Hey guys,
So this is a concept that has really been confusing and it is one of a pretty common HSC question so it is as follows:
When a horse shoe made of copper is dropped onto a strong magnet, it experiences electromagnetic braking as there is a changing magnetic field, induced emf, it is complete so induced current and hence induced magnet field which opposes the bar magnet and so slows it down.
If we have a copper horseshoe with a slit, there is a changing magnetic field, and I would assume there is an induced emf, but there will be no induced current and hence no induced magnetic field and hence electromagnetic braking.
Is this correct?
Thanks in advance
So this is a concept that has really been confusing and it is one of a pretty common HSC question so it is as follows:
When a horse shoe made of copper is dropped onto a strong magnet, it experiences electromagnetic braking as there is a changing magnetic field, induced emf, it is complete so induced current and hence induced magnet field which opposes the bar magnet and so slows it down.
If we have a copper horseshoe with a slit, there is a changing magnetic field, and I would assume there is an induced emf, but there will be no induced current and hence no induced magnetic field and hence electromagnetic braking.
Is this correct?
Thanks in advance
