Hi Frank, I think this should be shared with all of Vortex.
Thnks, Jack Smith ------------------- OVERVIEW OF THE CONTROL OF THE NATURAL FORCES by Frank Znidarsic In the 19th Century Nikola Tesla and Thomas Edison developed electrical tec hnology. This technology was based on the control of the electromagnetic fo rce. The electromagnetic force has a convent range and strength.C2 A0 It is possible to place strong magnets within electrical machinery. The rotation of these magnets induces an electric field. This type o f machine is known as a generator. Conversely, the flow of electricit y induces a strong magnetic field. Samuel Morris used this strong mag netic force in his telegraph receiver. The symmetrical relationship that exists between the electric and magnetic fields was mathematically qualified my James Clerk Maxwell. The understanding of this symmetry allo wed Guglielmo Marconi to develop radio. Albert Einstein developed his General Theory of Gravity early in the 20th C entury. The General Theory of Relativity describes a gravitomagnetic field. The gravitomagnetic field has a structure similar to the electromagnetic field, however, it acts like a repulsive gravitational field. Literature of this period portrays people being propelled by antigravity backpacks. It was believed that the force of gravity would soon come under man's control. Einstein attempted to resolve these is sues and formulate a general theory for all of the natural forces. He worked, without solution, on this problem for the rest of this life. The gravitational force has proven to be too weak to20exploit with classic al technology. To obtain a gravitational field of sufficient st rength the entire mass of the earth would have to be concentrated within a bar magnet. This clearly is impossible. Later in the 20th Century Ernest Rutherford discovered the strong nuclear force. The strong nuclear force has a range of about one Fermi. The weak nu clear force is a range of 1/580 that of the strong nuclear force. The range of the nuclear forces are too short to exploit with classical technology. Science moved on in its quest into higher energies. Sheldon Glashow discovered, in 1979, that the electromagnetic and weak nuc lear force unify at high energy. It is believed that all of the forces unify at an extremely high energy. This energy was approached during the birth of the universe. This level of energy will be forever bey ond the reach of man's technology. As these ideas became engr ained into our culture, the control of the gravitational and nuclear forces was dropped from the writings of science fiction. Early in the 20th Century Niels Bohr discovered that the electrons orbit th e atoms in discrete orbits. Each orbit contains a definite about of a ngular momentum. The quantization of angular momentum is a postulate, underivable from deeper law. Its validity depended on the agreement with experimental spectra. The frequency of a quantum emission depend s on the energy through which the electron drops. It is not coupled to the orbital frequency of the emitting electron. The frequ ency of a sound wave, for example, matches that of the loud speaker. Why do not quantum events obey the same rules? A quantum myster y was born. Werner Heisenberg extended these ideas and mathematically qualified the intensity of a spectral emission. Werner Heisenberg an d Erwin Schrodinger were limited in that there were, at that time, no exper iments that revealed the path of the quantum transition. They had no way to compute the probability of transition. Their formulations were complex and provided no clear visual picture. They did, however, find that the number of emitted photons varies with the differential in energy though which the electron transits. The frequency of the emitted photons is not that of the orbiting electrons and the intensity of the spectral lines is not coupled to the amplitude of the any quantum state. The correspondence principle was developed to explain this mystery. It states that the frequency and amplitude of the emitter and emitted need only match in classical systems. Max Born attempted to explain these inconsistencies by stating that the common sense classical world was a subset of the quantum regime. Born's quantum regime exists in a strange realm of probability. That's the way things have stood for over 100 years. In 1989, Stanley Pons and Martin Fleishman discovered the process of cold fusion. They found that the reaction had a positive thermal coefficient. If was later discovered by Professor Yoshiaki Arata, and others, that the reaction took place in a domain of 50 nanometers. The product of the thermal frequency and the domain size equals a velocity of one million meters per second. Eugene Podkletnov stimulated a one third of meter spinning superconductor with a three megahertz radio wave. This experiment was said to have produced a strong gravitational anomaly. The product of the one third of meter dimension and the three megahertz radio wave also equaled a velocity o ne million meters per second. Frank Znidarsic discovered that these experiments had disclosed one of nature's most tightly held hidden parameters. The velocity of the quantum transition had been revealed. In 2004, Znidarsic calculated that position of the electron's orbits and the intensity of spectral emission based on this velocity. No correspondence principle was required. These calculations are to be published by "Infinite Energy" in September of 2009. The path of the quantum transition has been revealed. A quantum transformation is more than a quick displacement. The electron is broken apart into its composite force fields. These fields flow strongly from the parent to the daughter state. They are then reassembled into something new. The frequency and amplitude of the photon does not match that of the quantum emitter. The photon is not classically emitted. It is made anew from the disassembled parts. This effect can be clearly seen in the process of beta decay. In this process a neutron decays into a proton. The daughter proton is quite different from the emitted electron and parent neutron. The strength and range of the natural forces converge during quantum transition. This author calls this process a convergence of the motion constants. The frequency and amplitude of the emitted photon are that of transitional quantum state. This author coupled these ideas together into Znidarsic's theorem: The constants of the motion tend toward those of the electromagnetic, a Bose condensate that is stimulated at a dimensional frequency of 1 .094 megahertz-meters. This theorem describes the process of quantum transition. It describes the progression of an energy flow. The vibration of superconductors and proton conductors may place these systems into a state of quantum transition. Millions of atoms may be adjoined into a single state of quantum transition. Strong gravitational and long range nuclear effects will be induced. The long range nuclear effects can be employed for the reduction of nuclear waste and the production of power. The strong gravitational effects may be used for propulsion. This new understanding may result in technologies that will carry mankind to the stars.
