Nitrogen 16 nuclear structure decay form
Nuclear structure of

Nitrogen 16
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7p3nN10200 yoctos2-7 = 4p+3 - (4n)
7p4nN11p em590 ys1/2+7 = 3p+4 - (3n)
7p5nN12b+11.000 ms1+7 = 2p+5 - (2n)
7p6nN13b+9.965 min1/2-7 = 1p+6 - (1n)
7p7nN1499.634%stable1+7 = 4+3
7p8nN150.366%stable1/2-7 = 1+6 + (1n)
7p9nN16e em7.13 s2-7 = 2+5 + (2n)
7p10nN17e em4.173 s1/2-7 = 3+4 + (3n)
...
 

(half life = 7.13 s). Move mouse on image for Nitrogen 16 nucleus decay form.

Blue toruses = 16 protons
Red toruses = 9 nuclear electrons

Atomic number of N (7) = protons (16) - nuclear electrons (9)

Nitrogen 16 decays by electron emission of Nitrogen 16 decay form, forming Oxygen 16 nucleus (stable).

In reality the emission of an electron always happen from one of the end position of proton nanotube (not indicated), not from central part, never.

Click mouse on image for Oxygen 16 nucleus.


Yin-yang photon model of light
Nuclear symmetry,       Nuclear structure of elements
Nuclear properties


Nitrogen 15 nucleus Nitrogen 17 nucleus

N10N11N12N13N14N15N16N17

HHeLiBeBCNOFNe
NaMgSiSArCaFeNiNdPb

 

Nitrogen 16 nuclear structure, half life = 7.13 sec. N16 decomposition into Oxygen 16 stable isotope after decay. N16 nucleus consist of 16 proton and contain 9 nuclear electron. The outer surface of nuclei is higly negative in consequence of nuclear electron nanotube. These negative charge cloud prevents electron shell of falling into the atomic nucleus. The torus model.


 
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