Magnetic Flux in Electricity
Sven Gelbhaar
23.05.2019
When an electric current is produced, so is a magnetic field. When electricity
is running towards something, a negative charge is observed. When electricity
runs away from something, a positive charge is exerted. But how could purely
negatively charged electrons exert a positive force?
The answer is simple. Much like with Radiation Pressure under Unified Force
Theory, the force of the current dislodges protons as well as spare electrons.
The protons are ‘heavier’ in that they trail behind their electron counterparts.
This would explain the phenomenon without fail, and is rather intuitive as
well.
The protons are ‘heavier’ in that they are still somewhat covered by electrons,
which of course repel those that comprise (the rest of ) the current, thereby
keeping the protons from moving along as readily as the electrons. This results
in the tail end (along with other portions of the current, here and there) being
positively charged.
The more resilient the transmission medium is to dislodging protons, say in a
lattice-like configuration such as with metals and water, the more conductive it
is regarding only electrons.
Again, further exploration is merited.