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Question:
A metallic rod of length $l$ is tied to a string of length $2l$ and made to rotate with angular speed ($\omega$ on a horizontal table with one end of the string fixed. If there is a vertical magnetic field $B$ in the region, the emf induced across the ends of the rod is
A metallic rod of length $l$ is tied to a string of length $2l$ and made to rotate with angular speed ($\omega$ on a horizontal table with one end of the string fixed. If there is a vertical magnetic field $B$ in the region, the emf induced across the ends of the rod is
Updated On: Sep 27, 2024
- $ \frac{ 2 \, B \, \omega l^3 }{ 2 } $
- $ \frac{ 3 B \omega l^3 }{ 2 } $
- $ \frac{ 4 B \omega l^2 }{ 2 } $
- $ \frac{ 5 B \omega l^2 }{ 2} $
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The Correct Option is D
Solution and Explanation
$ e = \int \limits_{ 2 \, l }^{ 3 \, l } \, ( \omega \, x ) \, Bdx = B \omega \frac{ [ ( 3 \, l )^2 - ( 2 \, l)^2 ] }{ 2 } $
= $ \frac{ 5 B \, l^2 \, \omega }{ 2 } $
= $ \frac{ 5 B \, l^2 \, \omega }{ 2 } $
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Concepts Used:
Electromagnetic Induction
Electromagnetic Induction is a current produced by the voltage production due to a changing magnetic field. This happens in one of the two conditions:-
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- When the conductor constantly moves in a stationary field.
Formula:
The electromagnetic induction is mathematically represented as:-
e=N × d∅.dt
Where
- e = induced voltage
- N = number of turns in the coil
- Φ = Magnetic flux (This is the amount of magnetic field present on the surface)
- t = time
Applications of Electromagnetic Induction
- Electromagnetic induction in AC generator
- Electrical Transformers
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