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If you are into Pyramid power or the John Hutchison Crystal Battery phenomenon then you will enjoy this read.
In condensed media, the relationship between the parameters of atoms and their clouds of inertons shows that amplitude L of an atom's inerton cloud much exceeds the distance between neighbor atoms. This means that inerton clouds of atoms overlap and in such a way that additional interaction between a media's atoms is settled. In other words, when we treat any matter, we should take into account that it is embedded in another substrate, or a quantum aether, or the space net and that the interaction of atoms with the space net induce one more field (i.e. the inerton field) which together with the electromagnetic one connect all atoms of the matter studied.
In my recent research, the impact of inertons on the collective behavior of atoms in a solid has theoretically been treated and then experimentally approved in metal specimens. It has been derived that the force matrix W that determines three branches of acoustic vibrations in the crystal lattice consists of two components, W = V + U. Here, V is the conventional term caused by the elastic electromagnetic interaction of atoms in the crystal lattice and the second term, U, is originated from the overlapping of inerton clouds of adjacent atoms. Much probably U is very small. However, the availability of U means that an outside inerton field is able to influence the crystal lattice increasing amplitudes of vibrating atoms.
However, where can we take a source of the inerton field? A condensed medium and, in particular, our planet itself may be considered as a source of inertons. Actually, the motion of atoms of the Earth considered to be an ideal globe moving as a single unit apparently does not differ in principle from the motion of a free particle shortly described in the previous section. A macroscopic globe only contains inner structural bonds, which keep atoms in the globe. The bonds lead to the coherence of atoms – roughly speaking we may imagine that all atoms in the globe nailed to their positions. Deviations from coherence in the motion of atoms caused by thermal fluctuations and various mechanical, physical and chemical processes, produce excitation of the atoms and as a result, generation of acoustic waves takes place. Consequently, the corresponding excitation of inertons (inerton waves) accompanying the acoustic waves will appear as well. If the lifetime of a sound excitation happening in any place of the Earth lasts only 1 sec., the corresponding inerton wave will be able to round the terrestrial globe about ten times.
and much more
www.gizapyramid.com/DrV-article.htm
In condensed media, the relationship between the parameters of atoms and their clouds of inertons shows that amplitude L of an atom's inerton cloud much exceeds the distance between neighbor atoms. This means that inerton clouds of atoms overlap and in such a way that additional interaction between a media's atoms is settled. In other words, when we treat any matter, we should take into account that it is embedded in another substrate, or a quantum aether, or the space net and that the interaction of atoms with the space net induce one more field (i.e. the inerton field) which together with the electromagnetic one connect all atoms of the matter studied.
In my recent research, the impact of inertons on the collective behavior of atoms in a solid has theoretically been treated and then experimentally approved in metal specimens. It has been derived that the force matrix W that determines three branches of acoustic vibrations in the crystal lattice consists of two components, W = V + U. Here, V is the conventional term caused by the elastic electromagnetic interaction of atoms in the crystal lattice and the second term, U, is originated from the overlapping of inerton clouds of adjacent atoms. Much probably U is very small. However, the availability of U means that an outside inerton field is able to influence the crystal lattice increasing amplitudes of vibrating atoms.
However, where can we take a source of the inerton field? A condensed medium and, in particular, our planet itself may be considered as a source of inertons. Actually, the motion of atoms of the Earth considered to be an ideal globe moving as a single unit apparently does not differ in principle from the motion of a free particle shortly described in the previous section. A macroscopic globe only contains inner structural bonds, which keep atoms in the globe. The bonds lead to the coherence of atoms – roughly speaking we may imagine that all atoms in the globe nailed to their positions. Deviations from coherence in the motion of atoms caused by thermal fluctuations and various mechanical, physical and chemical processes, produce excitation of the atoms and as a result, generation of acoustic waves takes place. Consequently, the corresponding excitation of inertons (inerton waves) accompanying the acoustic waves will appear as well. If the lifetime of a sound excitation happening in any place of the Earth lasts only 1 sec., the corresponding inerton wave will be able to round the terrestrial globe about ten times.
and much more
www.gizapyramid.com/DrV-article.htm
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Pittsburgh
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Re: Inerton Waves of the Earth
Tue, November 3, 2009 - 3:44 AMwhat does it mean in laymans terms?
