Magnets sliding down metal sheets (slower then non metals)

In summary, eddy currents and magnetic induction are involved when a magnet slides down an incline over a magnetic sheet, acting as a braking mechanism due to lenz's law. The change in magnetic flux through the sheet induces an emf, causing eddy currents to flow and slow down the magnet. The speed of the magnet sliding down is affected by factors such as different metals and their conductivity. The path of the eddy currents is complex and can be difficult to trace.
  • #1
sarks
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hey guys, I've been given an assignment on the topic of eddy currents and magnetic induction. We have been given info that when a magnet slides down an incline over a magnetic sheet, the eddy currents in the metal acts as a braking mechanism (lenz's law).

I've done some research and what i don't get is how why there is eddy currents involved when there is no voltage or emf being put into the metal sheets??

Also why does factors such as different metals, thickness affect the speed of the magnet sliding down??

thanks in advance.
 
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  • #2
The sliding magnet plus metal sheet act like a dynamo ( very rough example). the magnets motion is transformed into electrical current, and that slows the magnet as it looses energy.

The path of the eddy currents is complex, have fun!
 
  • #3
the basic ideas is that, the change in magnetic flux through a closed "loop" induces an emf in it. In your case u say that the magnet slides over a magnetic sheet, which means that there is a change in flux through any arbitrary loop drawn at the surface of the magnetic sheet upon which the magnet slides.
so that's it.. definitely an emf will be induced and u can expect eddy current to flow, if the sheet is a good conductor. The current flowing would tend to brake the magnet, because as u have already mentioned, by lenz's law u can say that the current induced would tend to stop the change in magnetic flux, so it will tend to stop the magnet and hence brake it.
I hope now u can quite well figure out why the speed of the magnet will be different for different sheets. That's because the conductivity of the sheet will determine the amount of eddy current that will flow, in the sheet. A sheet will greater conductivity, will let more current flow so the "brake" to ur magnet would be applied much earlier in case of a good conducting sheet as compared to some weaker conducting sheet.
There's nothing to wonder much about it and as "Lok" already said, the path of eddy current is quite complex to draw! So u should rather not try to trace the path of eddy currents too much as they might really confuse u!
 

1. How do magnets slide down metal sheets slower than non-metals?

Magnets slide down metal sheets slower than non-metals because of the presence of magnetism. Metals are known to be good conductors of electricity, and this includes the flow of electrons. When a magnet is sliding down a metal sheet, it creates an electromagnetic force that resists its motion. This resistance is stronger in metals compared to non-metals, causing the magnet to slide down slower.

2. What factors affect the speed of a magnet sliding down a metal sheet?

The speed of a magnet sliding down a metal sheet can be affected by the strength of the magnetic field, the type of metal, and the angle of the metal sheet. A stronger magnetic field will result in a stronger resistance force, causing the magnet to slide down slower. Different metals have varying degrees of electrical conductivity, which can also affect the speed of the magnet. Additionally, the angle of the metal sheet can impact the direction and strength of the resistance force.

3. Can the speed of a magnet sliding down a metal sheet be increased?

Yes, the speed of a magnet sliding down a metal sheet can be increased by reducing the strength of the magnetic field or using a non-metal sheet instead. This will result in a weaker resistance force, allowing the magnet to slide down faster. Additionally, altering the angle of the metal sheet can also affect the speed of the magnet.

4. Why do metals have a stronger resistance force than non-metals?

Metals have a stronger resistance force than non-metals because of their high electrical conductivity. When a magnet is sliding down a metal sheet, it creates an electromagnetic force that opposes its motion. This force is stronger in metals due to the abundance of free electrons that can easily move and create a stronger magnetic field.

5. How does the thickness of the metal sheet affect the speed of a magnet sliding down?

The thickness of the metal sheet does not significantly affect the speed of a magnet sliding down. The resistance force is mainly dependent on the electrical conductivity and strength of the magnetic field. However, a thicker metal sheet may provide more surface area for the magnet to slide on, resulting in a slightly slower speed due to increased friction.

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