Prof Dr Ing. Konstantin Meyl

Prof Dr Ing. Konstantin Meyl

Here we have summarized the statements that are fundamental for hi-fi technology from Meyl's extended physics from his publications. A brief discussion of his theory is given below.

"In addition to the transverse electromagnetic waves according to Heinrich Hertz, there are also longitudinally propagating waves according to Tesla."

This assumption is fundamental for the explanation of many physical and hearing phenomena in HiFi, because the longitudinal wave behaves differently and there are no special measuring devices for this type of wave. However, since Meyl only classifies the longitudinal waves as biologically relevant, measurements of Hertzian (transverse) waves are not proof of biologically relevant radiation. So we can only systematically infer this type of wave. If we only measure a low level of radiation (transverse wave), this does not mean that the biologically relevant radiation is really low. Cell phones, for example, emit both a transverse and a longitudinal component. This is because the antennas of the cell phones are too short for the wavelength to be emitted. One speaks here of antenna efficiency. The transverse wave and noise are radiated. According to Meyl, the noise is the longitudinal component. It is important to know that every wave around an antenna is first a ring vortex and a shock wave and only rolls off into the known transverse wave outside of the near field.

"Only the longitudinal wave is an energy wave."

The longitudinal electromagnetic wave, like the sound wave, is a shock wave. This forms all field lines between the transmitter and receiver. This means that all energy can be transferred from the transmitter to the receiver. In practical terms, this means that the law of distance does not apply here and even the smallest amounts of energy can lead to a biological / physical effect. We are discovering precisely this phenomenon en masse in medicine and building biology. Limit values ​​are now fundamentally called into question in both critical building biology and critical medicine.

"High-frequency longitudinal waves can hardly be shielded because they tunnel."

The special field line geometry from the transmitter to the receiver (like two pulled apart capacitor plates) makes it difficult to shield the longitudinal wave. This can be tested with cell phones, which have a high proportion of longitudinal waves. If you put a cell phone in a Faraday cage for microwaves such as a microwave, the cell phone can usually still be called. For this reason, shields in hi-fi systems are not always the effective weapon against the negative biological effects of interference from devices.

“Every vortex in conductors (eddy current) also has a vortex (potential vortex) in the dielectric. There is a duality of the vortices. "

Probably the most important discovery by Prof. Dr. K. Meyl for Vortex HiFi technology research is the vortex. Prof. Dr. K. Meyl sees all particles as eddies, but also as another stable state of a wave. There are also vortex pairs between vortices in conductors (eddy currents) and vortices in the dielectric, the potential vortices he discovered. The existence of potential vortices in the dielectric results in very complex active systems in devices that also interact over longer distances than was previously assumed. If a circuit has a low eddy current structure, it sounds better.

“The transition from a wave to a vortex and from a vortex to a wave is lossless. Both waves and eddies are then stable states! "

The transition from a wave to a vortex and from a vortex to a wave occurs through a field disturbance. This can be a magnetic or electrical, but also a dielectric disturbance (changes in the medium). The transition is lossless. That means, the vortex carries energy. Our E-field measurements also show the resolution of pontial vertebrae, as the field strength has decreased significantly after the treatment. Here the eddy has turned into a wave and has "carried away" the energy that had previously formed a hot spot.

"Waves can swirl at a field disturbance."

For Meyl, the occurrence of eddies is a law of nature. Eddy currents can be found in space (vacuum), in gases, liquids and also in solids (eddy currents). But Meyl also sees the elementary particles as vortices - as elementary vortices. Take, for example, the light wave that swirls to form the elementary vortex (particle) photon. This happens due to a field fault! This physical phenomenon is known as the duality of light. Here light is not a wave or a particle, but a wave and a vortex, which can merge into one another without loss. The experimental setup (field disturbance) determines whether light appears as a wave or as a particle. It is similar with the electron, which becomes a wave when tunneling and becomes a wave again after exiting the potential barrier. Classical physics has no explanation here. Quantum physics with its different point of view speaks here of the wave function for free particles. Meyl's vortex physics regards these effects as natural states of a wave.

The same principle that Meyl adopts for elementary particles and their duality - wave / vortex - he also sees in electromagnetic waves that roll up to a potential vortex due to field disturbances. Potential vortices can not only occur in the vicinity of antennas and conductors, but also generally at media boundaries if the conditions change for the wave. These can be magnetic fields or electric fields, but also materials that have a different permeability or permittivity to the previous medium. The biggest problem in our environment and in devices is the abruptly changing permittivity. In devices these are the circuit boards as well as the housing and in the environment all boundary surfaces of the room and here in particular underfloor heating (water) and glass panes with their 6-8- times higher pemitivity towards air. In addition to the field sources and transmitters, our main focus on spatial interference is at these points of the field interference. But even with cables, the insulation used is the medium that creates the potential vortex in connection with the air. As every developer knows, hi-fi has the ideal insulation material - air. There is no potential vortex formation here! If you compare the sound results of cables with the relative permittivity of the insulation to air, you will find that Meyl's theory also agrees with "musical reality" here!

The formation of eddies through a field disturbance is also one of the problems in scientific research into the biological effects of electrosmog. The experimental set-up determines whether eddies are created and thus whether electrosmog has any biological effect at all.

"Potential vortices contract and rustle and thus become biologically relevant."

According to Meyl, the potential vortices have the property of contracting. In ladders they represent the counter-vortex to the current vortex, which has the property of expanding. This contraction leads to a frequency transformation and generates a noise whose frequencies hit biological systems in their communication wavelength and are thus biologically relevant. Without this frequency transformation via the potential vortex there is no biological / musical effect! The nerve conduction cannot be disturbed. If pure transverse waves are generated during experiments and there is no turbulence, we have no effect. This can also be determined in HiFi with perfectly matching cable / plug combinations, if the wave resistances match and thus eddy currents and standing waves are reduced. Without a signal change, the music simply sounds more detailed and spatial. We have carried out a large number of experiments that confirm this assumption.

The picture below shows the transmission of nerve impulses as a potential vortex according to Meyl's theory. Disturbance is only possible with the wavelength of the laced rings. This frequency is also hit by the noise of the potential vortex and this creates a biological relevance. The graphic below comes from "Scalar waves in medicine" by Prof. Dr.-Ing. Konstantin Meyl.

Link to: Prof.Dr.Ing.K.Meyl: Physical basics for information processing in humans

Physical basics for information processing in humans

Link to Prof.Dr.Ing.K.Meyl: DNA and Cell Resonance (English)

Presented at the 2nd DNA World Congress in Dalian, China

http://www.k-meyl.de/go/Primaerliteratur/manuscript_4.pdf

Short video with Prof. Dr. Ing.Konstantin Meyl on bioresonance.

Video with Prof. Dr. Ing.Konstantin Meyl on bioresonance.

 

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