Radioactive decay. Large molecules will ‘decay’ by the emissions of particles and photons at seemingly random time intervals. If we are to believe in an ordered universe at all then we should not be satisfied with explanations involving the random fluctuations of quantum vacuum energy but instead look for a cause in the physical universe.
The solution proposed by Konstantin Meyl in his book Scalar Waves is that neutrinos from the sun will occasionally pass close to an atomic nucleus and the field disturbance thereby created will supply sufficient energy to destabilise the structure and result in the emission of a wave-particle.
This is causal now instead of random and can therefore be tested. If the decay rate depends upon neutrino density then any change in that density will result in an increase or decrease in decay rate.
Thousands of measurements made by Simon Shnoll confirm this hypothesis. Radioactive decay (right) varies according to the time of year and the phases of the moon. The Shnoll Effect
Atomic clocks are based upon such decay and we would therefore expect to see altered timekeeping during significant cosmic events such as eclipses. This turns out to be true with even clocks in the same laboratory losing synchronicity if they are aligned differently with respect to the sun.
Atomic clocks during eclipses The times on two caesium atomic clocks were compared and were seen to be generally in agreement except during an eclipse.
The two clocks were in the same laboratory but were oriented in different directions. This is unexplained by mainstream physics but is not at all surprising if we accept the physics of Konstantin Meyl.
Meyl puts the effect down to an additional energy input from solar neutrinos which become more focused when the sun, earth and moon are in alignment.
Further data from around the world support this correlation and the effect is so strong as to affect various Foucault pendulums around the world.
“The effect of an eclipse of the sun, to which for instance a Foucault pendulum reacts, can equally be traced back to the interaction of the neutrinos as the free energy.” – Scalar Waves p441.
The experiments of both Giorgio Piccardi (right) and Vlial Kaznacheev both showed that biological processes were affected by the season, phases of the moon and particularly by eclipses. The explanation given by Meyl is that biological systems will absorb energy from solar neutrinos and utilise it to their advantage.
The gravitational field of the moon act as a lens, focusing the neutrino stream on some parts of the Earth’s surface, creating ‘hot-spots’ of biological activity (not always beneficial).
From Meyl’s book:
The shadow of an eclipse follows a very precise path across the globe, making it ideal for investigating correlations between the neutrino stream and global events.
Meyl has linked variations in the neutrino stream and alteration in field vortices to both earthquakes and plagues as well as mere sleep disturbances:
“Whoever places himself in the centre line of the complete shadow on August 11, at first will detect a decrease of the neutrino radiation to 50 to 60 percent, then a steep increase to 2800 percent and from the summit again the whole backwards, while standing on the earth he turns by under the moving moon shadow. The ring with half the radiation, which reaches us first, doesn’t pose a problem since, as said, we only have half the radiation in every night. Some animals and plants as a result erroneously will set out for sleep.” – Scalar waves p. 417
“In the case of an eclipse of the sun effects on the biology, like problems with the heart among affected, at least can’t be excluded. If the scalar wave density increases above the density which is normal, then this has a positive effect on the economy of energy, as long as the body is capable to regulate the amount taken up. If the regulatory process however should fail . then the risk of a self-inflammation exists. “
“Also straw bales and other organic and inflammable materials could thus go up in flames.”
“But before that happens, first the information technical influence of the scalar waves will show. Here we have to expect a psychotronic influencing, which is showing in a limited ability of perception. History teaches us as an example that a by Thales of Milet predicted total eclipse of the sun at 28.5.585 B.C. compulsorily has ended a battle in Asia Minor between the Medes and the Lydians, because the soldiers apparently most literally had gone out of their mind” – Scalar waves p. 419
Death and war play dice about the fate of mankind during the
eclipse of the sun of 1562
There are in fact several papers on the effects of eclipses on health but results are patchy and research is struggling as they have no putative mechanism to investigate and so effects are assumed to be largely psychosomatic. Patients with schizophrenia appear to be particularly sensitive, showing both behavioural and physiological changes during the eclipse:
“Of the hormones studied, it is prolactin which showed an increase in titre associated with behavioural abnormalities in concerned patients during and immediately after the total solar eclipse.
“We find that over the six post eclipse days the previously increased titre of prolactin shows a tendency to come down gradually to the normal and behavioural abnormalities and symptoms like sleep disturbance, restlessness and anxiety were seen in patients” – Boral et al
Related pages:
References:
Meyl’s website
https://www.meyl.eu/
Scalar waves – Konstantin Meyl
https://www.researchgate.net/publication/242200443_Scalar_Waves_Theory_and_Experiments_1
Effects of total solar eclipse on mental patients; a clinico-biochemical correlation – Boral, Mishra, Pal, Ghosh
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3013169/
Lunar phase and psychiatric illness in Goa – Parmeshwaran, Patel, Fernandes
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2962285/