How does an electric field create a magnetic field and relativity

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An electric field does not create a magnetic field, nor does a magnetic field create an electric field; they exist interdependently under time-varying conditions. According to Einstein's 1905 paper on electrodynamics, neither field is primary or fundamental. When moving at the same speed as an electric field, one would not perceive a magnetic field due to their perpendicular relationship, but the electric field would appear stationary. The discussion emphasizes the importance of understanding the interrelated nature of electric and magnetic fields in the context of relativity. This foundational principle remains relevant in modern physics.
sameeralord
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Hello everyone,

How does an electric field create a magnetic field. If we move at the same speed in the direction of the electric field would we see a magnetic field. Would we still see it because it is perpendicular but we would see the electric field not moving so not sure.

Thanks! :smile:
 
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The electric field does not "create" the magnetic field. Nor does the magnetic field, H, create the electric field, E. Under time-varying conditions, E & H cannot exist independently. Wherever there be one, so there be the other. There is no pecking order.

In his 1905 paper "On The Electrodynamics Of Moving Bodies", Albert Einstein stated that neither E nor H is the "seat". "Seat" means "root, basis, primary, main, fundamental, canonical." etc. To this day that position has been affirmed.

If you search my post history, I did upload the paper some time ago. Read it and maybe AE himself can answer your question. When it comes to relativity, he is the horse's mouth.

Claude
 

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I was using the Smith chart to determine the input impedance of a transmission line that has a reflection from the load. One can do this if one knows the characteristic impedance Zo, the degree of mismatch of the load ZL and the length of the transmission line in wavelengths. However, my question is: Consider the input impedance of a wave which appears back at the source after reflection from the load and has traveled for some fraction of a wavelength. The impedance of this wave as it...
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