In the last post I explained how the electron turbulence has been interpreted for a long time as magnetism. When a field of electrons has curl magnetism is witnessed.
Ampere showed that when two wires had a common mode current they attracted each other. To understand why this happens we have to look at the telegraphers' equations. The inductive component of these equations means that some of the electrons that leave the wire curl. The curl of the even mode wires cancels out leading to dead curl or zero curl. There will be a random type motion to the electrons and they will scatter. There will be no support for more matter and this lack of matter will draw the wires together.
Ampere further showed that odd mode currents caused wires to move away from each other. When currents move in two different wires to oppose each other they generate an induced curl that adds. That is to say the curl is additive. With additive curl and more spinning in the electron field there is more support for positively charged ions. More matter in between the wires forces them apart.
Magnets with North and South poles have to be explained as well in terms of the forces they exert on one another. When a North pole meets a South pole both poles force the electron field to spin in the same manner. Although the poles are opposite the orientation is upside-down. The spins of the electron fields is the same. The tight spin of electrons ultimately attracts the bulk mass of the opposing magnetic pole leading to a force of attraction.
When a North pole meets another North pole or a South pole meets a South pole something different goes on. Each pole has an opposing pole and the spinning electron field will seek out the opposing pole as a sort of terminating point. When a North pole meets a North pole both poles will seek out a South pole for their electron curls to terminate in. The spinning electron field between the two North or South poles of the magnets will draw in matter (positive ions) causing the magnetic poles to repel.
The Ampere wires as well as permanent magnets attract each other and repel each other due to the spins or curls in the electron fields that surround the magnets.
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