magnet into a coil with a greater number of turns.
Reason $(R)$: The $emf$ induced in a coil opposes the motion of a magnet when it is moved towards the coil.