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Taxon 4.2
LITHICNUCLIDES
| Stableable isotopes of elements 3 to 25 which eject more energy during manufacture than is absorbed. |
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Work in progress
Taxon 4.2 Stableable isotopes of elements 3 to 25 which eject more energy during manufacture than they absorb.
Taxonome 4.2.1
Understable lithicnuclide isotopes which directly or
indirectly transmute to a stableable isotope as conditions dictate. |
Notes on the structure of nuclides:
- nuclides are two or more strongforced nucleons.
- strongforcing is the mutual gravitypull of the nucleon nucleuses countered by the mutual masspushes of the nucleon teelstreams.
- the masspushing nucleon teelstreams are (probably) teeloceans.
- the teelocean streams are driven (ultimately) by the spins of the nucleon quarks.
- the configuration of the nucleons within a nuclide is not fixed.
- the configuration is that of least stress.
- the
configuration can alter because the nucleons "float" on each
others teeloceans and are thus able to slide from one position to
another.
- "float"
does not mean that each teelocean is distinct. Within each nucleons
gravitysheath, the teelocean is its own but the nucleons are engorged
and thus understable. There is a constant interchange of teels from one
gravitysheath to another. The teeloceans are perhaps best seen as the
teelocean of the nuclide within and through which a complex of
teelstream systems is in constant motion.
- the least stressful configuration is dictated by the teelocean teelstreams.
- the teelstreams of protons are axial and those of neutrons are centrifugal.
- because
the nucleons in a nuclide are engorged, each is continually absorbing
and ejecting teels, the protons ejecting at their northpoles and the
neutrons ejecting at their equators.
- the
engorgement of the nucleons overrides their possession of their own
teeloceans which flow in between the nucleon nucleuses to be the
nuclide teelocean stream system.
- for any given number of nucleons in a nuclide there is a pattern to the nuclide teelocean system that is least stressful.
- the least stressful teelocean system requires the "floating" nucleons to adopt their own least stressful configuration.
- the nucleon configuration is also nucleon type specific.
- protons will transmute to neutrons and neutrons will transmute to protons as necessary to minimise the teelocean stress.
- NB:
further consideration to be given to whether, in larger nuclides, the
least stressful configuration requires forming the nucleons into
heliums.
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Lithicnuclides
Mechanics
Manufacture by fusion
Absorption / ejection differential
- Fusions result in absorption of additional gravitymass.
- Successive fusions result in successive increases in gravitymass.
- Each gravitymass increase is between neutron and helium gravitymass.
- Gravitymass increase results in attunement loss.
- Attunement is regained by ejecting gravitymass.
- Lithicnuclide attunements require ejecting more gravitymass than is absorbed.
- Successive fusions require successively less gravitymass ejection to regain attunement.
- Fusions of lithium isotopes require the greatest gravitymass ejections.
- Fusions of manganese isotopes require the least ejections.
- Ferricnuclide attunements require less ejection of gravitymass than is absorbed.
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© 2024 - Ed Winchester / Sian Winchester
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SUPERCEDED MATTER
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