What Are the Similarities and Differences Between Magnetic and Electric Fields?

AI Thread Summary
Magnetic fields and electric fields exhibit distinct characteristics, with magnetic fields acting on ferromagnetic materials and electric fields influencing oppositely charged materials. Magnetic fields are inherently closed loops due to their dipole nature, while electric fields do not share this requirement. The discussion initially confused magnetic and electric flux with their respective fields, leading to clarification that flux refers to an integral over a surface. The distinction between fields and flux is crucial for understanding their behaviors. Overall, the conversation emphasizes the fundamental differences in how magnetic and electric fields interact with materials.
Revati
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Hello Group Members :smile:

I was needing some candid explanation or guidance on what are similarities and differences between magnetic flux and electric flux.

One thing I know of is that magnetic flux acts on ferromagnetic material whereas Electric flux acts on any oppositely charged material.

Another being that Magnetic flux is always a closed loop( as magnet is a dipole) where as this may not be necessarily true for electric flux.

This is what I can think of, I would really appreciate further comments for one or all of you.

Thanks and Regards,
Revati.
 
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Are you sure you're not confusing 'flux' and 'field'?

A flux is just an integral over a surface, and hence a number. It doesn't make sense to talk about it as being closed or not.

The characteristic of closure is a characteristic of the magnetic field however.
 
Feild or Flux

Thanks for clarifying.

Yes I admit that I was a bit confused when I said flux. I should have mentioned field instead.

Thanks and Regards,
Ravi
 
Thread 'Motional EMF in Faraday disc, co-rotating magnet axial mean flux'

Thread 'Motional EMF in Faraday disc, co-rotating magnet axial mean flux'

So here is the motional EMF formula. Now I understand the standard Faraday paradox that an axis symmetric field source (like a speaker motor ring magnet) has a magnetic field that is frame invariant under rotation around axis of symmetry. The field is static whether you rotate the magnet or not. So far so good. What puzzles me is this , there is a term average magnetic flux or "azimuthal mean" , this term describes the average magnetic field through the area swept by the rotating Faraday...
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