ATSL atoms

= ⌬Info about ATSL atoms =  Size: 1 ATU 

Class: - ∅ Protoclass (0) ∅  -

 Contains: ATSL elemen tary particles, ATS: subato mic particles 

Hekc  ← ATSL atoms → ATSL subatomic particles 

Atoms at ATSL level are much, much smaller than proto verse s, and act differently than normal at oms . It is the biggest particle in Absolutely Tiny Particles, but couldn't be found in Protoverses. It has a strange size, that is equal to $$\frac{1}{\omega}$$He <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">cc  diameters, meaning that it is not negative, but weirdly positive.

These atoms actually repel practically every single thing that gets close to it. That means no force can push it, and ATSL atoms aren't affected by gravity, radiation, or any bigger particle at all. Therefore, they are dangerous to ordinary verses, like <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">univ <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">erses . Hide = Click "Show" to see more detailed contents ===<span style="background: -webkit-linear-gradient(left, #B300FF, #B300FF);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #B300FF, #B300FF);">⌬Comp <span style="background: -webkit-linear-gradient(left, #B300FF, #00FF88);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #B300FF, #00FF88);">ositi <span style="background: -webkit-linear-gradient(left, #00FF88, #00FF88);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #00FF88, #00FF88);">ons of <span style="background: -webkit-linear-gradient(left, #00FF88, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #00FF88, #FFCC00);"> Atoms <span style="background: -webkit-linear-gradient(left, #FFCC00, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FFCC00, #FFCC00);"> (ATSL) === Like ordinary atoms of countless <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">ver <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">ses , ATSL atoms are made of smaller compositions (elementary particles) of their own. A center core of stuck-together arrangements of particles, other arrangements of particles orbiting it, and a force keeping a balance between orbiter and center. A lot similar to common atoms inside verse! WELL EXCEPT IT ISN'T :OOOO! actually, ATSL atoms are more like small <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">ver <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">ses  distantly orbiting large, closely orbiting verses. Each particle (not elementary particles) making up the ATSL atom has different arrangements of <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">ATSL elementa <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">ry particles. In some cases, some sort of amazing verse-like particle can appear. ===<span style="background: -webkit-linear-gradient(left, #B300FF, #B300FF);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #B300FF, #B300FF);">⌬ <span style="background: -webkit-linear-gradient(left, #B300FF, #B300FF);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #B300FF, #B300FF);">"Ele <span style="background: -webkit-linear-gradient(left, #B300FF, #00FF88);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #B300FF, #00FF88);">men <span style="background: -webkit-linear-gradient(left, #00FF88, #00FF88);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #00FF88, #00FF88);">t N <span style="background: -webkit-linear-gradient(left, #00FF88, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #00FF88, #FFCC00);">umb <span style="background: -webkit-linear-gradient(left, #FFCC00, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FFCC00, #FFCC00);">er" === Although individual components are nothing like ordinary, observably small <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">ato <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">ms , ATSL atoms also have "element number". It is determined by the number of particles at the ATSL atom core. And there is another critical difference between ordinary atoms and ATSL atoms: "Properties of ATSL atoms mostly follow numerical order (for example, every ATSL atom with element number of 100's multiple are <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">Meg <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">asus), in contrast to ordinary atoms that do not." Below is some important properties appearing according to the numerical pattern:
 * -| Show =

... it will not be able to have any ATSL <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">elec <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">tron  orbiting it. This is because the ATSL atom has too little binding force compared to its size. ...ATSL atoms will slowly lose the core by the process of their particles disappearing away and become something like positronium. Oh, and by the way, positronium is not a hard concept (at least painfully oversimplified literal description is) that will make you say "<span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">w <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">tf" understanding it. It is just some sort of matter with one positive-charge electron (positron) and normal electron orbit each other. Weirdly enough, it forms (sort of) an atom similar to one we are made of.
 * <span style="background: -webkit-linear-gradient(left, #1AFF00, #FFF703);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #1AFF00, #FFF703);"> ⌬    <span style="background: -webkit-linear-gradient(left, #1AFF00, #FFF703);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #1AFF00, #FFF703);">If the ATSL atom's atomic number is multiples of 2, 3, 5, or any prime number between 0 to Absolute Infinity  (which is  $$\Omega$$), then they will eventually decay over time to become the atomic number that is not multiples of prime numbers. However, the decay of these ATSL atoms is not regular. Some may just decay once then find equilibrium, and some may decay infinitely then pop out of existence. And in extreme cases, decay does not decrease ATSL atomic number. It is the exact opposite: it increases !
 * <span style="background: -webkit-linear-gradient(left, #FFF703, #FF8000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FFF703, #FF8000);"> ⌬    <span style="background: -webkit-linear-gradient(left, #FFF703, #FF8000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FFF703, #FF8000);">If the ATSL atom's atomic number is any natural number beyond this  : $$f_{\psi(\underbrace{ \omega,\Gamma 0,\Gamma _{\Gamma 0},\Gamma _{\Gamma _{\Gamma 0}},\cdots,\Gamma_{\Gamma _{\cdots_{\Gamma _{\Gamma 0}}}},\Omega) }_{\omega}}((\omega2)\epsilon0\uparrow\uparrow177)$$ (where $$f(x)$$is $$\Gamma x$$)
 * <span style="background: -webkit-linear-gradient(left, #FF8000, #FF1605);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF8000, #FF1605);"> ⌬    <span style="background: -webkit-linear-gradient(left, #FF8000, #FF1605);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF8000, #FF1605);">If the ATSL atom's atomic number is a square number of any output of  : $$\Sigma(\omega\times n)$$ (Tibor Rado's sigma function, AKA "<span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">Busy Be <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">aver")


 * <span style="background: -webkit-linear-gradient(left, #FF1605, #FF0080);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF1605, #FF0080);"> ⌬   <span style="background: -webkit-linear-gradient(left, #FF1605, #FF0080);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF1605, #FF0080);">If the ATSL atom's atomic number is bigger than  $$\Gamma_{\Gamma_{\Gamma_{\Gamma0}}}$$, the whole atom collapses into a tiny tiny super-energetic particles called "<span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">Tinypa <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">rticle  ", AKA the Tinion. The Tinions are much more common than you may think, since the element number of ATSL atoms are truly random, and the number of the ATSL atoms are regular across all atomic number. Still, some ATSL atoms can exist here, but they are rare, mutated ones which can withstand immense (of course compared to the Tinion's size) magnetic fielsdcreated on their own <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">cho <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">nk core.
 * <span style="background: -webkit-linear-gradient(left, #FF0080, #FF00E6);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0080, #FF00E6);"> ⌬   <span style="background: -webkit-linear-gradient(left, #FF0080, #FF00E6);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0080, #FF00E6);">If the ATSL atom's atomic number is beyond Absolute infinity , it sure is some sort of illusion because that's just solid, absolute unchanging impossibility.