The Last Stoic


Posted in Uncategorized by munty13 on November 28, 2009

A radioactive isotope of hydrogen having an atomic weight of 3.02 and a half-life of 12.3 years. Its nucleus is called a triton and consists of one proton and two neutrons. It decays by beta decay and is used in thermonuclear bombs, thermonuclear fusion devices, as a radioactive tracer, etc. Tritium occurs in natural water with an abundance 10-18 that of ordinary hydrogen.

Tritium was discovered in 1934 by the physicists Ernest Rutherford, M. L. Oliphant, and Paul Harteck by bombarding deuterium with high-energy deuterons. Tritium is produced most effectively by the nuclear reaction between lithium-6 and neutrons from nuclear fission reactors.

Symbol: T

The nucleus of tritium is said to consist of one proton and two neutrons. I wanted to try and determine how this model for tritium was drawn up, and to then compare it to the new model that we have established for the helium atom.

I think that a proton is acting out cyclonic behaviours because it has a deficit in electric fliud. On the other hand, I think that neutrons, as they are classically explained, do not exist. If I was to really look for a neutron, I suspect it would be a tiny particle, much smaller than atoms, and that it would be something which makes up the electric fluid of the aether. Basically, in my world, a formation of one proton and two neutrons could not exist as an atomic structure. Heck, I don’t think atoms exist in the way we think they do at all. I think atoms are more like ring donuts, or as I now like to call them – “donutoms”.

In designing an atomic model for helium, I proposed it consists of one electrion and one proton brought together to form dipolar vortices. I then picture energy moving between these vortices, from a high pressure area to a low pressure area, and vice versa, so you end up with something that looks like a spin-cycle. What you would see is the movement of energy following a loop inside a vortex ring. This vortex ring is what I think a donutom looks like.

I think that the electron (or as I’m tempted to rename it – “electrion” – to help avoid confusion with the old mini-me version) could be the same size as a proton, but has a charge 1800 times greater. I imagine the electrion as being anticyclonic with an excess of electric fluid. To fulfill its new size, the electrion has to reclaim this mass from somewhere, and that happens to be from the neutron. Effectively, the neutron has now shrunk into something which is tiny compared to the electrion and proton, and carries virtually no electric charge. This new model of the neutron comes dramatically close to the way Tesla describes cosmic rays in his theory of free energy. I am quoting from the Brooklyn Eagle, July 10, 1932 in which Tesla states:

“I have harnessed the cosmic rays and caused them to operate a motive device. Cosmic ray investigation is a subject that is very close to me. I was the first to discover these rays and I naturally feel toward them as I would toward my own flesh and blood. I have advanced a theory of the cosmic rays and at every step of my investigations I have found it completely justified. The attractive features of the cosmic rays is their constancy. They shower down on us throughout the whole 24 hours, and if a plant is developed to use their power it will not require devices for storing energy as would be necessary with devices using wind, tide or sunlight. All of my investigations seem to point to the conclusion that they are small particles, each carrying so small a charge that we are justified in calling them neutrons.”

Supposedly then, tritium has one proton and two “neutrons”, but as we have seen, this does not comply with the new donutom model. I think the helium donutom provides us with a sturdy model from which we can extrapolate the design of other elements. If we know what a proton is – and if we think we know the true nature of a neutron – then what exactly is it which is making up that extra mass inside a tritium particle?

Tritium decays into helium-3 with a 12 year half-life. Each such reaction produces helium-3, an electrion, and about 18.6 keV of energy. Helium-3 (He-3) is a light, non-radioactive isotope of helium. The presence of helium-3 in underground gas deposits implied that it either did not decay or had an extremely long half-life compatible with a primordial isotope. Natural helium is a mixture of two stable isotopes, helium-3 and helium-4. In helium obtained from natural gas about one atom in 10 million is helium-3.

Helium-3 is said to be made up with two protons and one “neutron”. Because tritium loses an electrion to become helium-3, we could say, at least in theory, that tritium is mix of two protons, one “neutron” and one electrion. Tritium has one positive charge, but three times the mass of hydrogen. Helium-3 now has the same mass as tritium but twice the positive charge. It appears that the electrion that tritium ejected had once been in partnership with, thereby neutralizing, one of its positive charges.

This all gets a lot easier to understand when we can accept that the “neutron” does not actually exist as a part of atomic structure, at least not in the classical sense. The electrion that tritium has ejected, according to this new model, now actually has the same mass as a proton. If we then look at tritium again, it is not simply a mix of two protons, one “neutron”, and one electrion to create one proton and two “neutrons”, but rather, the model for tritium should be a mix of two protons and one electrion.

One proton plus an electrion will give you a neutral donutom – the positive and negative charges cancel one another out. An extra proton will give you an extra charge. Thus, it appears that tritium is a structure made up by two cyclones plus one anticyclone. I wonder how this structure implies that tritium is a beta emitter? As it stands, I don’t think tritium is a hydrogen isotope at all, but is best described as an isotope of helium.

If tritium ejects an electrion in its decay, then I think this electrion must come from the donutom. Once the electrion is ejected from tritium, then what you should be left with is a structure made up of two protons. This would help explain why helium-3 has a double charge (like an alpha particle), BUT if helium-3 really is made up by two protons and a “neutron”, it does not explain how helium-3 manages to maintain the same mass as tritium.

It’s curious that in the deuterium-tritium fusion reaction that helium-4 is created while a “neutron” is released. How is a “neutron” released, if essentially, it does not exist? I think what we could be seeing is a loss in atomic mass which belongs to the neutral fluid of the aether.

The nucleus of deuterium, called a deuteron, contains one proton and one neutron, whereas the far more common hydrogen nucleus contains no neutron. This means that deuterium is twice as heavy as hydrogen, but that it has the same electric charge. Could we possibly venture to say that deuterium is a structure which has twice the mass of hydrogen? Unlike an alpha particle which is made up by two cyclones, perhaps deuterium exists as one big cyclone?

Accepting this as a possible scenario for deuterium – then is it also possible that helium-3 is actually made up by two protons, each having a mass 1.5 times greater than that of a hydrogen ion? In the deuterium-deuterium reaction, two deuterium “atoms” combine to form helium-3 and a neutron. The missing mass has been converted to energy which is released in the form of the high-energy neutron. Could it be that in the deuterium-deuterium reaction we are seeing one big cyclone reacting with another big cyclone to create a smaller bi-cyclonic structure in the form of helium-3?

In a nuclear fusion reaction, deuterium and helium-3 come together to give off a proton and helium-4. Which is curious, because we are now effectively seeing a reaction between 3 cyclones in which a smaller cyclone (proton) is ejected to produce helium-4.

With deuterium-tritium reactions – one atom of deuterium and one atom of tritium combine to form a helium-4 atom and a neutron. That is, deuterium (one cyclone with the mass of 2), being added to tritium (two cyclones and an anticyclone with a combined mass of 3), to produce a neutron (energy with mass of 1) and helium-4. Once again, as with deuterium-helium-3, we are seeing some sort of reaction that includes 3 cyclones and which generates helium-4.

I think a helium donutom is only twice as dense as a hydrogen ion, thereby having a mass of 2. In the case of helium-4, rather than one helium atom with the atomic weight of 4, I think we are seeing the emergence of two helium donutoms, each with the atomic weight of 2. For a helium donutom to form, we need a proton and an electrion. There appears to be plenty of evidence of cyclonic protons previous to the reactions – but how does the reaction produce the electrions needed to construct the donutoms?

Many thanks:

The Method of Positive Rays ~ Popular Science Jun 1913


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