The law of biogenesis states that life cannot be created from nothing, it is always life that creates life. This profound statement can begin a series of questions into the scientific unknown relating to who or what created human life.
“Omne vivum ex vivo – all life is from life”
In 1952 German physicist Professor W.O.Schumann of the Technical University of Munich began attempting to answer whether or not the earth itself has a frequency –a pulse. His assumption about the existence of this frequency came from his understanding that when a sphere exists inside of another sphere there is an electrical tension that is created.
Since the negatively charged earth exists inside the positively charged ionosphere, there must be tension between the two, giving the earth a specific frequency. Following his assumptions, through a series of calculations he was able to land upon a frequency he believed was the pulse of the earth. This frequency was 10hz.
It wasn’t until 1954 when Schumann teamed up with another scientist (Herbert König) and confirmed that resonance of the earth maintained a frequency of 7.83 Hz. This discovery was later tested out by several scientists and confirmed. Since then The Schumann Resonance has been the accepted term used scientifically when one is looking to describe or measure the pulse or heartbeat of the earth.
Even though the existence of the Schumann Resonance is an established scientific fact, there remain few scientists who fully understand the importance of this frequency as it relates to life. In the 1920’s another German scientist, Hans Berger, built an EEG machine himself which led to the first ever recording of frequency transmitted by the brain. While this was a profound discovery on it’s own, it is when we link it to the Schumann resonance that we see an even more profound truth.
Dr. Anker Mueller, a colleague of Hans Berger, stumbled across Schumann’s published research results in the journal `Technische Physik.’ Upon reading Schumann’s results about the earths frequency, Dr. Anker Mueller was astonished to discover that the frequency of the earth was an exact match with the frequency of the human brain. Herbert König who became Schumann’s successor at Munich University, discovered and further demonstrated a clear link between Schumann Resonances and brain rhythms. He compared human EEG recordings with natural electromagnetic fields of the environment (1979) and found that the main frequency produced by Schumann oscillations is extremely close to the frequency of alpha rhythms.
Natural electromagnetic processes in the environment (I-IV), human EEG readings in comparison. Schumann oscillations (I) and the EEG a-rhythm, as well as locally conditioned fluctuations of the electric field (II) and the EEG d-rhythm, show a noticeable similarity in their temporal variation. – Herbert König, 1979
Research carried out by E. Jacobi at the University of Dusseldorf showed that the absence of Schumann waves creates mental and physical health problems in the human body. Professor R.Wever from the Max Planck Institute for Behavioral Physiology in Erling-Andechs, began a study where he built an underground bunker that completely screened out magnetic fields. He then got student volunteers and had them live in the bunker for four weeks where they were hermetically sealed in this environment. Throughout the four weeks, Professor Wever noted that the student’s circadian rhythms diverged and that they suffered emotional distress and migraine headaches.
Considering that they were young and healthy, no serious health conditions presented -which likely would not have been the case with older people or people with compromised immune systems. Wever then added the Schumann frequency back into the environment and the results were astonishing. After only a brief exposure to 7.8 Hz (the frequency which he had been screening out), the volunteer’s health stabilized. This demonstrated a direct link between humans and their connection with the pulse of the earth. This was later confirmed in 2011 by Luke Montanye who stumbled upon a discovery during research of water memory.
We go back to the statement that all life must come from life. This life was always believed to come from material forms like egg and sperm or spore and cell division. The professor showed that DNA sequences communicate with each other via frequency. Further, he was able to show that the frequency communication was so advanced that it was able to organize nucleotides, which are the ingredients that make up DNA, in such a way that it could make brand new DNA. While other previous studies were able to show this, Montanye did something different that no other study had done. He removed all DNA from the water and introduced a frequency. That frequency was 7.38 Hz, Schumann Resonance. When introduced, the test tubes were producing new DNA helixes. When the frequency was not present, no new DNA formed. Thus we have a link between Schumann Resonance and the creation of life.
