Magnetism
Posted: Tue Jun 19, 2018 12:07 pm
I have been running some experiments on magnetism (ferro and EM), and have noticed something interesting... an electromagnet works faster than a ferromagnet. These "lines of force" appear to be propagating at different rates, the EM at the speed of light, and the ferromagnetic about 2/3rds of that.
Going back to Eric Dollard's research, I found references that dielectric lines of force run about 1.5x faster than light. 1.5 is close to 1.57, or π/2, which would be the angular velocity of a dielectric "line," if treated as an angular velocity, rather than a linear one. After all, an electron is a rotating unit of space.
The magnetic "line" of force would also be angular, but a solid angle and therefore motion would be distributed further, making it go slower. It hit me that 2/π is about 2/3rds... the reciprocal of π/2.
I suspect that the speed relations between dielectric speed (ψ), magnetic (ϕ) and electromagnetic (φ) is this:
. .
And that electromagnetic radiation is the cross-product of the dielectric and magnetic lines of force.
In vector notation: [0,π/2,0] × [0,0,2/π] = [1,0,0] -- EM radiation moves at the speed of light. (π being the natural unit of rotation.)
Going back to Eric Dollard's research, I found references that dielectric lines of force run about 1.5x faster than light. 1.5 is close to 1.57, or π/2, which would be the angular velocity of a dielectric "line," if treated as an angular velocity, rather than a linear one. After all, an electron is a rotating unit of space.
The magnetic "line" of force would also be angular, but a solid angle and therefore motion would be distributed further, making it go slower. It hit me that 2/π is about 2/3rds... the reciprocal of π/2.
I suspect that the speed relations between dielectric speed (ψ), magnetic (ϕ) and electromagnetic (φ) is this:
. .
And that electromagnetic radiation is the cross-product of the dielectric and magnetic lines of force.
In vector notation: [0,π/2,0] × [0,0,2/π] = [1,0,0] -- EM radiation moves at the speed of light. (π being the natural unit of rotation.)