Re: Black out (Fusione Fredda, Andrea Rossi....) ¶
By: lmwillys1 on Giovedì 02 Gennaio 2020 09:49
Some questions related to two of your papers:
1. In [2] you investigated possible transmutation paths of Li and Ni in the E-cat as a source of energy. Was this line of research abandoned in favor of the theories presented in [1]?
2. What are the benefits of the lattice-IPM model when reasoning about long range particle interactions (if any)?
3. What is the significance of nucleon excitation states when reasoning about long range interactions?
4. What is the significance of short range binding energies in long range interactions?
[1] Andrea Rossi. E-Cat SK and long range particle interactions, 2019.
[2] Norman D. Cook and Andrea Rossi. On the nuclear mechanisms underlying the heat production by the E-Cat, 2015.
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1 Even if I am not currently following this line of research, as you have seen on [1], I consider the pico-metric neutral aggregates described in
http://www.researchgate.net/publication/330601653_E-Cat_SK_and_long_range_particle_interactions
as the best candidates to support the hypothesis of a transmutation paths of Li and Ni: see equation 49 of
“Electron Structure, Ultra-Dense Hydrogen and Low Energy Nuclear Reactions” in JCMNS Vol 29
2 Norman Cook’s lattice nuclear models, based on a pure electromagnetic interpretation of nuclear force, have inspired the hypothesis of a possible balancing of Coulomb repulsion between electrons in dense clusters by a Lorenz force generated by the Zitterbewegung currents
3 The idea of interactions at picometric scale between electrons and nucleons open the door to an entirely new field of science ( pico-chemistry ) where the possible formation of new nuclear isomeric states cannot be excluded.
4 Accepting the ZBW model for the elementary particles, the range of the electro-magnetic binding energies is inversely proportional to the size of the ZBW current loops. For this reason, the short range nuclear binding energy should be at least three orders of magnitude stronger than in pico-metric aggregates. The orders of magnitude are:
1 eV chemistry, 1 keV pico-chemistry, 1 MeV nuclear chemistry
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non ho capito na mazza
:-)