Nervous impulses seem to carry a great deal of information very efficiently with very little power supply and often from point to point as opposed to forming a complete circuit. This is inconsistent with electricity as being the transport medium but is instead characteristic of magnetic scalar waves as described by Konstantin Meyl,
Scalar waves can transmit information in parallel instead of in series, will conduct easier in an insulator than a conductive medium, need no complete circuitry and form self-stabilising vortices needing no error correction.
They are used in nervous conduction, vision and the sense of smell.
Shown right is an image of ‘standing waves’ similar to those on a plucked guitar. The waves shown are transverse but the same principle applies to longitudinal (scalar) waves. The wave system forms natural ‘nodes’ of zero amplitude whose position and spacing remain fixed and are a function of the frequency of the wave.
Konstantin Meyl is claiming that the neurons are conduits for magnetic scalar waves which are propagated through the myelin sheath as opposed to the interior of the axon. The spacing of the nodes on the axon thereby acting as a signals filter to ensure that only waves of a specific wavelength can be transmitted.
Noise is thus reduced and since the filter works both ways, a ‘mental workspace’ is created which insulates the brain from all but a selected subset of information.
Information is transmitted but no energy really flows as the wave never moves but slight modulations of the waveform are what carries the necessary information. This arrangement transmits signals from A to B with no need for a complete circuit or ‘earth’.
The idea of nervous impulses as electric currents is just horrible. Electricity needs a complete circuit, voltage to push it, creates heat, loses energy and needs a coding scheme for modulation. The idea of chemical reactions is no better as being much too slow to account for the observed effects and too crude to carry sufficient information.
In the case of scalar waves, the modulations ‘are’ the required information. These type of structures form a universal language for all living systems.
If the nerve is damaged it is easy to imagine that the remaining signal is instrumental in effecting repair for the system. The resonance determines the shape and the shape strengthens the resonance.
Many papers find that there is a relationship between the speed of propagation of nerve impulses and the thickness of the insulating sheath surrounding a nerve; the thicker the myelin sheath, the faster the signal propagation:
Local modulation of neurofilament phosphorylation, axonal caliber, and slow axonal transport by myelinating Schwann cells – de Waegh, Brady
https://pubmed.ncbi.nlm.nih.gov/1371237/
Thinner myelin sheaths around nerve fibres result in slower propagation of electrical signals whilst thicker sheaths result in faster propagation.
This is because electrical currents are really movement of magnetic ring vortices where the large proportion of energy is carried in the vortex movement in the insulating sheath with the ‘electrical’ current in the conductive interior showing an interesting side effect necessitated by the laws of field physics.
The distance between the nodes is related to the diameter of the nerve and the thickness of the sheath. This is because the whole nerve is a physical manifestation of an electrical phenomenon having certain field properties, resonant frequencies etc.
The template for the nerve is precisely the scalar wave structure that it will eventually host. The field precedes the physical nerve which is optimised to carry a current with similar properties.
The activities of the various bio-molecules involved are a reflection of the electromagnetic environment rather than being the primal cause of it.
Vision. Konstantin Meyl has identified the nerves as being transmitters of Scalar Waves via the myelin sheath so now Herzian waves (photons) must be rolled up into vortex shaped Tesla waves at some point for transmission to the brain.
“A good example is the human eye, the rods and cones of which merely can pick up potential vortices and pass them on to the nerves as so-called reaction potentials. Incident waves can only be detected, if they first have rolled up to vortices in the corpus vitreum of the eye.” – Meyl (Scalar Waves p. 475)
Note that nerve cells work via action ‘potentials’. A ‘potential’ is a ‘voltage ‘in electronics language and scalar waves contain their own ‘potential’. They are ‘mobile voltages’, a means of building up a potential difference and then transmitting it via a nerve and merging it into the field structure of general cognition.
Sense of Smell. “Molecules of odorants passing through the nasal passages dissolve in the mucus .. and are detected by olfactory receptors on the olfactory sensory neurons. ” – Wikipedia
So some sort of information is being passed from molecule to neuron. What form does this information take? How is it stored, ‘detected’ and transmitted?
Konstantin Meyl: “Does the bloodhound for instance interpret the vortical oscillations of chemical substances like lattice oscillations or the movements of the electrons in the atomic hull?” – Scalar Waves p. 189
Meyl is asking if the information representing smell is somehow stored in the physical structures of the molecule and is this the data that is somehow transformed to a neural impulse. Is there some kind of encylopaedia used to look up a set of molecular features (how would that even happen?) and translate them into electrical signals and are these signals again converted into some unique cognitive symbol before reaching the brain?
This all sounds very unlikely. The simplest explanation is that electromagnetic scalar waves are emitted by the odorant and are picked up directly by the olfactory neurons which already are instruments for the transmission of such waves. The scalar waves are transmitted unmodified to the brain where they can be amalgamated into the global cognitive system.
So a smell ‘is’ the information on a scalar wave.
No encyclopaedia is necessary and no conversion of signal from one format to another is needed. The scent itself proceeds unmodulated from flower directly to consciousness via the neurons.
We can’t have this system with electrical impulses as we would need a coding system from smell to signal and then back again when we reach the brain. The signal itself would need to be modulated somehow to carry the information which would need to be transmitted one ‘bit’ at a time. Electricity need a voltage supply and a complete circuit to work properly.
The structure of a scalar wave is suitable for use as an information carrier between and within all parts of biological systems.
Plato had the basic idea 2500 years ago: “As water (the potential vortex) turns into air (waves) or air (the wave) into water (potential vortices), the smells are formed during this transition, and smells are smoke or fog. But fog is the transition of air (waves) into water (vortices), the transition of water (vortex) into air (waves) however smoke“
Meyl: “Plato here provides an indisputable and conclusive interpretation of the fundamental field equation. In this equation the potential vortex acts as damping term in the wave equation, what in the case of waves rolling up to vortices will show to the observer in the way that the electromagnetic waves and therefore also the light will be damped. We say, the visibility gets worse and speak of fog. If the damping phenomenon disappears again, as the potential vortices break up, then Plato speaks of smoke.” Scalar waves p. 187
Sense of taste
The sense of taste is likewise provided for by a direct absorption of information-carrying field vortices. Small hairs at the surface of the tongue act as antennae for the electrical emissions and being contiguous with the nerves will convey the signals directly to the brain. Both smell and taste then are essentially the same sense and can easily be confused with each other.
“If the tongue while tasking responds to dissolved substances, then it not by all means needs to be a chemical excitation. Instead fine hairs, the taste hairs resp. sense pins, serve as receiver like in the case of the nose. The similar structure of the receptors and the circumstance that for most invertebrates sense of taste and sense of smell can’t be distinguished of each other at all and consist of the same primary sense cells, suggest that the tongue doesn’t analyse the chemistry as such, but only the molecular oscillation patterns, that also the taste is nothing else but vortex information!” – Konstantin Meyl (Scalar waves..)
References:
Scalar Waves – Konstantin Meyl
https://www.meyl.eu/go/index92d2.html
Sense of Smell – Wikipedia
https://en.wikipedia.org/wiki/Sense_of_smell