OP "junglelord"
Water is a good illustration. Meyl calls it the Hydromagnetic Field. As we already have worked out, the hydrotic field is favoured particularly by polar materials and by a high dielectricity. Water is a corresponding and in the biosphere of our planet dominating material.
Longitudinal Magneto Dielectric Energy travels as a Potenial Vortex in this Field. In this point vortex fields clearly differ from the transverse propagating electromagnetic waves!
The electron and the positron are both vortex fields of opposite rotation. The electron/positron vortex pair can account for all particles and the two particle Photon. Without potential vortices no stability, no matter, no energy nor information would exist!
It reveals to us a basic principle basing on duality in which the dual partners mutually dictate target values and goals. This principle convinces by its simplicity and efficiency.
Apart from the "self regulation" it obviously also has the fundamental possibility of a "self organization" and the "generation of information". The field equations of the hydromagnetic field thus are the starting-point for the formation not only of matter and energy, but also of information.
Information is nothing but a structure of electromagnetic vortex fields!
Only the vortex and not the wave exists in two forms of formation dual to each other, and the principle of duality again is the prerequisite for the formation of information, of self organization and finally for the evolution.
But how can this so important duality occur, how can it form? This question is closely associated with the question of the formation of vortices. The electromagnetic wave serves solely the mediation of information and energy.
To fully complete the theory we can now explain temperature and kinetic energy with the Vortex Hydromagnetic Field.
Temperature
Following the atomic view, in the case of heat it concerns kinetic energy of the molecules, which carry out more or less violent oscillations. In the case of gaseous materials with this concept, basing on mechanical models, actually successful calculations are possible, like for instance the speed distribution of gases won by Maxwell from theoretical considerations concerning probability.
But the attempt to apply the formulas of the kinetic theory of gases to solids and liquids only succeeds, if additional supplements and improvements are introduced. Since at all events it concerns temperature, thus the same physical quantity, of course also an uniform
interpretation should be demanded, which in addition should stand in full accord to the presented design of an integrated theory (TOE).
Against the background of the new theory of objectivity we consider, what happens, if for instance the local field strength is increased by a flying past particle. The matter located at this point is contracted for a short time. By coming closer to each other, the individual elementary vortices mutually reinforce their field and are further compressed. Sometime
this process comes to a standstill, is reversed and swings back.
At the same time every single particle, which in this way carries out an oscillation of size, has an effect on its neighbours with its field, to also stimulate these to the same oscillation, but delayed by some time. This phenomenon spreads in all directions. The propagation only will become stationary, if all neighbouring elementary vortices pulsate with the same
amplitude. It now should be recorded:
The oscillation of contraction of the elementary vortices we call temperature.
Also this thermodynamic state variable therefore is a result of the variable speed of light. At the absolute zero of temperature no oscillation takes place anymore, whereas the upper limit lies in infinity. Since the cause for temperature represents an oscillation of the local electromagnetic field strength around the cosmic field strength, the following phenomena must be considered as excitation and cause, as dictated by the fundamental field equation 5.7:
1. Electromagnetic waves (b) are able to stimulate matter particles to synchronous oscillations of contraction by their alternating field. In doing so energy in form of heat is transferred to the particles, with the result that their temperature is increased. The wave is absorbed completely, if the thermal oscillation corresponds with the frequency of the wave. We speak of thermal radiation.
2. But also the two dual vortices, the eddy current (c) and the potential vortex (d) can cause oscillations of contraction. This immediately becomes clear, if we consider a vortex as the special case of the wave, in which the oscillation takes place around a more or less stationary vortex centre. In the case of the decay of vortices, of the transition of energy from vortices to matter, the increase in temperature is measurable. In the case of this process of diffusion we speak of eddy losses and of loss heat.
unified theory
3. Flying past particles, in particular unbound and free movable charge carriers (e) produce an alternating field for other fixed particles. Doing so kinetic energy can be transformed in temperature, thus in energy of pulsation. A good example is the inelastic collision. But it can also be pointed to numerous chemical reactions. Whoever searches for a concrete example, takes two objects in his hands and rubs them against one another. In that case the particles which are at the frictional surfaces are being moved past each other in very small distance, in this way causing oscillations of pulsation, which propagate into the inside of the objects according to the thermal conductivity. We speak of friction heat.
