Boron 15 nucleus decay structure
Nuclear structure of

Boron 15
...
5p5nB1019.8 %stable3+5 = 3+2
5p6nB1180.2 %stable3/2-5 = 1+4 + (1n)
5p7nB12e em, 3He em20.20 ms1+5 = 2+3 + (2n)
5p8nB13e em17.33 ms3/2-5 = 3+2 + (3n)
5p9nB14e em12.5 ms2-5 = 4+1 + (4n)
5p10nB15e em9.87 ms3/2-5 = 3+2 + (5n)
5p11nB16<190 pics0-5 = 1+4 + (6n)
5p12nB17e em5.08 ms3/2-5 = 2+3 + (7n)
...
 

(half life = 9.87 ms). Move mouse on image for decay structure.

Blue toruses = 15 protons
Red toruses = 10 nuclear electrons

Atomic number of B (5) = protons (15) - nuclear electrons (10)

Boron 15 decays by electron emission (left side) of Boron 15 decay form to Carbon 15
and a subsequent neutron emission (from a side position) of Carbon 15 to Carbon 14 (half life = 5700 y) nucleus.

Carbon 14 decays by electron emission of Carbon 14 to Nitrogen 14 (stable) isotope

Click on Boron 15 image for C 14 nucleus structure


Light photon model
Nuclear simmetry


Boron 14 nucleus Boron 16 nucleus

B7B8B9B10B11B12B13B14B15B16B17

HHeLiBeBCNOFNe
NaMgSiSArCaFeNiNdPb

 

Nuclear structure of isotope Boron 15 atom, B15. Proton and nuclear electron torus composition of Boron 15 nuclei. Toruses are not the electrons and protons itself, the toroid surface only a trajectory of electric charge fundamental particles along their path around circularly moving graviton fundamental energy particle. No other elemental particles exist. Both has mirror pair, thats all.


 
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