Boron 9 nucleus
Nuclear structure of

Carbon 9
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6p2nC82p em1.98 zs0+6 = 4p+2 - (4n)
6p3nC9b+126.5 ms3/2-6 = 3p+3 - (3n)
6p4nC10b+19.290 s0+6 = 2p+4 - (2n)
6p5nC11b+20.334 min3/2-6 = 1p+5 - (1n)
6p6nC1298.89%stable0+6 = 3+3
6p7nC131.11%stable1/2-6 = 1+5 + (1n)
6p8nC14e em5700 y0+6 = 2+4 + (2n)
...
 

isotope (half life = 126.5 ms). Move mouse on image for Boron 9.

Blue toruses = 9 protons
Red toruses = 3 nuclear electrons

Atomic number of C (6) = protons (9) - nuclear electrons (3)

Carbon 9 emits positron from a source of photon decomposition, while other component of the photon,
the electron captured to central part of Carbon 9 forming Boron 9 nucleus.

Boron 9 destabilized form decays by proton emission (uniquely from central position), forming two He4 nucleus particles.

Carbon 9 may formed by decay of Nitrogen 10 nucleus


Photon model of light
Structure of nuclei of elements
Nuclear symmetry


Carbon 8 nucleus Carbon 10 nucleus

C8C9C10C11C12C13C14C15C16C17

HHeLiBeBCNOFNe
NaMgSiSArCaFeNiNdPb

 

Carbon 9 beta+ decay (60%) where the absorbed electron originated from a gamma photon as a source of pair production. The milliseconds lifetime enough for catching a light before C9 emits a proton from an end position of nuclear proton rod (23%).


 
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