Eddy Currents: Understanding Lenz's Law

In summary, eddy currents are induced in metal plates using Faraday's Law, typically through a changing magnetic field. They can also be generated in a metal plate moving in a non-uniform magnetic field. Eddy currents create small swirls in the metal plate that oppose the force exerted on the plate, and can also result in heating. To address this issue, transformer laminations use grain-oriented steel and materials with higher resistivity to reduce eddy currents. Eddy currents can be generated in any conductor, including non-magnetic materials like aluminum and copper.
  • #1
elitewarr
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I don't really understand what is eddy current. Is it just the current that is formed using Lenz's law? Or is it different? My idea of eddy current is that it is of many small swirls all over a metal plate that opposes the force exerted to move the plate.

Thank you.
 
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  • #2
Exactly. Eddy currents are induced in metal plates by Faraday's Law, usually dB/dt. Also, as you point out, eddy currents can be generated in a metal plate moving in a non-uniform magnetic field. There are many many swirls, as you also point out. The eddy currents not only reduce the magnitude of B (per Lenz's law), but also create heating. The heating is often the more important problem, like in transformer laminations. This is why transformer laminations not only have grain-oriented steel to improve the magnetic properties (including lower hysteresis losses) but also have higher resistivity to reduce the eddy currents. Eddy currents can be generated in any conductor, including non-magnetic materials, like aluminum and copper (including copper wires).

Bob S
 
  • #3
ooh. Thanks very much!
 

1. What are eddy currents?

Eddy currents are circular electric currents that are induced in a conductor when it is exposed to a changing magnetic field.

2. How are eddy currents different from normal electric currents?

Eddy currents are different from normal electric currents because they are induced by a changing magnetic field, rather than by a direct electric current.

3. What is Lenz's law and how does it relate to eddy currents?

Lenz's law states that the direction of an induced current will always oppose the change in the magnetic field that caused it. In the case of eddy currents, this means that the direction of the current will create a magnetic field that opposes the original changing field.

4. What are some practical applications of eddy currents?

Eddy currents have many practical applications, including use in metal detectors, electromagnetic brakes, and induction heating in manufacturing processes.

5. How do eddy currents affect the efficiency of electrical devices?

In some cases, eddy currents can cause energy loss and reduce the efficiency of electrical devices. For this reason, steps are often taken to minimize the effects of eddy currents, such as using laminated cores in transformers to prevent current flow in undesirable directions.

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