Dessian physics: Difference between revisions

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== Elementulets ==
== Elementulets ==
Dessian elements are made up of ''elementulets'', comparable to subatomic particles like quarks. These elementulets come in six distinct vibes, all of which are given a minuscule character for identifiability. They are also differentiated by their mass.
Dessian elements are made up of ''elementulets'', comparable to subatomic particles like quarks. These elementulets come in six distinct vibes, all of which are given a minuscule character for identifiability. They are also differentiated by their mass, although their volume is consistently of around 0.68 fm each.


*The '''NP''' pair
*The '''NP''' pair
**'''Negalets''' ('''n''', 0.121×10<sup>-40</sup> kg), with a negative vibe.
**'''Negalets''' ('''n''', 1,21×10<sup>-27</sup> kg), with a negative vibe.
**'''Posilets''' ('''p''', 0.420×10<sup>-40</sup> kg) with a positive vibe.
**'''Posilets''' ('''p''', 4,21×10<sup>-27</sup> kg) with a positive vibe.
*The '''UX''' pair
*The '''UX''' pair
**'''Neutrolets''' ('''u''', 0.326×10<sup>-40</sup> kg) have a neutral vibe.
**'''Neutrolets''' ('''u''', 3,26×10<sup>-27</sup> kg) have a neutral vibe.
**'''Xenolets''' ('''x''', 0.621×10<sup>-40</sup> kg) have a funky vibe.
**'''Xenolets''' ('''x''', 6,21×10<sup>-27</sup> kg) have a funky vibe.
*The '''DZ''' pair
*The '''DZ''' pair
**'''Diapherolets''' ('''d''', 0.457×10<sup>-40</sup> kg) have an interesting vibe.
**'''Diapherolets''' ('''d''', 4,57×10<sup>-27</sup> kg) have an interesting vibe.
**'''Pezolets''' ('''z''', 0.202×10<sup>-40</sup> kg) have a mundane vibe.
**'''Pezolets''' ('''z''', 2,02×10<sup>-27</sup> kg) have a mundane vibe.


== Forces ==
== Forces ==
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====Common force====
====Common force====
[[File:elementulets.svg|thumb|A chart displaying common and weird interactions.]]
[[File:elementulets.svg|thumb|A chart displaying common and weird interactions.]]
The [[common force]], governed by the [[common dolet]] (κ), binds elementulets together in a similar manner to gluons binding quarks. It does so by a similar mechanism to quarks' colour charges, called vibes. Vibes are always trying to stabilise into a calm form.
The [[common force]], governed by the [[common dolet]] (κ), binds elementulets together in a similar manner to gluons binding quarks. It does so by a similar mechanism to quarks' colour charges, called vibes. Vibes are always trying to stabilise into a calm form. The spacing between elementulets through the common dolet is of about 0,22 fm for strong binds and 0,46 fm for weak binds.
{| class="wikitable"
{| class="wikitable"
|-
|-
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====Weird force====
====Weird force====
The [[weird force]], governed by the [[weird dolet]] (π), also binds elementulets together. This force creates weird forms, that is, not calm, which if governed by the common force would break down instantly.
The [[weird force]], governed by the [[weird dolet]] (π), also binds elementulets together. This force creates weird forms, that is, not calm, which if governed by the common force would break down instantly. The spacing between elementulets through the weird dolet is of about 0,18 fm for strong binds and 0,32 fm for weak binds.
{| class="wikitable"
{| class="wikitable"
|-
|-
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====Elegant force====
====Elegant force====
The [[elegant force]] or ''elegance'', controlled by the [[elegant dolet]] (ψ), binds elements together. They do so by locking onto eachother in a jigsaw puzzle-like manner. These dolets come in two forms: the '''yes form''' and the '''no form'''. Yes binds to no and viceversa. They can change forms via a process called ''reconsideration''. Yes-reconsideration converts yes to no, and creates a negalet, neutrolet or diapherolet as byproducts. No-reconsideration converts no to yes, and creates a posilet, xenolet or pezolet as byproducts. Every elementulet cluster generates elegant dolets, based on how strong their interactions are. No interactions make one of each. Strong binds make two, weak binds make one.
The [[elegant force]] or ''elegance'', controlled by the [[elegant dolet]] (ψ), binds elements together. They do so by locking onto eachother in a jigsaw puzzle-like manner. These dolets come in two forms: the '''yes form''' and the '''no form'''. Yes binds to no and viceversa. They can change forms via a process called ''reconsideration''. Yes-reconsideration converts yes to no, and creates a negalet, neutrolet or diapherolet as byproducts. No-reconsideration converts no to yes, and creates a posilet, xenolet or pezolet as byproducts. Every elementulet cluster generates elegant dolets, based on how strong their interactions are. No interactions make one of each. Strong binds make two, weak binds make one. Spacing between elements through the elegant force varies wildly with phase, varying between ~40,000 fm to ~220,000 fm.