Even though Schumann Resonance could be confirmed by measurements at the time of discovery, it is now much harder to detect that resonance due to the fact that our atmosphere is now heavily inundated with manmade radiation and various frequencies. This suggests that our wireless technologies of today are drowning out the natural signal our mental and physical body requires to function in a healthy way. Could this be a link to the increase in cancer cases over the past few decades? Considering the importance of the Schumann Resonance as it relates to health and the creation of life, one would assume our energetically polluted air space is certainly not helping.
Effective treatment with 7.83 Hertz pulsating magnetic fields
Schumann frequency and space travel
Astronauts returned to earth physically and mentally exhausted from the first space trips. Initially this so-called "space sickness" was a mystery. Researchers discovered the cause; unlike earth, space lacks a magnetic field. The solution was to provide, at great cost, the vitally important frequency of the earth’s magnetic field in space.
Schumann frequency – the "matrix of all life"?
The brain researcher Michael Hutchison calls 7.83 Hertz the electromagnetic matrix for all life on this planet, the frequency at which all life forms have developed and, until a few decades ago, the prevailing electromagnetic frequency at which all life took place. Artificially generated frequencies are increasingly interfering with our natural frequencies. The electricity network, for example, is now no longer regarded as harmless by a growing number of scientists. The effect of "electronic smog" will be an extremely explosive topic in future. The problem of external frequencies is that we can neither see, hear nor smell these with our normal senses. The example of the space travellers clearly shows the vitally important function of 7.83 Hertz for Man and life in itself
Schumann frequency and its effects on the body
The way the earth’s pulsating frequency operates can now be explained in detail. Applying the earth’s frequency to the human body has been shown in double blind studies and in practical application to have definite positive results with many disorders. The success of therapy with 7.83 Hertz pulsating magnetic fields very clearly demonstrates the importance of this frequency.
The human brain in a healthy state has also been shown to oscillate at 7.83 Hertz. Consequently our brains are in a natural state of resonance with the earth. The loss of this characteristic would result in not insignificant limitations to our vitality and health.
In just the same way the natural oscillations of water can be disrupted or superimposed by artificially generated frequencies. In addition the information-bearing structures can be destroyed on the long journey through the pipes. If this is the case, water can no longer fulfil its regulatory role in the body properly. The Schumann frequency is all the more important here.
On other planets and moons
The existence of Schumann-like resonances is conditioned primarily by two factors:
A closed, planetary-sized spherical [dubious] cavity, consisting of conducting lower and upper boundaries separated by an insulating medium. For the earth the conducting lower boundary is its surface, and the upper boundary is the ionosphere. Other planets may have similar electrical conductivity geometry, so it is speculated that they should possess similar resonant behavior.
A source of electrical excitation of electromagnetic waves in the ELF range.
Within the Solar System there are five candidates for Schumann resonance detection besides the Earth: Venus, Mars, Jupiter, Saturn and its biggest moon Titan. Modeling Schumann resonances on the planets and moons of the Solar System is complicated by the lack of knowledge of the waveguide parameters. No in situ capability exists today to validate the results.
The strongest evidence for lightning on Venus comes from the impulsive electromagnetic waves detected by Venera 11 and 12 landers. Theoretical calculations of the Schumann resonances at Venus were reported by Nickolaenko and Rabinowicz  and Pechony and Price . Both studies yielded very close results, indicating that Schumann resonances should be easily detectable on that planet given a lightning source of excitation and a suitably located sensor.
In the case of Mars there have been terrestrial observations of radio emission spectra that have been associated with Schumann resonances. The reported radio emissions are not of the primary electromagnetic Schumann modes, but rather of secondary modulations of the nonthermal microwave emissions from the planet at approximately the expected Schumann frequencies, and have not been independently confirmed to be associated with lightning activity on Mars. There is the possibility that future lander missions could carry in situ instrumentation to perform the necessary measurements. Theoretical studies are primarily directed to parameterizing the problem for future planetary explorers.
