Electromagnetic induction; bike dynamo

In summary, the bike dynamo contains a permanent magnet that can rotate, and a single coil of copperwire is surrounding the magnet. A single coil of copperwire is surrounding the magnet and it works when a south pole is moved inside the coil. Can anybody explain why?
  • #1
Xalt
5
0
Hi,

I am trying to learn more about electromagnetic induction because I want to build a generator for a wind turbine. I am a bit confused about something, hopefully someone out there can help me!

I recently opened a bike dynamo. It contains a permanent magnet that can rotate, and the magnet has 4 north poles and 4 south poles (I figured that out using another magnet); see attached drawing. A single coil of copperwire is surrounding the magnet. Now what I understood is that if a south pole is moved inside a coil, it should give rise to a current that has a direction opposite to a current initiated by the same movement of a north pole. That would mean that at any given timepoint, there should always be an equal amount of current trying to flow from both directions, resulting in no net current. Yet it works! Can anybody explain why??
 

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  • #2
Xalt said:
I am trying to learn more about electromagnetic induction because I want to build a generator for a wind turbine. I am a bit confused about something, hopefully someone out there can help me!

I recently opened a bike dynamo. It contains a permanent magnet that can rotate, and the magnet has 4 north poles and 4 south poles (I figured that out using another magnet); see attached drawing. A single coil of copperwire is surrounding the magnet... Can anybody explain why??

Xalt, I'm sure that you have not got the orientation of the coil and the magnet poles correct.

The coil will be wound on an iron former in vertical 'segments', like eight coils in series. These are wound alternately in opposing directions so that the currents caused by motion of north and south poles past each coil add.

Since you have it apart, look carefully at the winding, unwind it if you have to so that you can see how it is arranged.
 
  • #3
Hi Pogo,

thanks for your reply. I checked it again, and it is like I drawed it before; I unwound the whole thing, and it is a single coil of copperwire surrounding the magnet as in my previous post. I did not mention that there are 8 iron "clamps" that hold the coil in place (see attachment for another of my great drawings). I think they also serve as cores to increase magnetic flux. However, since there are 8 of them (equally spaced), it still doesn't tackle my point as far as I can see...

Xalt
 

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  • #4
Xalt said:
Hi Pogo,

thanks for your reply. I checked it again, and it is like I drawed it before; I unwound the whole thing, and it is a single coil of copperwire surrounding the magnet as in my previous post. I did not mention that there are 8 iron "clamps" that hold the coil in place (see attachment for another of my great drawings). I think they also serve as cores to increase magnetic flux. However, since there are 8 of them (equally spaced), it still doesn't tackle my point as far as I can see...

Xalt

Thanks for the updated drawing, Xalt. The 8 clamps are part of the magnetic circuit, and couple the changing magnetic field (as the rotor rotates) to the winding. I'll check the details with someone I know who is more involved in machines, but I think that the structure changes the rotating flux to a radially alternating flux. that alternation induces an alternating current in the winding.
 
  • #5
Yes to all, except the rotating magnet induces a voltage (not a current) in the stator coil. The operation is based on Faraday's law. You will get the highest voltage out when the dynamo output (an ac voltage) is not attached to anything.
Bob S
 
  • #6
Hi Xalt.

My motors man sent me this: "It is like a car claw-pole alternator except the rotor uses magnets and the claw-pole is used on the stator (instead of the usual copper-wound field coil on the rotor in a car alternator). Alternate fingers of the claw capture flux from all poles of one sign, e.g. all the N poles, then all the Sth poles, etc - giving alternating flux linking the coil (hence ac voltage).
"

My clumsy explanation of coupling the rotating magnetic field to a radial pulsating field is right though. I hope that it helps you understand.

Pogo.
 
  • #7
Thanks for your answers Pogo and Bob! And thanks for asking to the motor man too... :)

Xalt
 

Related to Electromagnetic induction; bike dynamo

What is electromagnetic induction?

Electromagnetic induction is the process of generating an electric current through the movement of a magnetic field. This can occur when a conductive material, such as a wire, is moved through a magnetic field, creating a voltage and thus an electric current.

How does a bike dynamo work?

A bike dynamo works by converting mechanical energy, provided by the rider pedaling, into electrical energy. This is achieved through the use of electromagnetic induction, where the rotational movement of the bike's wheel turns a magnet inside the dynamo, creating a changing magnetic field that induces a current in the surrounding wires.

What are the practical applications of electromagnetic induction?

Electromagnetic induction has many practical applications, including power generation in hydroelectric dams and wind turbines, as well as in everyday devices such as electric motors and generators. It is also used in wireless charging technologies and induction cooktops.

What is the difference between AC and DC current in a bike dynamo?

A bike dynamo typically produces AC (alternating current) electricity, where the direction of the current changes periodically. This is because the movement of the bike wheel creates a changing magnetic field. However, some modern bike dynamos may also have a rectifier, which converts the AC current into DC (direct current) for use in electronic devices.

Can a bike dynamo be used to charge a battery?

Yes, a bike dynamo can be used to charge a battery. This is because the dynamo generates electricity, which can then be stored in a battery for later use. However, the amount of electricity generated by a bike dynamo may not be enough to fully charge a battery, so it may take several rides to fully charge it.

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