Chernobyl Disaster and St. Petersburg Smelter Accident: What You Don't Know About Ether Drift CAN Hurt You
Abstract. Earth and Moon orbital positions near ellipse axes, standstills or nodes, combined with collinearity of Earth, Moon and Sun, create symmetries which facilitate field-to-ether interaction. The interaction creates new matter according to a trivial differential equation. At the time of the accident, Chernobyl's speed in the sun's frame caused resonance between the external electric field of the uranium nucleus, and the ether drift, providing the energy for lepton pair production to, perhaps, 0.01% accuracy.
Introduction. "Ether drift" is a term subsuming a multifaceted phenomenon. The Global Positioning System, and Michelson-type experiments utilizing high vacuum and metal shielding, provide negative ether drift results to high accuracy. On the other hand, the unshielded experiments of Michelson/Morley, Morley/Miller, Miller ("MMM") and Galaev provide mutually consistent positive ether drift results. The MMM results agree with the component of the solar apex motion parallel to Earth's axis; they also reflect the other component of solar apex motion, and Earth's orbital motion, though with phase lags and reduced amplitudes. The question, "Is there an ether drift?" is too simplistic to be correctly answered with either a "yes" or a "no".
Astronomical symmetry and the ether drift. The unexpected energy surge initiating the Chernobyl accident occurred at 1:50 AM Daylight time, April 26, 1986. The smelter splash at the St. Petersburg reactor facility occurred on the morning of Dec. 15, 2005; 10 or 11AM Standard time would be a good guess. Three symmetry conditions (Earth and Moon near orbital ellipse axes, and lunar node aligned with those axes) were all roughly satisfied at both times. For statistical significance, this gives p<0.1 for each separately and p<0.01 for both together. The additional symmetry condition, full (or new) moon, gives p=0.07 separately, p=0.005 together, and p<0.00005 overall, for the unusual astronomical symmetry present at these times.
Electromagnetic waves are reversible. A moving, Lorentz-contracted electric field looks the same when its motion is reversed. When the geometry of the gravitational field is degenerate (collinearity of gravitating bodies) and the geometry of the trajectory is locally degenerate (stationary curvature near ellipse axes), the external electric field of a nucleus can reverse its direction of motion relative to the ether.
The differential equation for particle production by the ether. As the direction of motion of the external nuclear electric field, relative to the ether, changes as a unit from forwards (t=0) to backwards (t=1) to forwards again (t=2), momentum is conserved by the generation of new field in the vicinity, having appropiate momentum. This new field in turn generates new field by the same mechanism. If y is the new field momentum present, the differential equation is:
y' = 1 + y; y(0)=0; by separation of variables (or by the substitution u=1+y), y(2)=e^2-1.
So the new field momentum after one cycle is e^2-1 times twice the original external nuclear field momentum.
Fit to the data. Using a net orbital speed (including Earth's rotation and lunar orbit) for Chernobyl of 29.862 km/s, a root mean square charge radius for uranium-238 of 5.8587 fm, and a step-function approximation for the nuclear charge distribution, one finds that the new momentum generated by one of the above cycles, exceeds by only 0.40%, the internal momentum, 2mc, of an electron (and/or positron) pair.
The Fermi distribution, using the typical value a=0.55, exceeds 2mc by 2.92%. However, 4/137.036=2.92%. That is, consideration of the field of this presumed new double particle of mass 2m and charge 2q, which momentarily exists before splitting in two, maximally compressed according to the Heisenberg uncertainty principle, produces agreement to the nearest 0.01%.
I approximately calculated the effect of nuclear skin thickness: the error from neglecting it altogether, is 1%, in rough agreement with the above, and is quadratic. So, if one optimistically assumes that the error of the Fermi function is 1/10 that of the step-function, an accuracy of (2.9-0.4)/10^2=0.025% occurs.
The splash accident. Although the molten metal involved in the fatal splash accident in December was essentially nonradioactive, some uranium contamination is likely. For example, commercial manufacturers of unleaded bronze cite the actual lead content as 0.3%, presumably due to use of the same equipment to produce leaded bronze. A temperature of 1000 degrees centigrade would afford a Maxwellian speed distribution peak, for uranium atoms, of 0.8% of Earth's orbital speed. This would enable resonance with the ether, as described above, to occur for some atoms, despite Earth's nonoptimal net orbital speed.
Venus and Mars. The aberrant temperature of Venus is believed to be partly due to the greenhouse effect, but part could be from internal heat generation. Resonance and lepton production could occur for commoner nuclei with charge about equal to that of lead. The circular orbit and lack of moon would afford greater symmetry, facilitating the ether interaction. Mars is too slow to achieve the ether-nucleus interaction at all, which could explain its geologic and magnetic dormancy despite Earthlike structure and rotation.
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