Tripletes de Larson
Atomic Number Equation Based on Larson’s Triplets
David Halprin
Where Z represents the Atomic Number, and (a, b, c) is the number triplet representing the atoms:
Z+2=(a(a−1)(2a−1)+b(b+1)(2b+1)/3)+c (1)
If a = b then this reduces to
14 to 27
Z+2=(2b (2b2+1))/3+c (2)
If a = b + 1 then it reduces to
a=b | a=b | a=b+1 | |||||
a | b | a | b | Range of c | Z | Range of Z | |
2 | 1 | -1 to 4 | c + 2 | 1 to 6 | |||
2 | 2 | -3 to 4 | c + 10 | 7 to 14 | |||
3 | 2 | -3 to 9 | c + 18 | 15 to 27 | |||
3 | 3 | -8 to 9 | c + 36 | 28 to 45 | |||
4 | 3 | -8 to 16 | c + 54 | 46 to 70 | |||
4 | 4 | -15 to 16 | c + 86 | 71 to 102 | |||
5 | 4 | -15 to -1 | c + 118 | 103 to 117 | |||
Equations (2) and (3) are just simplifications of Equation (1) when a = b and a = b + 1 respectively.
Some specific examples:
Larsonium (*)
5-4-(1) substituted into Equation (3) gives Z = 117 as expected, however there is an
interesting aside to consider, despite its counter-intuitive appearance and it requires some interpretation
within RS too.
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* Not an “official” name for the element; also identified as Farnsium in Futurama episode, “Near-Death Wish.”
Copyright ©2002 by ISUS, Inc. All rights reserved.2 Atomic Number Equation Based on Larson’s Triplets
Atom/Particle | Atomic Number | Atomic Number |
Atom/Particle | a-b-c | Z |
0-0-(1) | -3 | |
Electron | 1-0-(1) | -3 |
Rotational base | 1-0-0 | -2 |
Rotational base | 0-0-0 | -2 |
Rotational base | 0-0-1 | -1 |
Positron | 1-0-1 | -1 |
Neutrino | 1-1-(1) | -1 |
Neutron | 1-1-0 | 0 |
Deuteron | 1-1-0 | 0 |
Alpha Particle | 1-1-0 | 0 |
Deuterium | 1-1-1 |
H 2-1-(1) |
He 2-1-0 | ||||||||||||||||
Li 2-1-1 |
Be 2-1-2 |
B 2-1-3 |
C 2-1-4 |
N 2-2-(3) |
O 2-2-(2) |
F 2-2-(1) |
Ne 2-2-0 | ||||||||||
Na 2-2-1 |
Mg 2-2-2 |
Al 2-2-3 |
Si 2-2-4 |
P 3-2-(3) |
S 3-2-(2) |
Cl 3-2-(1) |
Ar 3-2-0 | ||||||||||
K 3-2-1 |
Ca 3-2-2 |
Sr 3-2-3 |
Ti 3-2-4 |
V 3-2-5 |
Cr 3-2-6 |
Mn 3-2-7 |
Fe 3-2-8 |
Co 3-2-9 |
Ni 3-3-(8) |
Cu 3-3-(7) |
Zn 3-3-(6) |
Ga 3-3-(5) |
Ge 3-3-(4) |
As 3-3-(3) |
Se 3-3-(2) |
Br 3-3-(1) |
Kr 3-3-0 |
Rb 3-3-1 |
Sr 3-3-2 |
Y 3-3-3 |
Zr 3-3-4 |
Nb 3-3-5 |
Mo 3-3-6 |
Tc 3-3-7 |
Ru 3-3-8 |
Rh 3-3-9 |
Pd 4-3-(8) |
Ag 4-3-(7) |
Cd 4-3-(6) |
In 4-3-(5) |
Sn 4-3-(4) |
Sb 4-3-(3) |
Te 4-3-(2) |
I 4-3-(1) |
Xe 4-3-0 |
Cs 4-3-1 |
Ba 4-3-2 |
La 4-3-3 |
Hf 4-4-(14) |
Ta 4-4-(13) |
W 4-4-(12) |
Re 4-4-(11) |
Os 4-4-(10) |
Ir 4-4-(9) |
Pt 4-4-(8) |
Au 4-4-(7) |
Hg 4-4-(6) |
Tl 4-4-(5) |
Pb 4-4-(4) |
Bi 4-4-(3) |
Po 4-4-(2) |
At 4-4(1) |
Rn 4-4-0 |
Fr 4-4-1 |
Ra 4-4-2 |
Ac 4-4-3 |
Ku 5-4-(13) |
Ha 5-4-(14) |
|||||||||||||
Ce 4-3-4 |
Pr 4-3-5 |
Nd 4-3-6 |
Pm 4-3-(7) |
Sm 4-3-(8) |
Eu 4-3-(9) |
Gd 4-3-(10) |
Tb 4-3-(11) |
Dy 4-3-(12) |
Ho 4-3-(13) |
Er 4-3-(14) |
Tm 4-3-(15) |
Yb 4-3-(16) |
Lu 4-4-(15) | ||||
Th 4-4-4 |
Pa 4-4-5 |
U 4-4-6 |
Np 4-4-7 |
Pu 4-4-8 |
Am 4-4-9 |
Cm 4-4-10 |
Bk 4-4-11 |
Cf 4-4-12 |
Es 4-4-13 |
Fm 4-4-14 |
Md 4-4-15 |
No 4-4-16 |
Lr 5-4-(15) |