==== Interesting force ====
==== Interesting force ====
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!Name
!Name
!Composition
!Composition
!Mass
<small>(×10<sup>-27</sup> kg)</small>
!Density
<small>(g/L)</small>
!Group
!Group
!Phase at STP
!Appearance
!Appearance
!Description
!Description
|-
|-
! colspan="8" |D0 - Adesmic
! colspan="11" |D0 - Adesmic
|-
|-
! rowspan="6" |ψ1
! rowspan="6" |ψ1
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|Alpan
|Alpan
|n
|n
|1,21
|0,11
|Adesmic gas
|Adesmic gas
|Clear gas
|Gas
|Clear
|Least dense element possible.
|Least dense element possible.
|-
|-
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|Mahan
|Mahan
|p
|p
|4,21
|0,81
|Adesmic gas
|Adesmic gas
|Clear gas
|Gas
|Clear
|
|
|-
|-
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|Tatasthan
|Tatasthan
|u
|u
|3,26
|0,52
|Adesmic gas
|Adesmic gas
|Clear gas
|Gas
|Clear
|
|
|-
|-
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|Adbhutan
|Adbhutan
|x
|x
|6,21
|1,6
|Adesmic gas
|Adesmic gas
|Clear gas
|Gas
|Clear
|The densest of the adesmic elements.
|The densest of the adesmic elements.
|-
|-
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|Rocakan
|Rocakan
|d
|d
|4,57
|0,96
|Adesmic gas
|Adesmic gas
|Clear gas
|Gas
|Clear
|
|
|-
|-
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|Adharan
|Adharan
|z
|z
|2,02
|0,24
|Adesmic gas
|Adesmic gas
|Clear gas
|Gas
|Clear
|
|
|-
|-
! colspan="8" |D2 - κ-Bidesmic
! colspan="11" |D2 - κ-Bidesmic
|-
|-
! rowspan="3" |ψ4
! rowspan="3" |ψ4
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|
|
|n=p
|n=p
|5,42
|1,2
|
|
|Gas
|
|
|
|
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|
|
|u=x
|u=x
|9,47
|1,3
|
|
|Liquid
|
|
|
|
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|
|
|d=z
|d=z
|6,59
|2,7
|
|
|Solid
|
|
|
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|
|
|n-x
|n-x
|7,42
|2,2
|
|
|Solid
|
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|
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|p-u
|p-u
|7,47
|2,2
|
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|Solid
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|
|n-z
|n-z
|3,23
|0,48
|
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|Gas
|
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|p-d
|p-d
|8,78
|4,6
|
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|Solid
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|u-z
|u-z
|5,28
|1,0
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|Liquid
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|x-d
|x-d
|10,78
|1,5
|
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|Liquid
|
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|-
|-
! colspan="8" |D2 - π-Bidesmic
! colspan="11" |D2 - π-Bidesmic
|-
|-
! rowspan="6" |ψ4
! rowspan="6" |ψ4
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|Aranine
|Aranine
|n<sub>2</sub>
|n<sub>2</sub>
|2,42
|0,32
|Entigen
|Entigen
|Clear gas
|Gas
|Clear
|Likes to stick to other elements, forming aranides.
|Likes to stick to other elements, forming aranides.
|-
|-
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|Solanium
|Solanium
|p<sub>2</sub>
|p<sub>2</sub>
|8,42
|1,2
|Entigen
|Entigen
|Clear liquid
|Liquid
|Clear, non-viscous
|Likes to stick to aranine a lot, forming hard air
|Likes to stick to aranine a lot, forming hard air
|-
|-
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|u<sub>2</sub>
|6,52
|1,7
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|Gas
|
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|x<sub>2</sub>
|12,42
|1,8
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|Liquid
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|d<sub>2</sub>
|d<sub>2</sub>
|9,14
|3,8
|
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|Solid
|
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|z<sub>2</sub>
|z<sub>2</sub>
|4,04
|0,78
|