This model concept provides sound explanations for a whole number of open questions
i.e. why the temperature occurs independent of the state and even in solids, where a purely kinetic interpretation fails. Every single elementary particle after all is carrier of a temperature. With increasing temperature most materials expand, because the need for room, purely geometrically seen, increases for larger amplitude of oscillation. This principle is used
in the case of a bi-metal thermometer.
In the case of solids the thermal oscillation of size is passed on primarily by the electrons in the atomic hull. Good electric conductors therefore at the same time also have a high thermal conductivity. An example of an application is the electric resistance thermometer.
In the case of gases the entire atoms carry out this task, for which reason a kinetic theory becomes applicable as an auxiliary description. For extreme amplitudes of oscillation the atoms partly or entirely lose their enveloping electrons, when they change into the plasma state.
Finally the model concept even limits the second law of thermodynamics, which contains the postulate that it is impossible to design a cyclic working machine, which does nothing else, as to withdraw heat from a heat container and to convert it into mechanical work.
Heat energy
The discussed oscillation of contraction shows two characteristic properties, which must be looked at separately: the amplitude and the frequency. Temperature describes solely the amplitude of the oscillation of size. The heat energy however is determined by both, by the amplitude as well as by the frequency.
Consequently the ideas of temperature and heat energy should be kept strictly apart. It therefore isn't allowed to set this oscillation equal to the electromagnetic wave in tables of frequency.
To be correct two tables should be given, one for the wave, characterized by a propagation with the speed of light, and another one for oscillations of contraction, thus for stationary phenomena and phenomena bound to matter. The latter indeed can likewise propagate relatively fast by fluctuations of pressure in the case of acoustical sound frequencies or by
free movable charge carriers in the case of heat conduction, but the velocity of propagation for sound or heat is as is well-known still considerably smaller than the speed of light. Thus an assignment without doubts can be made as to which kind of oscillation it concerns.
Answers to open questions of thermodynamics:
1. Temperature occurs independent of the state in which the
matter is (unified theory).
2.Temperature even occurs in solids, where a purely kinetic
interpretation fails (unification).
3. Each elementary particle is carrier of a temperature.
4. Expansion with increasing temperature because of the
increasing need for room for larger amplitude of oscillation
(principle: bi-metal-thermometer).
5. For solids the thermal oscillation of size is primarily passed on
by the electrons in the atomic hull. Good electric conductors
therefore at the same time also have a high thermal conductivity.
(principle: electrical resistance thermometer).
6. For gases the entire atoms carry out this task, for which reason
a kinetic auxiliary description becomes applicable.
7. For extreme amplitudes of oscillation the atoms partly or entirely
lose their enveloping electrons, when they change into the
plasma state.
8.The second law of thermodynamics loses its claim to be
absolute and at best reads: with today's technology we are not
capable, to design a cyclic working machine, which does
nothing else, as to withdraw heat from a heat container and to
convert it into mechanical work.
Sound
The close relationship of longitudinal sound waves with the oscillations of contraction of thermally heated matter becomes particularly clear for ultrasound, where the arising heat in the inside of the body which is exposed to sound can be measured directly.
The fundamental difference consists of the fact that the produced sound waves not only have the same frequency, but also the same phase, what needs not be the case for the temperature. The apparently uncoordinated occurring oscillations of size of the temperature, which as a rule occupy more space if the intensity increases, form a "thermal noise".
The oscillation of size with the same phase is not realizable at all in a spatial formation of particles, with one exception, the case that all particles expand and afterwards again contract simultaneously and in the same time. We can observe such a synchronization of the pulsation oscillations of all elementary vortices in the case of a pulsar. For us a pulsar looks like a "lighthouse" in space which shines with a fixed frequency.
In reality it as well can concern a constantly shining sun, which carries out a synchronized, thermal oscillation of size, like a gigantic low-frequency loudspeaker. During the phase of contraction of the star its emitted light stays back. To us the pulsar looks dark. In addition the field strength is extremely increased and the light becomes correspondingly slow.
During the phase of expansion the conditions are reversed and we observe a light flash. Exactly the pulsar unambiguously confirms the here presented theory of the variable, field dependent speed of light.