Detection of lightning activity on Mars has been reported by Ruf et al. . The evidence is indirect and in the form of modulations of the nonthermal microwave spectrum at approximately the expected Schumann resonance frequencies. It has not been independently confirmed that these are associated with electrical discharges on Mars. In the event confirmation is made by direct, in situ observations, it would verify the suggestion of the possibility of charge separation and lightning strokes in the Martian dust storms made by Eden and Vonnegut  and Renno et al. . Martian global resonances were modeled by Sukhorukov , Pechony and Price  and Molina-Cuberos et al. . The results of the three studies are somewhat different, but it seems that at least the first two Schumann resonance modes should be detectable. Evidence of the first three Schumann resonance modes is present in the spectra of radio emission from the lightning detected in Martian dust storms.
It was long ago suggested that lightning discharges may occur on Titan, but recent data from Cassini–Huygens seems to indicate that there is no lightning activity on this largest satellite of Saturn. Due to the recent interest in Titan, associated with the Cassini–Huygens mission, its ionosphere is perhaps the most thoroughly modeled today. Schumann resonances on Titan have received more attention than on any other celestial body, in works by Besser et al. , Morente et al. , Molina-Cuberos et al. , Nickolaenko et al.  and Pechony and Price . It appears that only the first Schumann resonance mode might be detectable on Titan.
Since the landing of the Huygens probe on Titan's surface in January 2005, there have been many reports on observations and theory of an atypical Schumann resonance on Titan. After several tens of fly-bys by Cassini, neither lightning nor thunderstorms were detected in Titan's atmosphere. Scientists therefore proposed another source of electrical excitation: induction of ionospheric currents by Saturn's co-rotating magnetosphere. All data and theoretical models comply with a Schumann resonance, the second eigenmode of which was observed by the Huygens probe. The most important result of this is the proof of existence of a buried liquid water-ammonia ocean under few tens of km the icy subsurface crust.
Jupiter and Saturn
Jupiter is one planet where lightning activity has been optically detected. Existence of lightning activity on that planet was predicted by Bar-Nun  and it is now supported by data from Galileo, Voyagers 1 and 2, Pioneers 10 and 11 and Cassini. Saturn is also confirmed to have lightning activity. Though three visiting spacecraft – Pioneer 11 in 1979, Voyager 1 in 1980 and Voyager 2 in 1981, failed to provide any convincing evidence from optical observations, in July 2012 the Cassini spacecraft detected visible lightning flashes, and electromagnetic sensors aboard the spacecraft detected signatures that are characteristic of lightning. Little is known about the electrical parameters of Jupiter and Saturn interior. Even the question of what should serve as the lower waveguide boundary is a non-trivial one in case of the gaseous planets. There seem to be no works dedicated to Schumann resonances on Saturn. To date there has been only one attempt to model Schumann resonances on Jupiter. Here, the electrical conductivity profile within the gaseous atmosphere of Jupiter was calculated using methods similar to those used to model stellar interiors, and it was pointed out that the same methods could be easily extended to the other gas giants Saturn, Uranus and Neptune. Given the intense lightning activity at Jupiter, the Schumann resonances should be easily detectable with a sensor suitably positioned within the planetary-ionospheric cavity.
More about Professor W.O.Schumann
Winfried Schumann was born in Tubingen, Germany, the son of a physical chemist. His early years were spent in Kassel and in Berndorf, a town near Vienna. He majored in electrical engineering at the Technical College in Karlsruhe. In 1912 he gained a doctorate with high-voltage technology as his thesis.
Prior to the First World War, he managed the high voltage laboratory at Brown, Boveri & Cie.
During 1920, he was made a professor at the Technical University in Stuttgart, where he had previously been employed as a research assistant. He subsequently took a position as professor of physics at the University of Jena. In 1924, he was made professor and director of the Electrophysical Laboratoy at the Technical University of Munich.
The Munich laboratory subsequently became the Electrophysical Institute, where Schumann continued working until retiring from active research in 1961 at the age of 73, though he continued teaching for a further two years. Schumann was 86 years old when he died on September 22, 1974.
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