ELECTROIDS

COREPHYSICS

CORE PHYSICS LINKS

PREAMBLE

TAXONOMIC TABLE

GLOSSARY

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Taxa 1
FUNDAMIDES

Taxon 1.1
Teels

Taxon 1.2
Teelons

Taxa 2
PHOTIDES

Taxon 2.1
Neutrinos

Taxon 2.2
Photons

Taxa 3
MORPHIDES

Taxon 3.1
Electroids

Taxon 3.2
Nucleons

Taxa 4
NUCLIDES

Taxon 4.1
Primalnuclides

Taxon 4.2
Lithicnuclides

Taxon 4.3
Ferricnuclides

Taxa 5
STELLIDES

Taxon 5.1
Protostellides

Taxon 5.2
Dwarfstellides

Taxon 5.3
Whitestellides

Taxon 5.4
Blackstellides

Taxon 5.5
Galastellide

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PREVIOUS ITERATIONS

The Blue Book (1996)

Principia Cosmologica(2008)

Template(2014)

Taxon 3.1

ELECTROIDS

Morphic objects with two quark nucleuses that transmute between stableable and unstableable morphs as conditions dictate.

Revised: 07 January 2025

work in progress

Taxon 3.1 - Electroids

Electroids are a multicore nucleus, teelosphere, and gravitysheath.
Electroid nucleuses contain two strongforced quarks.
Electroids are manufactured in the toruses of understable protons.
Electroids may be manufactured in the toruses of understable tralphiums.
Electroids are manufactured as prectrons.
Electroids are electrons or prectrons as conditions dictate.

Taxonome 3.1.1- Electrons

Electron nucleuses contain one axiquark and one centriquark.
Electron teelospheres are axial.
Electrons are stable or stableable.
Electrons achieve / maintain stability per gravitymass differential mechanism.
Electrons transmute to prectrons when overengorged.

electrons strongforce one axiquark and one centriquark together in the nucleus.

axiquarks have an axial teelosphere.

centriquarks have a centrifugal teelosphere.

strongforcing is quarks held together by their mutual gravitypull and held apart by the mutual masspush of their teelospheres.

axiquarks orientate axiquark north to electron north.

centriquarks orientate centriquark equator to electron north and south.

axiquark teelstreams flow south to north at low level and north to south at high level.

centriquark teelstreams flow pole to equator at low level and equator to pole at high level.

centriquark equator is bound to axiquark southpole.

teelstreams of excess centriquark teels enter axiquark teelosphere at axiquark southpole.
teelstreams of excess centriquark teels exit axiquark teelosphere at its axiquark northpole.
teelstreams of excess centriquark teels from from axiquark northpole to centriquark poles at very high level.
teelstreams of excess centriquark teels reenter centriquark at centriquark poles.
and recycle.

axiality derives from the flow direction of the teelstreams of excess centriquark teels as they move from axiquark northpole to the centriquark poles at very high level teelstreams.

Taxonome 3.1.2 - Prectrons

Prectron nucleuses contain two centriquarks.
Prectron teelospheres are chaotic.
Prectrons are understable.
Prectrons are engorged when bound to protons / nuclides.
Prectrons achieve / maintain engorgement per gravitymass differential mechanism.
Prectrons transmute to electrons when not engorged.

Taxonome 3.1.1 - Electrons

Electrons are a multicore nucleus inside a teelosphere inside a gravitysheath inside a gravitysheath interface.
Electron nucleuses contain one axiquark and one centriquark.
Electron teelospheres are axial.
Electrons transmute to prectrons when overengorged.
Prectrons transmute to electrons when not engorged.

Caveat The Current Physics Paradigm describes electrons as monocore objects with a constant masspush. Per Core Physics laws of physics a monocore object cannot maintain a constant masspush. The Core Physics electron is a multicore with two significant constituent parts. As a multicore, the unique behaviour of electron are explained. Notably, the mechanism underpinning the electron's "spinhalf" is demonstrated.

Electrons are stable / stableable.
Electrons made understable stabilise by ejecting teels.
Electrons strongforced to a prectrosphere overengorge and transmute to prectrons.
Prectrons freed from a prectrosphere transmute to electrons.

Electrons are manufactured in the toruses of understable protons.
Understable protons may or may not be in a nuclide nucleus.
Electrons are manufactured as understable prectrons.

