Ideas on Energy and Magnetismby Lieberworth
In August 1985, I produced an energy mirror with supermagnetic attraction. I was astonished to discover that magnetism is able to perform something that nobody had ever observed before. In the past, many inventors have tried to invent electromagnetic resonance motors. The theory was that electromagnetic energy at resonance elevates to a greater magnitude, which means less energy use. This is not possible, according to standard electrical theory, because such a motor would be a perpetual motion device. Because no previous inventors had been successful, the motor is generally regarded as being impossible to construct. Lack of knowledge was the downfall of earlier inventors. For series resonance motors to work, a magnetic interaction effect must be set up in such a way that the rotor and the electromagnetic resonance field interact, but any other energy transformation or extraction must be prevented as thoroughly as possible. This simply means suppressing the back electromotive force (emf), so that supermagnetic interaction can take over. As a result, in an ideal situation, a resonance motor acts as a perpetual motion device of the third kind externally. However, consider these results as a beginning stage. The discovery of supermagnetic interaction has allowed the construction of successfully functioning series resonance motors. Magnetic forces tunnel energy as mechanical rotation. Therefore, the electromagnetic resonance field acts as a perpetual motion device of the third kind internally (considering the magnetic field only). A perpetual motion of the third kind is simply when the energy adds up to more than the input power. An energy mirror is obtained when the rotor's output energy does not lower the energy of the resonance field. An energy mirror consists of two sides; the source and the mirror of the source. Therefore, the laws apply on each side of the energy mirror separately. This is simply caused by the circumstance of supermagnetic interaction. Resonance motors can also be classified as machines which tunnel energy. Supermagnetic interaction allows an energy flow (i.e. the movement of the rotor) without requiring expenditure of the energy of the electro-magnetic resonance field. Again, the laws are correct for each event on each side. When summing up the entire function as one event, the law of the conservation of energy is clearly defeated. However, such motor formulas follow the known electrical, magnetic and mechanical formulas, but only for each event on each side. This excellent trick of nature allows the construction of perpetual motions of the first kind externally. The conservation of energy applies to the resonance field, detached from the rotors' output power. The rotor is unable to produce more energy than can be provided from the resonance field. Nature is able to overrule the law of the conservation of energy. There are many examples of perpetual motions of the third kind around, but they are incomprehensible. However, two types can be identified; internal and external systems. No energy can be extracted from an internal system. An external system allows energy to be taken out of the system without destroying the energy functions. Many such perpetual motions produce only a small quantity of additional energy, therefore such systems or devices are unsuitable for the generation of power. Understanding perpetual motions of the third kind may allow us to design perpetual motions of the first kind. Theoretical experiments can show that this is possible: Form a closed ring out of a superconductive material and decrease the temperature. At the material's transition temperature, the material loses all electrical resistance. An induced current in the ring can then be maintained without a loss of energy. The transition temperature must be maintained. This is a perpetual motion of the third kind internally; the formula I^2 x R which causes electron friction as heat loss no longer applies. The lowest transition temperature of a high temperature superconductor is 125 degrees Kelvin. Such a temperature exists naturally somewhere out there in our solar system. Placing a high temperature superconductive ring in a place with a naturally occurring transition temperature and inducing a current into the ring would induce perpetual motion of the first kind internally. Further, a Josephson junction can be inserted by splitting the ring and inserting a thin slice of insulating material. This causes the electrons to move up and down, which produces a fluctuating magnetic field. Theoretically, it is possible to design resonance motors which produce perpetual motion of the first kind externally. It may be possible to combine two extraordinary phenomena together; supermagnetic interaction and super conductivity. Automatically, the motor would be heat stabilised, and the efficiency would increase dramatically. This would cancel two negative functions of electrodynamics: electron I^2 x R friction and back e.m.f. = impressed voltage - voltage drop. Under superconductive conditions, such a motor will lose a small amount of energy, in proportion to its AC frequency. In resonant circuits, energy simply alternates its direction. To keep the circuit's energy stable, the small amount of energy loss must be replaced each time the direction of the energy changes. It simply means setting up a circuit that is resonant in superconductive conditions, so that the energy direction oscillates with very little loss of power. Under conditions of super-magnetic interaction, the rotor releases mechanical energy. If this theory can be put into reality, the discovery of supermagnetic interaction would fulfil its purpose. At present, there is no practical application for the resonance motor. However, the motor was built to obtain a detailed knowledge of the entire extraordinary process which allows new theoretical knowledge to be developed, and practical designs to be developed. I am convinced that