---- Jones Beene <[EMAIL PROTECTED]> wrote:
...
> In the few milliseconds available - this can even happen more than
> once. The ultimate source of energy is Puthoff's ZPE which in
> theory maintains the stability of the k-shell and all the others
> "as well".
Jones,
...
> In the few milliseconds available - this can even happen more than
> once. The ultimate source of energy is Puthoff's ZPE which in
> theory maintains the stability of the k-shell and all the others
> "as well".
Jones,
I have a different idea on this. Frank Znidarsic
THE ATOMIC ENERGY LEVELS
Maxwell’s electromagnetic theory predicts that accelerating electrons should continuously emit electromagnetic radiation. Bound electrons experience a constant centripetal acceleration, however, they do not continuously emit energy. An atom’s electrons emit energy at discrete quantum intervals. The emission of such quanta can not be explained with any existing classical theory. Contemporary theory assumes that the gravitational force is always weak and ignores it. This is a fundamental mistake. During transition, gravitational flux quickly flows between the parent and daughter states. This rapid flow progresses by the way of a strong gravitomagnetic interaction. An animation has been provided below that illustrates the mechanics of a the transitional quantum state. A wave is shown propagating along through a series of masses. The spring must be stiff enough to push the masses. The spring constant is equivalent to the strength of a force field. During the quantum transition gravitational flux, electromagnetic flux, and nuclear flux are passed from the parent to daughter states. This interaction requires the springs (strengths of the fields ) to be strong and equivalent.ENERGY IN TRANSITION
This author’s theorem, “The constants of the motion tend toward the electromagnetic in a Bose condensate that is stimulated at a dimensional frequency of 1.094 megahertz-meters” describes the velocity of the transitional quantum state. It reveals that the energy levels of the atom are established as a condition of electromagnetic and gravitational accessibility.
