Quantum Energy Theory in depth
• Page 9
• Hannes Alfven who received his Nobel Prize for Physics in 1970, and is the professor in the department of electronics in the Royal Institute of Technology in Sweden, wrote the following in an article in Scientific American Special Commemorative Edition, March 2013, "We know that interstellar space is not absolutely void. Although the matter in it is very thin, certainly no more than an average of one atom per 1 cubic centimetre, in the vastness of universe it adds up to an enormous amount of material."
• Now if outer space is full of atoms, presumably Hydrogen ones, each with a size of one centimetre by one centimetre by one centimetre or one cubic centimetre, how can we say that it is also not full of energy too? For example, where does all that waste energy from the sun go? And if space is full of matter and energy, why not each individual atom?
• Let us consider the refrigerator for example. The refrigerant is crushed in a compressor, expelling heat (the refrigerator needs to be away from a back wall to allow the heat to escape!). Then it is passed into an expansion chamber where it absorbs heat from the products in the refrigerator itself, cooling them down. The heated refrigerant then is passed back through the compressor and it all begins again. However, it is the same atoms in the refrigerant that pass through the compressor and lose their heat energy and become very cold, only to absorb heat energy from the atoms in the body of the refrigerator. It is the same atoms that are crushed, to give off heat energy and then to expand with heat energy from the food atoms in the refrigerator, then to give off this energy when compressed once more. Does this mean that atoms have energy in them too and their size depends upon the area of the place where they are and the amount of energy within them and the pressure of the other atoms around them? Yes that is right!
• This is consistent with the second law of thermodynamics which holds that heat energy does not flow spontaneously from colder to hotter body. Obviously then from the hotter to the colder body, as in the refrigerator.
• The Quantum Energy Theory says the inner part of the atom, between the outer electronic force field and the nucleus of the atom, is full of energy in the form of Photons of radiation. As the atom is crushed, as above, so the energy is expelled and the size of the atom is reduced.
According to Roger B. Culver of the Colorado State University, in his book "Facets of Physics" West Publishing Company 1993, page 537, "When a chemical reaction occurs, very often the atoms shift from a configuration of higher electronic potantial to one of a lower electronic potential. When this occurs, chemical energy is released in the reaction."
41H1 + 28O16to give 2H2O plus energy.
However, if E=MC2 and there is no loss of either electrons, positrons or neutrons, (positrons plus neutrons being protons remember), where does the extra energy potential come from? The Quantum Energy Theory holds that the 4 hydrogen atoms become immersed into the oxygen atoms, thereby creating water, two gases combined become a liquid and even may be a solid when cold enough and the energy contained in the hydrogen atoms is released into the atmosphere.
Note that if only the lowering of the electronic potential were the cause of the extra energy, then only electricity would be released. But energy photons, which are a combination of the positron and the electron, are released.
In the case of the atomic bomb however, the outer circle of the electronic force field in reduced from the 7s to the 6s in the case of the Barium atom and to the 4p in the case of the Krypton atom, leaving all the energy left to be lost in one almighty bang.
• The Quantum Energy Theory explains it this way:
| U235
| .+N
| .=U236
| .=Ba144
| .+Kr89
| .+N
|
Positron/Neutron
| 92/235
| .+/1=
| 92/236
| =56/144
| +36/89
| +./3
|
Electron Orbit
|
7s
| 2
|
| 2
|
|
|
|
6d
| 1
|
| 1
|
|
|
|
6p
| 6
|
| 6
|
|
|
|
6s
| 2
|
| 2
| 2
|
|
|
5f
| 3
|
| 3
|
|
|
|
5d
| 10
|
| 10
| 0
|
|
|
5p
| 6
|
| 6
| 6
|
|
|
|
5s
| 2
|
| 2
| 2
|
|
|
4f
| 14
|
| 14
|
|
|
|
4d
| 10
|
| 10
| 10
|
|
|
4p
| 6
|
| 6
| 6
| 6
|
|
4s
| 2
|
| 2
| 2
| 2
|
|
3d
| 10
|
| 10
| 10
| 10
|
|
3p
| 6
|
| 6
| 6
| 6
|
|
3s
| 2
|
| 2
| 2
| 2
|
|
2p
| 6
|
| 6
| 6
| 6
|
|
2s
| 2
|
| 2
| 2
| 2
|
|
1s
| 2
|
| 2
| 2
| 2
|
|
Total
| 92
|
| 92
| 56
| 36
|
|
|