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|Gas
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|n.u
|n.u
|4,47
|0,77
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|Gas
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|p.x
|p.x
|10,42
|1,4
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|Liquid
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|n.d
|n.d
|5,78
|2,1
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|Solid
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|p.d
|p.d
|6,23
|1,0
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|Liquid
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|u.d
|u.d
|7,83
|1,3
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|Liquid
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|x.z
|x.z
|8,23
|1,3
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|Liquid
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|-
|-
! colspan="8" |D3 - Tridesmic
! colspan="11" |D3 - Tridesmic
|-
|-
! rowspan="6" |ψ6
! rowspan="6" |ψ6
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|Elenine
|Elenine
|n<sub>3</sub>
|n<sub>3</sub>
|Breathing metals
|
|Silvery solid
|
|Breathing metal
|Solid
|Silvery
|
|
|-
|-
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|Clunium
|Clunium
|p<sub>3</sub>
|p<sub>3</sub>
|Breathing metals
|
|Reflective violet solid
|
|Breathing metal
|Solid
|Reflective violet
|
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|-
|-
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|u<sub>3</sub>
|u<sub>3</sub>
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|n<sub>2</sub>.u
|n<sub>2</sub>.u
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|p<sub>2</sub>.x
|p<sub>2</sub>.x
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|n.u<sub>2</sub>
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|p.x<sub>2</sub>
|p.x<sub>2</sub>
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|n<sub>2</sub>.d
|n<sub>2</sub>.d
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|p<sub>2</sub>.d
|p<sub>2</sub>.d
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|n.d<sub>2</sub>
|n.d<sub>2</sub>
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|p.d<sub>2</sub>
|p.d<sub>2</sub>
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|u<sub>2</sub>.d
|u<sub>2</sub>.d
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|x<sub>2</sub>.z
|x<sub>2</sub>.z
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|u.d<sub>2</sub>
|u.d<sub>2</sub>
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|x.z<sub>2</sub>
|x.z<sub>2</sub>
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|-
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! colspan="8" |D4 - κ-Tetradesmic
! colspan="11" |D4 - κ-Tetradesmic
|-
|-
! rowspan="3" |ψ8
! rowspan="3" |ψ8
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|(n=p)<sub>2</sub>
|(n=p)<sub>2</sub>
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|(u=x)<sub>2</sub>
|(u=x)<sub>2</sub>
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|(d=z)<sub>2</sub>
|(d=z)<sub>2</sub>
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|(n-x)<sub>2</sub>
|(n-x)<sub>2</sub>
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|(p-u)<sub>2</sub>
|(p-u)<sub>2</sub>
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|(n-z)<sub>2</sub>
|(n-z)<sub>2</sub>
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|(p-d)<sub>2</sub>
|(p-d)<sub>2</sub>
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|(u-z)<sub>2</sub>
|(u-z)<sub>2</sub>
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|(x-d)<sub>2</sub>
|(x-d)<sub>2</sub>
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|-
|-
! colspan="8" |D4 - κ-Tetradesmic
! colspan="11" |D4 - κ-Tetradesmic
|-
|-
! rowspan="6" |ψ8
! rowspan="6" |ψ8
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|n<sub>4</sub>
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Revision as of 04:06, 15 February 2026

