Sodium 18 nucleus
Nuclear structure of

Sodium 18
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11p7nNa18p em.1.3 zeps1-11 = 4p+7 - (4n)
11p8nNa19p em<40 ns5/2+#11 = 3p+2 + 6 - (3n)
11p9nNa20b+447.9 ms2+11 = 2p+3 + 6 - (2n)
11p10nNa21b+22.49 s3/2+11 = 1p+5 + 5 - (1n)
11p11nNa22b+2.6019 y3+11 = 1+5 + 5
11p12nNa23100%stable3/2+11 = 1+5 + 5 + (1n)
11p13nNa24e em14.959 h4+11 = 2+3 + 6 + (2n)
11p14nNa25e em59.1 s5/2+11 = 3+2 + 6 + (3n)
11p15nNa26e em1.077 s3+11 = 4+1 + 6 + (4n)
11p16nNa27301 ms5/2+11 = 3+2 + 6 + (5n)
11p18nNa2944.9 ms3/2+11 = 2+4 + 5 + (7n)
11p20nNa3117.0 ms3/2+11 = 4+2 + 5 + (9n)
11p22nNa338.4 ms3/2+#11 = 3+3 + 5 + (11n)
11p24nNa351.5 ms3/2+#11 = 2+4 + 5 + (13n)
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(half life = 1.3 zeps). Move mouse on image for Sodium 18 transition structure

Blue toruses = 18 protons
Red toruses = 7 nuclear electrons

Atomic number of Na (11) = protons (18) - nuclear electrons (7)

Sodium 18 decay by proton emission forming Neon 17 and then

Neon 17 transforms by positron emission from a source of a photon decomposition,
while the electron component of the photon captured to the center of Neon 17, forming Fluorine 17 and then

Fluorine 17 decays by proton emission (from left side position) of Fluorine 17 Fluorine 17 to Oxygen 16 (stable).

Click on image for Neon 17 nuclear structure.

Photon and particle model
Light photon modell
Nuclear properties

Nuclear composition of Neon 17 isotope torus model of Neon 17


Neon 20 nucleus Back to Main Astrojan Magnesium 24 nucleus

Na18

HHeLiBeBCNOFNe
NaMgSiSArCaFeNiNdPb