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Table of information for the Lagrangian points of the UVS atomic model


The UVS atomic model with a nested dual-core electron shell. Electrons are spawned at Lagrangian points.


A diagram showing the five Lagrangian points.

Shell

Maximum electrons
Subshell
Maximum
electrons
K
2
1s
2
L
8
2s
2
2p
6
M
18
3s
2
3p
6
3d
10
N
32
4s
2
4p
6
4d
10
4f
14
Table of information for electron shells and their subshells

Shell

Maximum electrons
Subshell
Maximum
electrons
Label
Spin
Lagrangian
point

Interacting
sources

Remarks
K
2
1s
2

L1

L2

C

Anti

L1

L2

n / ECOM

n / ECOM

This Lagrangian point is the center of 2nd sphere.

This Lagrangian point is the center of 3rd sphere.
L

8

2s
2

L1-2s

L1-2s

C

Anti

L1

L2

n / ECOM

n / ECOM

This is manifested on the inner shell wall of L shell, also L1 of L1.

This is manifested on the inner shell wall of L shell, also L1 of L2.
2p
6

L1-2p

L2-2p
L5-L1-2p
L4-L1-2p
L4-L2-2p
L5-L2-2p

C

Anti
C
C
Anti
Anti

L1

L2
L5
L4
L4
L5

n / ECOM

n / ECOM
L1-2p / n
L1-2p / n
L2-2p / n
L2-2p / n

This L1 harmonic is manifested on the outer shell wall of L shell.

This L2 harmonic is manifested on the outer shell wall of L shell.
This is the L5 Langangian point of L1-2p / n.
This is the L4 Langangian point of L1-2p / n.
This is the L4 Langangian point of L2-2p / n.
This is the L5 Langangian point of L2-2p / n.
M
18
3s
2

L1-3s

L2-3s

C

Anti

L1

L2

n / ECOM

n / ECOM
This is manifested on the inner shell wall of M shell, also L1 of L1.
This is manifested on the inner shell wall of M shell, also L1 of L2.
3p
6

L1-3p

L2-3p
L5-L1-3p
L4-L1-3p
L4-L2-3p
L5-L2-3p

C

Anti
C
C
Anti
Anti

L1

L2
L5
L4
L4
L5

n / ECOM

n / ECOM
L1-3p / n
L1-3p / n
L2-3p / n
L2-3p / n

Also the harmonics of L1-2p.

Also the harmonics of L2-2p.
Also the harmonics of L5-L1-2p.
Also the harmonics of L4-L1-2p.
Also the harmonics of L4-L2-2p.
Also the harmonics of L5-L2-2p.
3d
10

3d-1

3d-2
3d-3
3d-4
3d-5
3d-6
3d-7
3d-8
3d-9
3d-10

Anti

Anti
Anti
Anti
Anti
C
C
C
C
C

L4

L4
L2
L5
L5
L4
L4
L1
L5
L5

3d-3 / n

L2-4p / L2
n / ECOM
L2-4p / L2
3d-3 / n
3d-8 / n
L2-4p / L1
n / ECOM
L2-4p / L1
3d-8 / n

Also the harmonics of L4-L2-3p.

This is the L4 Langangian point of L2-4p / L2.
This L2 harmonic is manifested on the outer shell wall of M shell.
This is the L5 Langangian point of L2-4p / L2.
Also the harmonics of L5-L2-3p.
Also the harmonics of L4-L1-3p.
This is the L4 Langangian point of L2-4p / L1.
This L1 harmonic is manifested on the outer shell wall of M shell.
This is the L4 Langangian point of L2-4p / L1.
Also the harmonics of L5-L1-3p.
N
32
4s
2

L1-4s

L2-4s

C

Anti

L1

L2

n / ECOM

n / ECOM

This is manifested on the inner shell wall of N shell, also L1 of L1.

This is manifested on the inner shell wall of N shell, also L1 of L2.
4p
6

L1-4p

L2-4p
L4-L1-4p
L5-L1-4p
L4-L2-4p
L5-L2-4p

C

Anti
C
C
Anti
Anti

L1

L2
L5
L4
L4
L5

n / ECOM

n / ECOM
3d-8 / n
3d-8 / n
3d-3 / n
3d-3 / n

Also the harmonics of 3d-8.

