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144 RUGGERO MARIA SANTILLI 7. EXPERIMENTAL EVIDENCE OF MAGNECULES IN LIQUIDS AND SOLIDS 7.1 Preparation of Liquid Magnecules Used in the Tests In early 1998 Santilli [1] obtained a number of samples of fragrance oils from Givaudan-Roure Corporation (GR) with headquarters in Teaneck, New Jersey. About 50 cc of various samples of perfectly transparent fragrance oils were placed in individual glass containers. One polarity of an alnico permanent magnet with 12,000 G and dimension 1/2 ′′ ×1 ′′ ×2 ′′ was immersed within said oils. Starting with a perfect transparency, after a few days a darkening of the oils became visible, jointly with a visible increase of the viscosity, with changes evidently varying from oil to oil. Subsequently, there was the appearance of granules of dark complexes in the interior of the oil which were visible to the naked eye. Both the darkening and the viscosity increased progressively in subsequent days, to reach in certain cases a dark brown color completely opaque to light. The viscosity increased to such an extent that the oil lost all its fluidity. It should be stressed that the above visible effects are of pure magnetic origin because of the lack of any other contribution, e.g., the complete absence of any additives. After the immersion of the permanent magnets, all samples were left undisturbed at ordinary room conditions. The indicated effects remain unchanged to this day, thus showing that the changes were stable at ordinary conditions of temperature and pressure. Santilli’s [1] main hypothesis on the darkening of the oils is that their molecules acquire a magnetic polarization in the orbits of at least some of their atomic electrons (called in chemistry cyclotron resonance orbits), by therefore bonding to
THE NEW FUELS WITH MAGNECULAR STRUCTURE 145 each other according to Definition in a way similar to the corresponding occurrence for gases. It should also be indicate that the immersion of one polarity of a permanent magnet in fragrance oils is, evidently, a rudimentary way to create magnecules in detectable percentage although not an essentially pure population of magnecules as requested for a new chemical species (see Sect. 2). A number of more sophisticated magnetic polarization techniques are now available with rather complex geometries. Also, as indicated in Sect. 6, an essentially pure population of liquid magnecules can be reached via the PlasmaArcFlow reactors described in Sect. 4. 7.2 Photographic Evidence of Magnecules in Liquids The above alteration of the structure of fragrance oils was confirmed by photographs taken by the GR Research Laboratory in Dubendorf, Switzerland, via a microscope with minimal magnification, as illustrated in the pictures of Figs. 57 and 58. The pictures of Fig. 57 refer to the GR fragrance oil received under the code “ING258AIN, Text 2” subjected to the rudimentary magnetic polarization indicated in the preceding section under the respective magnification 10X and 100X. As one can see, these photographs establish that, under the indicated magnetic treatment, the oil has acquired a structure of the type of “brick layering” which is visible under only 10X magnification, and is per se highly anomalous for a liquid that was originally fully transparent. Note that the magnecules are not constituted by the individual “bricks,” but rather by the dark substance which interlock said “bricks.” This point is important to understand the size of the magnecule here considered which covers the entire 50 cc of the liquid. The photographs in Figs. 58 were taken at the University of South Florida in St. Petersburg via a microscope with the same magnifications 10X and 100X, but refer to a different GR fragrance oil received under the code “Mixture 2” and magnetically treated to such a point of completely losing transparency and fluidity. As one can see, the latter picture provides confirmation that, following exposure to a 12,000 G magnetic field, fragrance oil molecules bond together into rather large clusters estimated to be well in excess of 10,000 a.m.u., that is, with an atomic weight which is dramatically bigger than that of the largest molecule composing the oil, as per Feature I) of Definition. Inspection of the various photographs shows a variety of sizes of magnecules, thus establishing their lack of unique characteristics for any given liquid. This
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Contents Preface 1 THE INCREASINGLY
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HADRONIC MATHEMATICS, MECHANICS AND
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