Bruce,
Can paired electrons capture a photon to become
charged, paired electrons?
How would they differ from the "trinity", charged,
paired electrons?
What would an arc likely be composed of?
Phillip
Bi-rotating Electrons
Re: Bi-rotating Electrons
Phillip wrote:
The question arose about dimensions from one of Nehru's papers, where he discovered 4th-power relationships in the time region. In the plain "Euclidean" context of RS, this would require a 4-dimensional system. But when the concept of "counterspace" (polar space) is introduced, the situation may just be three POLAR dimensions (as in the quaternion), with dimensionality of t2, t3 and t4. If you notice, there is no t1 (linear), because you can't have a line in polar space--the minimum construct is a rotation.
Phillip wrote:
Under "abnormal" conditions, charged, paired electrons can be formed resulting in structures such as ball lightning and the "cold electric" effects of Edwin Gray.
I believe the "ball lightning" effects created by Kiril Chukanov we witnessed a couple years ago fall into this "abnormal" condition, as does Tesla's capacitor "light bulbs".
If there are only 3 dimensions available, then no. When captured, it would add to the existing electron motion because there are no dimensions available for it to exist independently. I will add the caveat that there may be 4 dimensions in the time region, which would change the case for the uncharged electron pairs, because it would leave 2 free dimensions.Can paired electrons capture a photon to become
charged, paired electrons? How would they differ from the "trinity", charged,
paired electrons?
The question arose about dimensions from one of Nehru's papers, where he discovered 4th-power relationships in the time region. In the plain "Euclidean" context of RS, this would require a 4-dimensional system. But when the concept of "counterspace" (polar space) is introduced, the situation may just be three POLAR dimensions (as in the quaternion), with dimensionality of t2, t3 and t4. If you notice, there is no t1 (linear), because you can't have a line in polar space--the minimum construct is a rotation.
Phillip wrote:
Under normal conditions, charged electrons (St. Elmo's fire). It would normally be a spherical distribution of discharge, but then you have to account for the other conductor, which gives the electrons a place to go, forming the arc.What would an arc likely be composed of?
Under "abnormal" conditions, charged, paired electrons can be formed resulting in structures such as ball lightning and the "cold electric" effects of Edwin Gray.
I believe the "ball lightning" effects created by Kiril Chukanov we witnessed a couple years ago fall into this "abnormal" condition, as does Tesla's capacitor "light bulbs".
Every dogma has its day...