Boron 10 nuclear structure
Nuclear structure of

Boron 10
.ooOOoo.
5p2nB7p em0.32 zeps3/2-5 = 3p+2 - (3n)
5p3nB8b+770 ms2+5 = 2p+3 - (2n)
5p4nB9p+2He em8x10-19 s3/2-5 = 1p+4 - (1n)
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)
...
 

(stable).

Blue toruses = 10 protons
Red toruses = 5 nuclear electrons

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


Photon model
Nuclear structure of the matter

Isotopes Boron 10 and B10 nuclear structure of atomic Boron10 nucleus composition


Boron 9 nucleus Boron 11 nucleus

B7B8B9B10B11B12B13B14B15B16B17

HHeLiBeBCNOFNe
NaMgSiSArCaFeNiNdPb

 

Boron 10 nucleus is a stable structure. As can be seen in the torus model, every two proton torus has a nuclear electron glued them. The interaction of nuclear electrons and protons seems to be the strong nuclear force in consequence of close proximity of nuclear toruses. No neutrons inside atomic nuclei nor gluons. Strong nuclear force as a fourth kind of basic forces not exist also.


 
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