Different magnets with a coil, what are the currents?

AI Thread Summary
The discussion centers on the currents produced in a coil by different magnet scenarios. The first two scenarios generate currents in opposite directions due to the opposing magnetic flux, while the third scenario results in no current due to a lack of flux through the coil. Additionally, the conversation explores how voltage, current, and EMF relate to various factors such as the number of turns in the coil, wire diameter, magnetic flux density, and the velocity of the magnet. Lenz's Law is referenced as a key principle in understanding these relationships. Overall, the thread seeks clarity on the effects of these parameters on electrical output in the coil.
Holchr
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Hi.
Can someone please explain/tell me what would be the resulting currents trough the coil in every of the three depicted scenarios in the attached picture, I'm confused here. Would the first and the second drawing produce the same result? Is there any current flow in the third drawing.
Thanks.
 

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Holchr said:
Hi.
Can someone please explain/tell me what would be the resulting currents trough the coil in every of the three depicted scenarios in the attached picture, I'm confused here. Would the first and the second drawing produce the same result? Is there any current flow in the third drawing.
Thanks.

The first and second will produce current in opposite direction(since change in magnetic flux is opposite in direction, due to, magnetic fields through the coil are in opposite direction), there is NO current in the third picture because of NO flux through coil(assuming the magnet is big enough to not have edge effects).
 
Thanks a lot universal. I got just one more question so I'd really appreciate help.

When a magnet passes trough a coil, there are three points of interest to me. The VOLTAGE, the CURRENT, and the EMF (lenz effect, or the force exerted on the magnet by the field of the induced current) (maybe some of this is wrong but bear with me).

So I wanted to know to which of the parameters of the system are VOLTAGE, CURRENT and the EMF proportional, and to which inversely proportional, or is not affected by the parameter.

1. The number of turns in a coil
2. The diameter of the wire in a coil
3. The magnetic flux density of the permanent magnet
4. The velocity of the magnet trough the coil.

Thanks.
 
Holchr said:
Thanks a lot universal. I got just one more question so I'd really appreciate help.

When a magnet passes trough a coil, there are three points of interest to me. The VOLTAGE, the CURRENT, and the EMF (lenz effect, or the force exerted on the magnet by the field of the induced current) (maybe some of this is wrong but bear with me).

So I wanted to know to which of the parameters of the system are VOLTAGE, CURRENT and the EMF proportional, and to which inversely proportional, or is not affected by the parameter.

1. The number of turns in a coil
2. The diameter of the wire in a coil
3. The magnetic flux density of the permanent magnet
4. The velocity of the magnet trough the coil.

Thanks.

The answers to most of your questions are covered by Lenz's Law:

http://en.wikipedia.org/wiki/Lenz's_law

Are you familiar with it yet?
 

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