Physics within the dess work differently than in our universe.

Elementulets

Dessian elements are made up of elementulets, comparable to subatomic particles like quarks. These elementulets come in six distinct vibes, all of which are given a minuscule character for identifiability. They are also differentiated by their mass, although their volume is consistently of around 0.68 fm each.

  • The NP pair
    • Negalets (n, 1,21×10-27 kg), with a negative vibe.
    • Posilets (p, 4,21×10-27 kg) with a positive vibe.
  • The UX pair
    • Neutrolets (u, 3,26×10-27 kg) have a neutral vibe.
    • Xenolets (x, 6,21×10-27 kg) have a funky vibe.
  • The DZ pair
    • Diapherolets (d, 4,57×10-27 kg) have an interesting vibe.
    • Pezolets (z, 2,02×10-27 kg) have a mundane vibe.

Forces

The elementulets are all governed by a series of forces, regulated by their own particles, called dolets.

Common force

A chart displaying common and weird interactions.

The common force, governed by the common dolet (κ), binds elementulets together in a similar manner to gluons binding quarks. It does so by a similar mechanism to quarks' colour charges, called vibes. Vibes are always trying to stabilise into a calm form. The spacing between elementulets through the common dolet is of about 0,22 fm for strong binds and 0,46 fm for weak binds.

n p u x d z
n Strong Repel Strong Repel Weak Repel Weak
p Strong Strong Repel Weak Repel Weak Repel
u Repel Weak Strong Repel Strong Repel Weak
x Weak Repel Strong Strong Repel Weak Repel
d Repel Weak Repel Weak Strong Repel Strong
z Weak Repel Weak Repel Strong Strong Repel

Weird force

The weird force, governed by the weird dolet (π), also binds elementulets together. This force creates weird forms, that is, not calm, which if governed by the common force would break down instantly. The spacing between elementulets through the weird dolet is of about 0,18 fm for strong binds and 0,32 fm for weak binds.

n p u x d z
n Strong Strong Repel Weak Repel Weak Repel
p Strong Repel Strong Repel Weak Repel Weak
u Weak Repel Strong Strong Repel Weak Repel
x Repel Weak Strong Repel Strong Repel Weak
d Weak Repel Weak Repel Strong Strong Repel
z Repel Weak Repel Weak Strong Repel Strong

Elegant force

The elegant force or elegance, controlled by the elegant dolet (ψ), binds elements together. They do so by locking onto eachother in a jigsaw puzzle-like manner. These dolets come in two forms: the yes form and the no form. Yes binds to no and viceversa. They can change forms via a process called reconsideration. Yes-reconsideration converts yes to no, and creates a negalet, neutrolet or diapherolet as byproducts. No-reconsideration converts no to yes, and creates a posilet, xenolet or pezolet as byproducts. Every elementulet cluster generates elegant dolets, based on how strong their interactions are. No interactions make one of each. Strong binds make two, weak binds make one. Spacing between elements through the elegant force varies wildly with phase, varying between ~40,000 fm to ~220,000 fm.

Interesting force

The interesting force or interest, controlled by the interesting dolet (ρ), is analogous to the electromagnetic force of the cosmos, bearing striking similarity to it. Similarly to how ions bind by exchanging electrons, interest can also bind elements together through exchanging interesting dolets.

Cordial force

The cordial force or cordiality, governed by the cordial dolet (φ), binds large masses together, generating cordiality, analogous to gravity.

Dessian elements

Clunium (symbol Ⲕⲗ), a breathing metal, whose atoms are made of three pezolets each.

Dessian elements are analogous to cosmic elements. They are the building blocks of every material in the dess, and are made of elementulets strung together into a ring shape.