Prectrons exit proton toruses above or below proton /nuclide escapevelocity.
Prectrons above escapevelocity escape the proton / nuclide and transmute to electrons.
Prectrons below escapevelocity may or may not strongforce in the proton /nuclide prectrosphere.

Taxonome 3.1.2 - Prectrons

Prectrons are a multicore nucleus inside a teelosphere inside a gravitysheath inside a gravitysheath interface.
Prectron nucleuses contain two centriquarks.
Prectron teelospheres are chaotic.
Prectrons transmute to electrons when not engorged.
Electrons transmute to prectrons when overengorged.

Prectrons are understable.
Prectrons endure in a prectrosphere.
Prectrospheres strongforce to a proton or nuclide teelosphere surface.
Prectrosphere prectrons are engorged.

Prectrons are manufactured in the toruses of understable protons.
Understable protons may or may not be in a nuclide nucleus.
Prectrons exit toruses above or below proton / nuclide escapevelocity.
Prectron exit speed increases as proton / nuclide understability increases.
Prectrons exiting above escapevelocity are emitted.
Prectrons exiting below escapevelocity are retained.
Prectrons retained strongforce in the prectrosphere if conditions permit.

Prectrosphere prectron numbers are limited by prectrosphere volume.
Nuclide prectrosphere prectron numbers are typified by isotopenumber.
Prectrons exceeding numbers are ejected or subsumed.
Prectrons ejected transmute to electrons.
Prectrons subsumed are dissipated.

strongforce two centriquarks together in the nucleus.

centriquarks have a centrifugal teelosphere.
centriquarks in a prectron nucleus are engorged.
centriquarks when engorged cannot hold any orientation.
centriquarks when engorged tumble about each other.
centriquarks when engorged eject excess teels equatorially.

ejected teels form prectron teelosphere.

centriquarks absorb excess teelosphere teels globally.

teelosphere of prectron has no orientation.
is chaotic.
is strongly repellent.
repellence enables it to float on surface of proton/nuclide teelosphere.

Quarks

Quarks are engorged photides.
Quarks are strongforced in the nucleuses of morphides.
Quarks are a monocore nucleus inside a gravitysheath inside a gravitysheath interface.
Quark nucleuses are a teelcore inside a teelocean.
Quarks may be stripped of their teelosphere.
Quarks are axiquarks or centriquarks.
Axiquarks are axially structured.
Centriquarks are centrifugally structured.
Quarks freed from a nucleus semistabilise as photides.

Electroid nucleuses contain two quarks.
Nucleon nucleuses contain three quarks.
Electroid quarks are manufactured in the toruses of understable protons.
Electroid electrons have one axiquark and one centriquark.
Electroid prectrons have two centriquarks.
Nucleon quarks are manufactured in the toruses of understable tralphiums.
Nucleon neutrons have two centriquarks and one axiquark.
Nucleon protons have one centriquark and two axiquarks.

Axiquarks

Axiquarks are a monocore nucleus inside a teelocean inside a gravitysheath inside a gravitysheath interface.
Axiquark nucleuses are a solidbonded teelcore.
Axiquarks may or may not have a teelosphere.
Axiquark teelstreams are axial.

Axiquarks endure when in a morphide nucleus.
Axiquarks in a nucleus are strongforced.
Axiquarks in a nucleus are engorged.

Axiquarks outside a nucleus semistabilise as neutrinos or photons.
Axiquarks transmute to centriquarks when conditions dictate.
Centriquarks transmute to axiquarks when conditions dictate.

Centriquarks

Centriquarks are a monocore nucleus inside a teelocean inside a gravitysheath inside a gravitysheath interface.
Centriquark nucleuses are a solidbonded teelcore.
Centriquarks may or may not have a teelosphere.
Centriquark teelstreams are centrifugal.

Centriquarks endure when in a morphide nucleus.
Centriquarks in a nucleus are strongforced.
Centriquarks in a nucleus are engorged.

Centriquarks outside a nucleus semistabilise as neutrinos or photons.
Centriquarks transmute to axiquarks when conditions dictate.
Axiquarks transmute to centriquarks when conditions dictate.

MORPHIDES | TOP | NUCLEONS

SUPERCEDED MATTER

ELECTROIDS

Empirical confirmation: partial. A composite nucleus inside a teelosphere inside a gravitysheath. The nucleus is two quarks strongforced together. Electroids are manufactured in the toruses of understable protons. Two morphs: electrons and prectrons. Electrons are stable. Prectrons are understable.

