the new fuels with magnecular structure - Institute for Basic Research

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160 RUGGERO MARIA SANTILLI 1) The number of constituents of a gas with magnecular structure decreases with a sufficient increase of the pressure; 2) Given a fixed and sealed tank with volume V of a gas with magnecular structure at given pressure P and temperature T , after bringing this tank to a sufficiently higher temperature T ′ > T , and then returning it to the original temperature T , the pressure of the tank is not the original pressure P but a generally bigger pressure P ′ > P ; 3) The increase of pressure of a gas with magnecular structure requires a volume which generally increases with the pressure itself, that is, if the increase of pressure in a given tank from 100 psi to 200 psi requires V cf of magnecular gas, the same increase of pressure in the same tank via the same gas, this time from 4,000 psi to 4,100 psi at the same temperature does not require the same volume V but a volume V ′ of the magnecular gas bigger than the original volume, V ′ > V . The above deviations from the conventional gas law are easily explained by the fact that the increase of pressure in a gas with magnecular structure generally implies the aggregation of magnecules into bigger clusters, with consequential decrease of the number of constituents. Similarly, the increase of temperature generally implies the breaking down of magnecules into smaller clusters, with consequential increase of the number of constituents and resulting anomalous increase of pressure. It then follows that, if the increase of temperature of a given fixed volume is beyond the Curie Magnecular Point (Definition), all magnetic polarizations are terminated with consequential increase of the number of constituents due to the reduction of magnecules to molecules. This implies that the return of the gas to the original temperature does not restore the original magnecules, and, consequently, the return to the original temperature generally occurs at an increased pressure due to the increased number of constituents. We now report measurements of specific density, viscosity and other characteristics of fluids with magnecular structure which confirm the above GC-MS/IRD and LC-MS/UVD tests, by providing final evidence on the existence of magnecules as per Definition. All tests were done via the use of ordinary tap water and a number of GR fragrance oils. All samples here considered were prepared by conventionally mixing tap water and one fragrant oil, and then submitting that mixture to rather weak permanent magnets of 200 G (much weaker than those used for the fragrance oils of Figs. 57 and 58). All samples resulted in being very stable without any mea-
THE NEW FUELS WITH MAGNECULAR STRUCTURE 161 surable change over a period of about one year, and survived freezing followed by defrosting. The various samples were numbered from 1 to 25. The measurements of the specific density were conducted on March 9, 1998 by the U.S. Testing Company, Inc. (USTC) of Fairfield, New Jersey. The results of the tests are presented in Figs. 69 and 70. Sample 1 is ordinary untreated tap water. Sample 2 is ordinary tap water magnetically treated for about 5 minutes. Samples 3 and 4 were tap water treated with other magnetic equipment. Sample 5 was ordinary untreated GR fragrance oil “APC Fragrance.” Sample 6 was a mixture of fragrance oil 5 with tap water magnetically treated for about 5 minutes. Mixtures 7 and 8 were the same mixture 5 although treated with other equipment. Sample 17 was a magnetically treated GR oil “Air Freshener 1.” Mixture 19 was Fragrance 17 with tap water 16 magnetically treated for 5 minutes. Note that all measurements were done to an accuracy of the fourth digit. Therefore, numerical results up to the third digit can be considered accurate. In the transition from Sample 1 (untreated water) to Sample 2 (magnetically treated water) there is an increase in the specific density in the macroscopic amount of 0.86%, thus confirming the indicated mutation of the specific density of water under a magnetic treatment. In turn, the increase in density supports the existence of magneplexes in magnetically treated water as per the scan of Fig. 65. As well known, fragrance oils are (generally) lighter than water, i.e., the specific density of the untreated fragrance in Sample 5 is smaller than that of the untreated water in Sample 1. According to quantum chemistry, the specific density of any mixture of the above two liquids, whether solution, suspension or dispersion, should be in between the lighter and heavier specific densities. On the contrary, as one can see, the specific density of the magnetically treated mixture of GR fragrance with tap water, Sample 6, resulted in being bigger than that of the densest liquid, the water. This measurement constitutes additional, rather strong, direct experimental verification of the mutation of physical characteristics in liquids under magnetic fields. A remarkable point is that the magnetic mutations of density are macroscopically large. In fact, they were called by an analyst “UPS-type anomalies”, meaning that the shipment via UPS of a given volume of a magnetically treated liquid may require an increase of the shipping cost of the same volume of untreated liquid due to the macroscopic increase in the weight.
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THE NEW FUELS WITH MAGNECULAR STRUC
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Contents Preface 1 THE INCREASINGLY
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HADRONIC MATHEMATICS, MECHANICS AND
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the new fuels with magnecular structure - Institute for Basic Research

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