supermagnetic interaction is common throughout the universe. The atom is the cleverest thing in the universe; it knows how it was assembled, how it will end up, and how it will recycle. The electrons of every atom may well be governed by supermagnetic interaction; the resonance motor and atom would then have something in common. If both systems are operated by supermagnetic interaction, then in both cases work must be done before a greater energy state can occur. However, there is a difference in that when loading up a rotor, the rotor stays in place and produces energy, whereas an atom's electron escapes, and supermagnetic interaction is interrupted. This makes an atom an example of perpetual motion of the first kind internally and also applies to the electron shells. A mass defect for the outer electron shells has yet to be found. The outer electrons are responsible for chemical reactions; exothermic (energy release), and endothermic (energy absorption). The idea of supermagnetic interaction was inspired by the hydrogen atom; imagine the electron moving around the the proton as a three dimensional matter wave. Magnetic interaction between the electron and proton must take place without the expenditure of any energy. A difficulty arises in finding the mechanism which changes the magnetic energy states from south to north and vice versa. Electron spin has a role in this. The hydrogen atom provided useful facts and ideas, but nothing serviceable, and the theory of domain wall motion supplied practical experiments but nothing else. So, two facts which can be found in any atom and which cause supermagnetic interaction had to be combined with the theory of domain wall motion. Only this would allow the construction of a working device. In time, success came, and the first motor built worked on the first attempt. The additional energy of resonance motors appears as heat in the core, coil, wiring, bearings and as magnetic stray losses. These are losses of the resonance field, and appear with or without the rotor. The real energy is the rotor's output power plus friction losses as heat in the axle and bearings. This can only be determined with suitable experiments and these experiments also demonstrate the existence of supermagnetic interaction. Readers may be confused with this description as given above. However, it should be realized that the motor's functions can only be separated in theory. If not done in this way, mathematical calculations would become very difficult. In fact, none of the existing formulas would produce conclusive results. It will come to pass that knowledge of supermagnetic interaction will extend electrodynamics, without detracting from any of the presently accepted knowledge relating to it. What is energy? No one really knows. The characteristics of energy have been subject to investigation since man `invented' science. Without knowing all of the behaviours of energy, a final and permanent declaration was made: the law of the conservation of energy. However, if the laws of conservation were so final in every situation, the universe wouldn't be able to exist in the first instance. Literature sometimes states that the universe was created supernaturally, but this would require that something was produced from nothing. Therefore, we should question what what we call absolutely nothing. Is this nothing able to exist? If absolutely nothing possesses no existence then there must be a perpetual motion in consequence. This simply means that we do not understand everything about energy. Science is a jig-saw puzzle without anyone being able see the real picture before the puzzle is solved. If someone would seek to prove perpetual motion of the first kind wrong, he would have to prove and convince people that the entire universe, including himself, does not exist. In my opinion the resonance motor is unable to solve world-wide energy problems, but it has the potential to be the world's first perpetual motion device of the first kind externally. I believe that such a demonstration is required, not only to prove that the theory is correct, but to find more powerful perpetual motions. If we are able to become masters of energy tunnelling and energy channelling, the entire universe would open up to humanity. >>Original Idea. A basic mirror switch consists of four electronic building blocks. As an oscillator, the switch is able to produce all the common wave forms; DC-sine, square, exponential, pulsed, and many not so common wave functions. A mirror switch can count, divide, multiply, and even an electron compression memory can be created. The switch is able to manage a repetition rate of 10kHz. Wiring two mirror repetitive-switching oscillators together produces a basic twin oscillator which is capable of functioning as an AC power pulse, square and sine-wave generator. Also staircase, saw-tooth, triangle and exponential waveforms can be produced. Such a twin oscillator is able to operate at up to 4 kHz. An energy amplification of up to 3.5 times can be obtained without difficulty. Therefore, amplifier stages can be skipped. Output power from a few milliwatts up to 50 watts have been tested without complications. This is the world's most unusual switch and covers an immense amount of electronic operations in very simple terms. Mirror switching seems to have no limits in the specified frequency range. Experimenters will find many thousand useful applications for this switch. So far, I have designed and tested 90 mirror switching circuits successfully. I have designed circuits such as a transient analyzer, voltage controlled mirror switching, switching and negative resistance, negative resistance and additional energy, mirror switching and power, high voltage mirror switching, a touch activated switch, light activated switch, musical tone generators, a musical mirror switch, a mirror switched sound machine, automatic xenon flasher, mirror mirror switching, etc.
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