Electrons Electron teelospheres have axially structured teelstream systems. The electron nucleus is one axiquark and one centriquark. Electron manufacture is initially as a prectron which transmutes to an electron on emission or eviction from its proton.

Prectrons Prectron teelospheres have chaotic teelstream systems. The prectron nucleus is two centriquarks. Prectrons only endure when they are strongforced to the surface of a nucleon or isotope and engorged. Free prectrons transmute to electrons on emission or eviction from a proton.

ELECTRONS

An electron is a composite nucleus inside a teelosphere inside a gravitysheath interface. The nucleus contains one axiquark and one centriquark. The teelosphere is axial. Electrons are stable. Electrons are manufactured in the toruses of understable protons. Initial manufacture is as prectrons with two centriquarks but on emission one centriquark transmutes to an axiquark and thus the understable prectron transmutes to a stable electron. Electrons have not been observed to spontaneously decay or dissipate. If conditions dictate, electrons transmute to prectrons. Electrons are antielectrons if they have a different orientation to adjacent electrons. Empirical confirmation: partial.

PRECTRONS

A prectron is a composite nucleus inside a teelosphere inside a gravitysheath interface. The nucleus contains two centriquarks. The teelosphere is chaotic. Prectrons are understable. Prectrons are manufactured in the toruses of understable protons. Once manufactured, prectrons lodge in a prectron shield or they are emitted. In a prectron shield, a prectron's understability is maintained by engorgement. An emitted prectron transmutes a centriquark to an axiquark and thus transmutes from an understable prectron to a stable electron. Empirical confirmation: partial.

AXIQUARKS

MORPHIDES A taxa of three taxons: quarks, electroids, and nucleons: each of which transmutes between two differently structured morphs.
QUARKS A morphide taxon with two morphs: axiquarks and centriquarks.

AXIQUARKS Empirical confirmation: partial.

AXIQUARK STRUCTURE A simple nucleus inside a teelosphere inside a gravitysheath. The nucleus is a teelcore inside a teelocean. The teelosphere is axial.

A XIQUARK TYPES Free axiquarks. Electroid axiquarks. Nucleon axiquarks. Nucleon axiquarks are structurally the same as electroid axiquarks but more mass ive.

AXIQUARK BEHAVIOUR Free axiquarks are understable and stabilise as photons. Electroid axiquarks are understable but endure because they are bound into electroids and engorged. Nucleon axiquarks are understable but endure because they are bound into nucleons and engorged.

AXIQUARK ORIGINS The origin of electroid axiquarks is manufacture in the toruses of understable protons. The origin of nucleon axiquarks is unknown.

CENTRIQUARKS

CENTRIQUARK STRUCTURE A simple nucleus inside a teelosphere inside a gravitysheath. The nucleus is a teelcore inside a teelocean. The teelosphere is centrifugal.

CENTRIQUARK TYPES Free centriquarks. Electroid centriquarks. Nucleon centriquarks. Nucleon centriquarks are structurally the same as electroid centriquarks but more massive.

CENTRIQUARK BEHAVIOUR Free centriquarks are understable and stabilise as photons. Electroid centriquarks are understable but endure because they are bound into electroids and engorged. Nucleon centriquarks are understable but endure because they are bound into nucleons and engorged.

CENTRIQUARK ORIGINS The origin of electroid centriquarks is manufacture in the stabilisation turbines of understable protons. The origin of nucleon centriquarks is unknown.

(2a) An electroid is a multicore nucleus inside a teelosphere.
(2b) Multicores can become stable.
(2c) Free prectrons are understable.
(2d) Free prectrons morph to electrons.
(2e) Free electrons are stable.
(2f) Prectrons endure when bound to the surface of the teelocean of a nucleon or nuclide.
(2g) Overengorged electrons morph to prectrons.

(3a) Electroids have two quarks in the nucleus.
(3b) Each quark nucleus is a teelcore inside a teelocean.
(3c) The quarks have no effective teelosphere.
(3d) The quarks are inside the electroid teelocean.
(3e) The electroid teelocean is inside the electroid teelosphere.

(4a)   There are two types of electroid quark: axiquark and centriquark.
(4b)   Electroids are typified by their quark combinations.
(4c) Electrons have one axiquark and one centriquark.
(4d) Prectrons have two centriquarks.

(5a)   Electroid teelospheres are teelstream systems.
(5b) The type of teelstream system is dictated the quark combination.
(5c) Electrons have semiaxial teelospheres.
(5d) Prectrons have chaotic teelospheres.
(5e) The type of its teelstream system dictates an electroid's interactions with other objects.

