Well I have been doing some digging on how fast magnetic waves travel through metals based upon various wavelengths and it is, well, complicated to say the least. Let me start here with "The speed of electricity" from wikipedia.
https://en.wikipedia.org/wiki/Speed_of_electricity
Now I am not interested in how quickly the electric field travels along the current. They already provide the formulas for that. What I am interested in is in the next paragraph.
Now, I am interested in knowing how quickly it travels through something OTHER than empty space, like a conductive metal. I want to know how fast that would travel so I did some digging.
https://physics.stackexchange.com/questions/270476/does-the-medium-a-magnetic-field-is-propagating-through-affect-its-speed
But I can't use these equations because the electric constant for metals are infinity, and therefore I cannot use these calculations.
So then I was prompted by this link to look up the index of refraction of metals.
http://electron9.phys.utk.edu/optics421/modules/m1/emwaves.htm
So then I did and I found this reference:
https://refractiveindex.info/?shelf=3d&book=metals&page=copper
But these are correlated to extremely small wavelengths. The wavelengths I am trying to focus on are around oh say 60Hz to 11KHz.
Any thoughts, suggestions, or any other advise? Any help would be greatly appreciated.
