THE MALTA COSMOLOGY TEMPLATE



Chapter 07 - Electrons 






PARTS

Part 0700
Electrons
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Part 0701
Blackholepair
Physics

Part 0702
Blackholepair
Mechanics

Part 0703
Electron
Physics

Part 0704
Electron
Mechanics

Electron
Selfproofs



















Part 0703 - Electron Physics

ARGUMENT 0703-03

PRECEDENTS
PARAMETERS
  • Consider a stable electron.
  • Consider that the electron is surrounded by a gravitysheath interface.
  • Consider that the electron has a vergence velocity.
  • Consider that the electron has an escape velocity.
  • Consider that the electron consists of one axial and one centrifugal quark.
  • Consider that both quarks are understable. 
  • Consider that each quark is surrounded by a gravitysheath interface.
  • Consider that each quark has a vergence velocity.
  • Consider that each quark has an escape velocity.
  • Consider that the quarks are enclosed within an electrosphere.
  • Consider that vergence velocity is as at the gravitysheath interfaces.
  • Consider that escape velocity is as at the gravitysheath interface.  
REASONING
  • Because the quarks are understable, they differentially eject mass and energy into the electrosphere from the axial northpole.
  • Because the electron is stable, mass and energy injected into the electrosphere by the quarks cannot escape from the electron.
  • Because the mass and energy cannot escape, it reenters the quark gravitonstreams from the electrosphere at the centrifugal poles.
  • Thus the electron's escape velocity is higher than the escape velocity of its quarks.
CONCLUSION
  • That every stable electron's escape velocity is higher than the escape velocities of its component quarks. 


COMMENTARY

The electrosphere has a high dynamic mass and serves as an electron's first line of defence. Should an electron suffer a severe bombardment of incoming gravitons, they are absorbed by the electrosphere. This raises the electron's vergence velocity above its escape velocity and thus understabilises it. To restabilise, the appropriate measure of mass and energy is ejected from the electron's southpole. In the event that the bombardment is so severe that gravitons are able to pierce the electrosphere and enter the quarks, the secondary defence line starts up. The extra gravitons raise the vergence velocity of the quarks and add to their understability. The extra understability stimulates the quarks to increase their ejection of mass and energy into the electrosphere. The increased rate of ejection continues as the quarks reattune their understability to the stability of the electron. The excess of mass and energy absorbed by the electrosphere is ejected from the electron's southpole, returning the electron to stability.  







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

Copyright 2013 Peter (Ed) Winchester



REVISIONS

04 Dec 2016 - page created.
23 Apr 2017 - changed teels to gravitons.