The well-known fact that the microcosm represents a copy of the macrocosm, already suggests that each atom is capable of the same oscillation of size as a pulsar: if next to the oscillating atom a resting one is placed, then does this one see a smaller field during the phase of contraction because of the increasing distance. It hence becomes bigger itself. If the pulsating neighbouring atom afterwards expands, it however becomes smaller. The at first resting atom in this way becomes a "pulsar" oscillating with opposite phase. The oscillating atom has stimulated the neighbouring atom as well to an oscillation of size, and this process will be repeated with the closest neighbouring atom.
We speak of heat conduction. To which extent the average distance between neighbouring atoms is influenced while a material is heated, solely depends on the structure of the atomic lattice. For matter with a
fixed lattice according to expectation a smaller heat expansion will occur, as for the unordered structure of gases, in which we find confirmed well-known relations.
In a for potential vortices characteristic property sound waves and thermal waves of contraction correspond:
The propagation of potential vortex fields takes place as a longitudinal wave.
In this point vortex fields clearly differ from the transverse propagating electromagnetic waves!
Without wave no vortices, no duality and consequently no evolution can exist. According to the to date state of knowledge the basic principle of cybernetics forms the basis for matter and energy as well as for information. Since the wave can only serve the transmission of information, the principle of duality and the vortex will function as carriers of information.
We are entitled, to speak of vortex information, this by no means is characterized by special frequencies or modulations of frequencies. This is prevented by the property of the vortices which allows them to change the frequency. On the other hand various configurations of vortices are possible and numerous combinations and modulations are conceivable. If technical apparatus generate vortices, then they produce information. Here a serious danger with regard to the environmental compatibility can not be excluded!
http://www.meyl.eu/go/index.php?dir=30_ ... sublevel=0
the important experimental physicist Nikola Tesla (1856-1943), who with his inventions of the rotary field and of the asynchronous motor has stamped today's electric energy technology as no other.
As a result Lord Kelvin boarded a steamship as a mediator and sailed 1897 to New York to convince Tesla from the opposite.
But the experiments, which Tesla presented his Lordship, didn't give rise to any doubts, and thus Kelvin returned to Europe with the message:
"Both are right, Tesla as well as Hertz!
Whereas the electromagnetic wave which Hertz has detected, is a transverse wave, does Tesla work with a longitudinal wave"!
Lord Kelvin as a result started to draw most different vortex models, because it was clear to him, that a propagation as a longitudinal standing wave analogous to the sound wave only is conceivable, if quantized structures exist, which knock each other mutually. Kelvin therefore assumed vortex structures of the electromagnetic field. His vortex models were published and landed in the curiosity box of orthodox science.
Heinrich Hertz did have a big advantage. He could refer to Maxwell and calculate his wave with the field equations. For modern technology the mathematical calculability is almost an indispensable prerequisite!
For Tesla wave there however neither was a mathematical nor a physical theory. The only thing Tesla had, were presentable experiments.
In Colorado Springs he had build a 10 kW transmitting installation and lighted 200 fluorescent lamps of 50 Watt each on a mountain in the Rocky Mountains in a distance of 25 miles. With that he had completely transmitted the transmission power of 10 kW, as can be inferred from the press reports at that time.
With Hertzian waves, which propagate spatially, this experiment even today, after over 100 years, wouldn't be realizable technologically.
According to the law of the square of the distance one isn't even able to let glow a tiny little lamp in such a distance.
For sure his rotary field theory was a big help for Tesla in all experiments. Actually a rotary field can be seen as the special case of a planar vortex.
Thus Tesla obviously was able, to use the potential vortex without even knowing it. Tesla has stimulated a loosely coupled high tension coil wound like a spiral to self-resonant oscillations and emitted the produced vortices over an antenna. On the receiver side the process was then reversed.
The experiments which got out of control of Tesla, Searl and Schauberger have one thing in common: it concerns constructions with an unipolar arrangement of the field. Tesla had arranged the magnetic field in a unipolar way, as he has reported himself, Searl had realized electric unipolar fields in a construction similar to the electron, and Viktor
Schauberger had specialized in producing unipolar structures with water vortices.
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Peace, Live Long and Prosper.
Man lives in the sunlit world of what he believes to be reality. But there is, unseen by most, an underworld, a place that is just as real, but not as brightly lit... a Darkside."
Last edited by junglelord on Fri Jan 18, 2008 9:54 pm; edited 2 times in total