(6a)   Electroids are manufactured from neutrinos.
(6b) Sufficiently understable protons manufacture neutrinos frequently and densely.
(6c) Some pairs of neutrinos are sufficiently close to strongforce as protoelectroids.
(6d) Protoelectroid are overstable and absorb teels until attuned to the teelstream.
(6e) Attuned protoelectrons are prectrons.

(7a)   Prectrons are pairs of centriquarks.
(7b) Centriquarks have centrifugal teelstream systems.
(7c) Two strongforced centriquarks cannot align and consequently tumble.
(7d) Because prectron centriquarks tumble prectron teelospheres are chaotic.
(7e) Prectrons endure when engorged by a teelstream and attuned.
(7f) Engorged prectrons are understable.
(7g) Prectrons not engorged by a sufficiently hefty teelstream morph a centriquark to an axiquark and stabilise as electrons.

(8a)   Electron teelospheres are almost wholly axial.
(8b) Objects with axial or semiaxial teelospheres align their northpoles to face the oncoming teelstream.
(8c) Electrons differently aligned to adjacent electrons are antielectrons.

(9a)   Caveat: per the Current Physics Paradigm "the flow of electrons in a conductor constitutes electricity".
(9b) The definition is "guilt by association".
(9c) Electrical conductors do not actually conduct.
(9d) Electrical conductors are protons or nuclides and molecules into which protons are embedded.
(9e) Electrical conductors are within a teelstream.
(9f) The teelstream understabilises the protons which emit photons and electrons.
(9g) The photons and electrons are asides.
(9h) The electrical effect is the teelstream.
(9i) The asides can reinforce the heft of the teelstream, especially when the teelstream and conductor is encased in insulation.
(9j) However, without the teelstream there is no electricity.

ELECTROMAGNETISM HOLDING ENTRY.

(1) Magnetism is the tendency of protons to face into the oncoming teelstream.
(2) Magnetism is the tendency of the protons in a nuclide to face into the oncoming teelstream if they can.
(3) Magnetism is the ability of the protons in some nuclides to turn the nuclide to face into the coming teelstream (copper).
(4) Magnetism is the ability of the protons in some nuclides to turn the nuclide to face into the coming teelstream and to retain that orientation when removed from the teelstream (iron) and when in "bars" to maintain a teelstream system.
(5) Electricity is the teelstream flowing through a "chain" of protons and/or nuclides.
(6) Electrical teelstreams flow through copper wires from the mechanism that generated it.

(6a) Can be switched on and off.
(6b) The protons are engorged and emit.
(6c) The emissions are mostly absorbed by the nuclides ahead.
(6d) Photons easily escape from the unsheathed wires of less conducting nuclides.
(6e) Electrons are a consequence of the flowing teelstream engorging the protons - they do not directly "carry" electricity.

WORKING

The northpole of an electron, proton, and nuclide equates to an anode.
The southpole of an electron, proton, and nuclide equates to a cathode.
Electrons emit neutrinos from the northpole.
Protons emit prectrons from the northpole.
Nuclide protons emit prectrons from their northpoles.

Assume the emitted objects reach but do not cross the strongforce surface.
They are carried by the teelosphere to the southpole.
They lodge at the southpole.
Their lodgment prevents the anode (northpole) of another electron, proton, or nuclide strongforcing to the cathode (southpole)
The prectrons and protons are now ions.

Assume the electron/proton, is in a teelstream.
The electron/proton is attuned to the teelstream.
The teelstream heft increases.
The electron/proton engorges.
The heft of the electron/proton teelosphere increases.
The neutrino/prectron lodged int the cathode is pushed away.
It is pushed across the strongforce surface.
It is ejected.
The electron/proton has become a cation.

Continue with ions.
Assume the electron/proton is in a teelstream.
The electron/proton ions are engorged.
Each then produces another neutrino/prectron.
These cannot lodge in the cathode.
But as long as there is room on the strongforce surface they can be retained.
The electron/proton will retain as many additional neutrino/prectrons as the strongforce surface can hole.
If the proton is in a nuclide, additional prectrons will be up to the number the strongforce surface of the nuclide can hold.

Extrapolate this to a copper wire.
Turn the teelstream on and you have electricity.
With the loose cannon electrons being a side effect.
Turn the teelstream off and the electricity no long feeds along the wire.