What Happens to Induced EMF When a Magnet is Placed in the Middle of a Coil?

AI Thread Summary
When a magnet is placed in the middle of a long coil of wire, the induced electromotive force (EMF) is not generated as effectively as when the magnet is at either end. This is because the magnetic field remains relatively constant throughout the coil when the magnet is centrally located, leading to no change in magnetic flux. Since induced EMF is associated with changes in magnetic field, the lack of variation results in no induced electric field. Therefore, the maximum induced EMF occurs only at the ends of the coil. The discussion concludes that the position of the magnet significantly affects the induced EMF in the coil.
jsmith613
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Homework Statement


When we place a magnet in a long coil of wire the emf will be maximum when the magnet is at either end. What would happen when the magnet lies in the middle of the coil (i.e: the same amount of flux is interacting with the coil at all times). Would we have an induced EMF because each coil (in the long coil of wire) has an EMF induced in it, surely, because it is interacting with a coil and its interaction is changing

Homework Equations


NONE

The Attempt at a Solution


see above
 
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jsmith613 said:

Homework Statement


When we place a magnet in a long coil of wire the emf will be maximum when the magnet is at either end. What would happen when the magnet lies in the middle of the coil (i.e: the same amount of flux is interacting with the coil at all times). Would we have an induced EMF because each coil (in the long coil of wire) has an EMF induced in it, surely, because it is interacting with a coil and its interaction is changing

Homework Equations


NONE


The Attempt at a Solution


see above

Imagine that this is one very very long magnet. Then the magnetic field is roughly constant through the coil even if the magnet is moving (no where near its two ends). No change in magnetic field means no induced electric field.
 
so induced EMF is only associated with the coil's ends. is this right?
 
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