Chris
posted this
21 October 2020
- Last edited 22 October 2020
Hey Munny and all,
In reference to: "architecture and design", this is a good point!
The Magnetic Field is Symmetrical in its conventional, natural form. This is important. Two Magnetic Fields opposing, in their Natural form are relatively Symmetrical also. Ideally, building Symmetrical Machines "May" be ideal, but I can not say this for sure!
In my video series, I have shown Symmetry between the Magnetic Fields:

One Coil on each side of the Core, in an even, symmetrical path, equal distance each side.
I want to stress, this is not essential, not critical! However, could be beneficial due to the following reasons:
- A Magnetic Field has two Poles, North and South and generally there is Symmetry between them.
- The Interaction between two Magnetic Sources, may be better to Act, React and Counter-React with each pole at the same time in the same space.
- Simultaneous Interactions at each Pole, may double the total Voltage, compared to a single Pole.
I believe there are interactions that extend past the boundary of the Magnetic Field! Observing this simulation by MIT:
Noticing, that the Magnetic Field Lines never actually touch each other, one must wonder, what makes the Electrons in the Wire act under this external influence? The A Vector Potential is the answer!

Number of atoms = N * density * volume / Molecular Weight
Ref: How many atoms are in the human head?
The Mass of 1 Mole of Copper is 63.546 grams, and there are 6.022 * 1023 Atoms per Mole. There are 29 Electrons per Atom!
One Cubic Centimeter of Copper = 8.94 grams per cubic centimeter.
In one Cubic Centimeter of Copper, we have: 84720800679822500000000 Atoms x 29 gives us: 2,456,903,219,714,852,500,000,000 Electrons!
If we were to extract these Electrons in One Second, we would have: 393734.490338919 Amperes!
This is according to the current definition of the Ampere of: 6.24 x 1018 Electrons per Second = 1 Ampere.
We can see, according to Science, we have a massive amount of Energy in Mass and this is already known! All we need do is use it!
Best wishes,
Chris