Carbon 10 nuclear structure
Nuclear structure of

Carbon 10
.ooOOoo.
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 = 19.290 s). Move mouse on image for Carbon 10 recombinant (hybrid) nuclear structure

Blue toruses = 10 protons
Red toruses = 4 nuclear electrons

Atomic number of C (6) = protons (10) - nuclear electrons (4)

Carbon 10 undergo a transformation of b+ electron capture (into the central position) of recombinant structure forming Boron 10 stable nucleus.
The other component of the participant photon decomposition, the residual positron emitted.


Light photon model
Béta bomlások

Nuclear proton and electron structure of isotope Carbon 10 and nuclear composition of Carbon 10 recombinant nuclei C10. A pozitron kibocsátás párkeltés lehet, amiből az elektron felhasználódik a magban míg a pozitron kisugárzódik, eltávozik a magból


Carbon 9 nucleus Carbon 11 nucleus

C8C9C10C11C12C13C14C15C16C17

HHeLiBeBCNOFNe
NaMgSiSArCaFeNiNdPb