Understanding Induced Movement of Coil and Magnet

AI Thread Summary
An induced magnetic field causes a coil to move when a magnet passes through it, generating an electric current in the wire. This current creates its own magnetic field, which interacts with the external magnetic field of the magnet. The interaction results in a force that can cause movement. In the case of an induction motor, if the coil is shorted, the changing magnetic field induces a voltage that generates a current opposing the magnet's field. This principle explains the mechanics behind induced movement in coils and magnets.
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What is the answer? Should be B

Please Explain the reason behind

I don't understand how an induced Magnetic Field will cause the coil to move.

(Not Homework)Source:tycphysics.org/TIPERs/TIPER%206_20_02_keys%20pdf/EMI%205a_Key_6_02.pdf

thanks for helping
 
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Is an electrically induced magnetic field somehow different from a magnetic field produced by a permanent magnet?

When a magnet moves through the coil of wire, a current is induced in the wire. When current is flowing through a wire, a magnetic field is generated around the wire. If another magnetic field is present, they will interact.

Induction Motor
 
B is true if the coil of wire is shorted. The dB/dt linking the coil will develop a voltage around and hence a current in the wire that opposes the field of the magnet.
 
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