Elegance Pair Symbol Name Composition Mass

(×10-27 kg)

Density

(g/L)

Group Phase at STP Appearance Description
D0 - Adesmic
ψ1 NP Ⲁⲗ Alpan n 1,21 0,11 Adesmic gas Gas Clear Least dense element possible.
Ⲙⲁ Mahan p 4,21 0,81 Adesmic gas Gas Clear
UX Ⲧⲁ Tatasthan u 3,26 0,52 Adesmic gas Gas Clear
Ⲁⲇ Adbhutan x 6,21 1,6 Adesmic gas Gas Clear The densest of the adesmic elements.
DZ Ⲣϫ Rocakan d 4,57 0,96 Adesmic gas Gas Clear
Ⲁⲣ Adharan z 2,02 0,24 Adesmic gas Gas Clear
D2 - κ-Bidesmic
ψ4 NP n=p 5,42 1,2 Gas
UX u=x 9,47 1,3 Liquid
DZ d=z 6,59 2,7 Solid
ψ2 NPUX n-x 7,42 2,2 Solid
p-u 7,47 2,2 Solid
NPDZ n-z 3,23 0,48 Gas
p-d 8,78 4,6 Solid
UXDZ u-z 5,28 1,0 Liquid
x-d 10,78 1,5 Liquid
D2 - π-Bidesmic
ψ4 NP Aranine n2 2,42 0,32 Entigen Gas Clear Likes to stick to other elements, forming aranides.
Ⲥⲗ Solanium p2 8,42 1,2 Entigen Liquid Clear, non-viscous Likes to stick to aranine a lot, forming hard air
UX u2 6,52 1,7 Gas
x2 12,42 1,8 Liquid
DZ d2 9,14 3,8 Solid
z2 4,04 0,78 Gas
ψ2 NPUX n.u 4,47 0,77 Gas
p.x 10,42 1,4 Liquid
NPDZ n.d 5,78 2,1 Solid
p.d 6,23 1,0 Liquid
UXDZ u.d 7,83 1,3 Liquid
x.z 8,23 1,3 Liquid
D3 - Tridesmic
ψ6 NP Elenine n3 Breathing metal Solid Silvery
Ⲕⲗ Clunium p3 Breathing metal Solid Reflective violet
UX u3
x3
DZ d3
z3
ψ4 NPUX n2.u
p2.x
n.u2
p.x2
NPDZ n2.d
p2.d
n.d2
p.d2
UXDZ u2.d
x2.z
u.d2
x.z2
D4 - κ-Tetradesmic
ψ8 NP (n=p)2
UX (u=x)2
DZ (d=z)2
ψ4 NPUX (n-x)2
(p-u)2
NPDZ (n-z)2
(p-d)2
UXDZ (u-z)2
(x-d)2
D4 - κ-Tetradesmic
ψ8 NP n4
p4
UX u4
x4
DZ d4
z4
ψ6 NPUX n3.u
p3.x
n2.u2
p2.x2
n.u3
p.x3
NPDZ n3.d
p3.d
n2.d2
p2.d2
n.d3
p.d3
UXDZ u3.d
x3.z
u2.d2
x2.z2
u.d3
x.z3

Desmism

Desmism represents the amount of connections present in an element's structure. Because of the nature of the binding forces, odd-numbered desmic groups will always be weird.

  • Adesmic (D0) elements present no bonds, being entirely made out of one type of elementulet.
  • Bidesmic (D2) elements present two bonds, thereby being made of two elementulets.
  • Tridesmic (D3) elements present three bonds, and are therefore made of three elementulets.
  • ... and so on and so forth.

Pentadesmic elements and above are highly unstable and will attempt to separate into smaller forms, releasing weird energy (not to be confused with the weird force) and heat as a byproduct.

They are further divided in groups according to certain common characteristics they share:

  • The entigens are elements essential for entities to arise.
  • The breathing metals are all solids that are prone to aranise.
  • The uncouth elements have low elegance, and require more energy to create elegant bonds.
  • The gross metals are solids that display elevated dielegance (repulsion) and reflectivity.
  • The artless solids are unusually soft while not being gelatins.
  • The cursive liquids have an unusually low viscosity.
  • The adesmic gases comprise all six adesmic elements. They have extremely low elegance and as such are very unreactive.

Above these groups, elements are divided by their weirdness. That is, whether their elementulets are governed by the weird force:

  • The calm elements are elements whose elementulets are governed by the common force.
  • The weird elements are those whose elementulets are governed by the weird force.
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