Question

A bar magnet moves through a loop of wire with constant velocity, and the north pole enters the loop first the induced current will be greatest when the magnet is located so that the loop is

Answer 1

Loop must be near the end of the pole of bar magnet

Step-by-step explanation:

As we know by Faraday's law of electromagnetic induction the induced EMF or induced current in the loop is given by

`EMF = (d\phi)/(dt)`

here we know that

`\phi = B.A`

now we know that as the magnet comes closer to the loop the magnetic field due to any of the pole of magnet will increase.

So here the maximum flux will pass through the magnet when magnet is closer to the loop.

So here when A bar magnet moves through a loop of wire with constant velocity, and the north pole enters the loop first the induced current will be greatest when the magnet is located so that the loop is when Loop must be near the end of the pole of bar magnet

Answer 2

A bar magnet moves through a loop of wire with constant velocity, and the north pole enters the loop first the induced current will be greatest when the magnet is located so that the loop is near either the north or the south pole.