Also the harmonics of 3d-3.
Also the harmonics of 3d-6.
Also the harmonics of 3d-10.
Also the harmonics of 3d-1.
Also the harmonics of 3d-5.
4d
10

4d-1

4d-2
4d-3
4d-4
4d-5
4d-6
4d-7
4d-8
4d-9
4d-10

Anti

Anti
Anti
Anti
Anti
C
C
C
C
C

L4

L4
L2
L5
L5
L4
L4
L1
L5
L5
4d-3 / n
4f-4 / L2- 2p
n / ECOM
4f-4 / L2- 2p
4d-3 / n
4d-8 / n
4f-11 / L1- 2p
n / ECOM
4f-11 / L1- 2p
4d-8 / n
Also the harmonics of L4-L2-4p.
This is the L4 Langangian point of 4f-4 / L2- 2p.
Also the harmonics of L2-4p.
This is the L5 Langangian point of 4f-4 / L2- 2p.
Also the harmonics of L5-L2-4p.
Also the harmonics of L4-L1-4p.
This is the L4 Langangian point of 4f-11 / L1- 2p.
Also the harmonics of L1-4p.
This is the L5 Langangian point of 4f-11 / L1- 2p.
Also the harmonics of L5-L1-4p.
4f
14

4f-1

4f-2
4f-3
4f-4
4f-5
4f-6
4f-7
4f-8
4f-9
4f-10
4f-11
4f-12
4f-13
4f-14

Anti

Anti
Anti
Anti
Anti
Anti
Anti
C
C
C
C
C
C
C

L4

L4
L4
L2
L5
L5
L5
L4
L4
L4
L1
L5
L5
L5
4f-4 / n
L2 of 4f-4 / L2
L2 of 4f-4 / 3d-3
n / ECOM
L2 of 4f-4 / 3d-3
L2 of 4f-4 / L2
4f-4 / n
4f-11 / n
L2 of 4f-11 / L1
L2 of 4f-11 / 3d-8
n / ECOM
L2 of 4f-11 / 3d-8
L2 of 4f-11 / L1
4f-11 / n
Also the harmonics of 4d-1.
This is the L4 Langangian point of L2 of 4f-4 / L2.
This is the L4 Langangian point of L2 of 4f-4 / 3d-3.
This is manifested on the outer shell wall of L shell.
This is the L5 Langangian point of L2 of 4f-4 / 3d-3.
This is the L5 Langangian point of L2 of 4f-4 / L2 .
Also the harmonics of 4d-5.
Also the harmonics of 4d-6.
This is the L4 Langangian point of L2 of 4f-11 / L1.
This is the L4 Langangian point of L2 of 4f-11 / 3d-8.
This is manifested on the outer shell wall of L shell.
This is the L5 Langangian point of L2 of 4f-11 / 3d-8.
This is the L5 Langangian point of L2 of 4f-11 / L1.
Also the harmonics of 4d-10.

Interacting sources: ECOM - External center of mass or barycenter, n - Nucleus as well as it is the center of the hypersphere. Spin: C - Cyclonic, Spin: Anti - Anti-cyclonic.

 

 

Note: The hypothetical 3D UVS atomic model with apparently nested orbitals that form as a torus-shaped nested electron shell, cannot be clearly illustrated with its 2D diagram as shown above, therefore different symbols and color codes are used to illustrate the shells and their subshell groups of electrons for categorization. This not engineering and not to scale diagram without exact details such as the van der Waals radius, merely labeled the Lagrangian points in the electron groups of the K shell and the L shell in simple details, partially labeled the M shell, and the Lagrangian points on the subshells of the N shell are simply indicated with the labels indicating their subshells with a running number. Nonetheless, these should suffice to illustrate the electron positions in the hypothesized UVS atomic structure of a nested 3-sphere electron shell, are fundamentally correlated to the interacting Lagrangian points and their harmonics.

Disclaimers: The above diagram of the UVS atomic model, is a basic illustration with approximated locations of those hypothesized Lagrangian points, and these are subjected to errors and omissions.

Author: Vincent Wee-Foo

 

 

References and links:
Van der Waals radius - From Wikipedia, the free encyclopedia
Diagram for the UVS atomic model with a nested dual-core electron shell
- By Vincent Wee-Foo
A diagram showing the five Lagrangian points - Public domain
Table of information for electron shells and their subshells - From Wikipedia, the free encyclopedia

Image of inner subshells - Vincent Wee-Foo


 

Disclaimers: The treatise of Universal Vortical Singularity (UVS) in its epistemological paradigm shift, is fundamentally unconventional. Its hypotheses based on the unheard-of UVS model, are bounded to have shortcomings, loose ends, and errors. Many details and assumptions of its propositions established in the conceptual frameworks of UVS, have yet to be further researched, probed, evaluated, validated, or proven. Its implicit explanations are for casual understanding of the topics presented in the UVS worldview, and any term or statement if offensive in any manner or whatsoever is most regretted. Links to other sites do not imply endorsement of their contents; apply appropriate discretion whenever necessary. Inevitably for whatsoever reasons, some viewing devices at times could experience data corruption for text, disorganized content layouts, missing images, failed animations, and some external links might have had ceased to exist. The presentations of the web pages are not friendly to small mobile devices, it is therefore recommended to accessed and view the UVS contents with a system device that has a larger screen, such as personal computer, android tablet, or iPad. For the best experience to explore UVS, it is better to use a MS Windows based PC or device using Internet Explorer or Firefox installed with Java that works for its interactive applets. (Such as JPL Small-Body Database Browser, and Planet Finder.)

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