ICCF22 - Nuclear Transmutations and Mass Defect

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ICCF22 - Nuclear Transmutations and Mass Defect

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p44> Nuclear fission is a breaking-off of a part of the nucleus, leaving the fission products with less stress-energy. This is also reflected in the asymmetrical fission products.

Do you think the cause of beta decay is Stress Energy? But it cannot explain that beta decay changes with neutrino density.

Evidence for Correlations Between Nuclear Decay Rates and Earth-Sun Distance

According to SAM, when tritium is beta decayed, it becomes helium-3.

Comparing the masses of tritium and helium 3,

3H+ → 5.00736 x 10^-27kg
3He - 2e → 5.006416 x 10^-27kg

Helium 3 is light. Is this a mass defect?
I think that tritium is bonded by three electrons, and if one of them is broken, beta decay into helium-3.

Stress Energy will certainly exist. I think that the amount of electrons that combine into the proton will change depending on the Stress Energy. However, beta decay is a stochastic phenomenon and depends on neutrino density. It is more reasonable to think that tritium is bonded by three electrons.

You seem to be adamant to swap H3 and He3.

He3 has 1 inner electron / 1 neutron in the nucleus in conventional terms. That is why we depict the H3 as a linear shape which is basically 2 intertwined Deuterons.

A linear structure for He3 cannot work therefore, since 1 proton would not be bound in that state and leave the nucleus. This is not what we observe.

So He3 is the triangular and the H3 is the linear structure and not how you depict them here.


You are not answering about the mass difference between 3H and 3He.

If 3H is linear shape, why are three protons that have lost one electron grouped into a triangle?

Also, why does one electron move to the center of the three protons?

These are unnatural.