Understanding the Fundamentals of Eddy Currents: Explained Simply

In summary, the conversation was about understanding eddy currents and how they work, particularly in the context of brakes. The concept was explained as a short circuit in an electrical generator, causing the mechanical load of a short circuited generator to create the braking effect. The person initially misunderstood the explanation on Wikipedia but clarified their understanding in the end.
  • #1
Pseudo Epsilon
103
0
hi all. I understand wikipaedias explination of eddy currents but could someone please explain more fundamentaly how they work. Thanks in advance :)
 
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  • #2
The Wikipedia Explanation seems pretty good. What are you not understanding?
 
  • #3
could you explain how in brakes they cause energy loss at such a high rate?
 
  • #4
and explain it in qed possibly.
 
  • #5
The simplest way of thinking about them is to consider that a wheel that is braking is cconfigured as an electrical generator. Then imagine a short circuit across that generator and the eddy currents flow through that short circuit. The braking is then caused by the mechanical load presented by a short circuited generator.

It does not look like a generator,, because in a normal genera to we want to use the electrical supply externally.
 
  • #6
thanks, i misunderstood first time i read the wiki.
 

What are eddy currents?

Eddy currents are circular electric currents that are induced in a conductive material when it is placed in a changing magnetic field. They are also known as Foucault currents.

How are eddy currents created?

Eddy currents are created when a conductive material, such as a metal, is exposed to a changing magnetic field. This can be caused by moving a magnet near the material or by changing the strength of an electromagnet.

What is the purpose of eddy currents?

Eddy currents have various applications, including in non-destructive testing, magnetic braking, and induction heating. In non-destructive testing, eddy currents can be used to detect defects or flaws in conductive materials. In magnetic braking, they can be used to slow down or stop moving objects. In induction heating, eddy currents can generate heat in a conductive material without direct contact.

How do eddy currents affect conductive materials?

Eddy currents can cause a conductive material to heat up, which can be beneficial in applications such as induction heating. However, they can also cause energy loss and unwanted heating in electrical circuits, which is why they are often minimized or controlled in these systems.

How can eddy currents be reduced or controlled?

Eddy currents can be reduced or controlled by using materials with high electrical resistance, such as laminated or coated metals. Another method is to use materials with low magnetic permeability, which reduces the ability of eddy currents to form. Additionally, the shape and orientation of the conductive material can also affect the strength of eddy currents.

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