the new fuels with magnecular structure - Institute for Basic Research
the new fuels with magnecular structure - Institute for Basic Research
the new fuels with magnecular structure - Institute for Basic Research
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148 RUGGERO MARIA SANTILLI<br />
evidently confirms <strong>the</strong> lack of a valence bond. Inspection of <strong>the</strong> samples also show<br />
<strong>the</strong> magnecules capability of increasing <strong>the</strong>ir size via <strong>the</strong> accretion of fur<strong>the</strong>r oil<br />
molecules.<br />
O<strong>the</strong>r photographic documentations of various magnecules in liquids were<br />
done, by confirming <strong>the</strong> findings of Figs. 57 and 58.<br />
7.3 Spectroscopic Evidence of Liquid Magnecules at <strong>the</strong><br />
Tekmar-Dohrmann Corporation<br />
The first experimental evidence of magnecules in liquids was established on<br />
May 5, 1998, by analysts Brian Wallace and Mia Burnett at Tekmar-Dohrmann<br />
Corporation (TDC) in Cincinnati, Ohio, operating a Tekmar 7000 HT Static<br />
Headspacer Autosampler equipped <strong>with</strong> a Flame Ionization Detector (FID). The<br />
tests were repeated on May 8 and 11, 1998, by confirming <strong>the</strong> preceding results.<br />
It should be noted that <strong>the</strong> Tekmar equipment lacks <strong>the</strong> computer search as<br />
well as <strong>the</strong> UV scan. Also, <strong>the</strong> instrument had limited capability in atomic<br />
weight. Finally, <strong>the</strong> FID was permitted in this case because <strong>the</strong> liquids were not<br />
combustible.<br />
The measurements were done on: Sample 1, pure (magnetically untreated) GR<br />
“Fragrance Oil 2”; Sample 2, magnetically untreated tap water; and Sample 3, a<br />
magnetically treated mixture of <strong>the</strong> two.<br />
Despite <strong>the</strong>se limitations, <strong>the</strong> results of <strong>the</strong> Tekmar tests provided <strong>the</strong> first<br />
direct spectroscopic evidence of <strong>the</strong> existence of magnecules in liquids, including<br />
<strong>the</strong> first direct experimental evidence of water magneplexes as per Definition. In<br />
particular, <strong>the</strong>se tests established that magnecules in liquids have <strong>the</strong> same main<br />
features of <strong>the</strong> magnecules in gases.<br />
To avoid a prohibitive length we reproduce only a few representative scans in<br />
Figs. 59 to 63 [1]. Figure 59 reproduces <strong>the</strong> origin test of <strong>the</strong> fragrance oil <strong>with</strong>out<br />
magnetic treatment. Note <strong>the</strong> dominance of three molecules denoted “Peak 1”<br />
<strong>with</strong> 24.28%, “Peak 2” <strong>with</strong> 3.19% and “Peak 3” <strong>with</strong> 70.00%. Figure 60 depicts<br />
<strong>the</strong> background which is shown to be correct. Figure 61 represent <strong>the</strong> scan of<br />
magnetically treated water <strong>with</strong> a large “unknown 1” <strong>with</strong> 64.24% and “unknown<br />
2” <strong>with</strong> 33.53% totaling 97.78%. This is evidence of <strong>the</strong> creation of magnecules<br />
in water, also called magneplexes according to Definition. Figure 62 represents<br />
a scan of <strong>the</strong> magnetically treated combination of water and fragrance oil <strong>with</strong><br />
“unknown 1” 1.75% and “unknown 2” <strong>with</strong> 0.45%. An important in<strong>for</strong>mation<br />
of this scan is that <strong>the</strong> original Peak 1 of Fig. 59 <strong>with</strong> 24.28% and Peak 3 <strong>with</strong>
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