Physics, asked by popupgaming22, 2 months ago

explain Faraday's experiment of magnet and coil what factors can be observed when the magnet is replaced by a coil carrying current what are the conclusions that can be drawn by you from the these experiment state electromagnetic induction with the help of this experiment for 5marks​

Answers

Answered by Anonymous
3

Answer:

He connected the coil to a galvanometer, and then moved a magnet back and forth inside the cylinder. Click and drag the magnet back and forth inside the coil. ... Faraday confirmed that a moving magnetic field is necessary in order for electromagnetic induction to occur.

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Answered by EnchantedRahuL
6

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A coil of wire is wound on a paper cylinder and connected to a sensitive galvanometer.

A bar magnet is moved back and forth inside the coil.

When North pole of a magnet is pushed towards a coil,the galvanometer shows a deflection.

When the North pole of a magnet is pulled out,the deflection is in the opposite direction.

When the South pole of the bar magnet is pushed towards or pulled away from the coil the deflections in the galvanometer are opposite to that observed with the North pole for similar movement.

If the magnet is stopped/ held stationary,there is no deflection in the galvanometer.

The relative motion between the Coil and the magnet causes a change in the magnetic flux through the coil and an electric current flows in the coil.The magnitude of the current depends on the magnitude of their relative velocity and on the strength of the magnet.

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