Chlorine 36
Atom -
2 years 11 months ago
The placement of the last Proton is debatable. It has a similar configuration (most likely) as the Fluorine element (19).
Both COULD have a different position,
1 is the complete neutral ending on the N01 nuclet. or on top of the 'pole' Which often works like a ' conveyor belt of protons (neutrons) and this position is involved in nuclear transformations.
This is the Cl 36 isotope which will decay into Ar 36.
Element | |
Valence | 6, 5, 4, 3, 2, 1, 0, *-1, -2 |
Stability |
Unstable
|
Isotope |
1
|
Abundance | |
Half Life |
301300 Y
|
Decay | |
Protons |
36
|
Inner Electrons |
19
|
Outer Electrons |
17
|
Nuclear Spin |
2+
|
Mass Actual | |
Mass H Norm |
0.0000 AMU
|
Mass Calc |
36.2817 AMU
|
BE Nucleon |
8521.93 KeV
|
BE Actual |
306.79 MeV
|
SAM Lines | |
BE SAM Lines |
0.00 MeV
|
BE Difference |
0.00%
|
AN-ISOTOPE |
17: 36
|
Nid | 250 |
Atomic structure
N0:
state: final
protons:
P0:
P1:
P2:
P3:
P4:
P5:
P6:
P7:
P8:
P9:
P10:
P11:
P12:
P13:
P14:
P15:
neutrons: [U00]
nuclets:
N01:
state: initial
attachAngle: 3
protons:
P0:
P1:
P2:
P3:
P4:
P5:
P6:
P7:
P8:
P9:
P11:
P13: {color: neutron}
P14:
P15:
P16:
P17:
P18:
P19:
neutrons: [U10]
state: final
protons:
P0:
P1:
P2:
P3:
P4:
P5:
P6:
P7:
P8:
P9:
P10:
P11:
P12:
P13:
P14:
P15:
neutrons: [U00]
nuclets:
N01:
state: initial
attachAngle: 3
protons:
P0:
P1:
P2:
P3:
P4:
P5:
P6:
P7:
P8:
P9:
P11:
P13: {color: neutron}
P14:
P15:
P16:
P17:
P18:
P19:
neutrons: [U10]