CORE PHYSICS

a taxonomy






PREAMBLE

TAXONOMIC TABLE

GLOSSARY


Index

Taxa:
FUNDAMIDES

Taxon:
Teels

Taxon:
Teelons

Taxon
Teeloids


Taxa
PHOTIDES

Taxon:
Photons

Taxon:
Quarks


Taxa:
MORPHIDES

Taxon:
Electroids

Taxon:
Nucleons


Taxa:
NUCLIDES

Taxon:
Primalnuclides

Taxon:
Lithicnuclides

Taxon:
Ferricnuclides


Taxa:
MOLECLIDES

Taxon:
Homocules

Taxon:
Hetocules

Taxon:
Polycules


Taxa:
STELLIDES

Taxon:
Protostars

Taxon:
Dwarfstars

Taxon:
Whitestars

Taxon:
Blackstars


Taxa:
GALACTIDES

Taxon:
Elliptogalaxies

Taxon:
Ellectrogalaxies

Taxon:
Nucleogalaxies


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PREVIOUS ITERATIONS

The Blue Book (1996)

Principia Cosmologica
(2008)

Template
(2014)


 









































   





























































































































































































































































































































































Taxon
TEELOIDS


TAXA     Fundamides     Three hypothetical objects that demonstrate the standards of physics.

TAXON     Teels     Simple objects that demonstrate the standard properties.
TAXON     Teelons     Composite objects that demonstrate the standard interactions.
TAXON     Teeloids     Composite objects that demonstrate the standard structure.

Revised:     4th May 2022




CONTENTS





PHOTIDES     A taxa of three taxons: liquidons, solidons, and photons.

LIQUIDONS     A simple nucleus inside a teelosphere inside a gravitysheath. Liquidons are a constituent of darkenergy and darkmatterEmpirical confirmation: none.

LIQUIDON STRUCTURE     The nucleus is a liquidbonded teelocean. The teelosphere is centrifugal.

LIQUIDON LIFESPAN     Liquidons are manufactured in the stabilisation turbines of understable protons. They are emitted in prodigious numbers. They are understable on emission. Emission is usually above lightspeed. Low mass and high energy makes becoming stable unlikely. Dissipation is usual.  Liquidon lifespans are short.



Energy/mass differentialEnergy/mass differential is calculated thus -
  • Extrapolate the composite object's teel escapevelocity to massvelocity.
  • Extrapolate the composite object's teel vergencevelocity to energyvelocity.
    • Energyvelocity is not a constant, being variable at the gravitysheath interface.
  • The energy/mass differential is the difference between massvelocity and energyvelocity.
Energy/mass differential dictates the stability condition of a composite object thus -
  • Overstable -
    • Energyvelocity is less than the escapevelocity.
  • Stable -
    • Energyvelocity is the same as the escapevelocity.
  • Understable -
    • Energyvelocity is more than the escapevelocity.










TEELONS | TOP | PHOTIDES




Comments and suggestions:
peter.ed.winchester@gmail.com

Copyright 2022 - Sian Luise Winchester








Comments and suggestions:  peter.ed.winchester@gmail.comCopyright 2021 - Sian Luise Winchester