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THE MALTA COSMOLOGY TEMPLATE |
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Chapter 7 - Electrons |
PARTS Part 1 Kickstarter Part 2 Blackholepairs Part 3 Electrons Part 4 Antielectrons Part 5 Selfproof Home |
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PART 1 – KICKSTARTERCONCLUSION 0701 – Electrons have a structure.ASSUMPTION 0702 – An electron consists of two gravitationally bound blackholes.
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PART 2 – BLACKHOLEPAIRSCONCLUSION 0703 – Every blackhole is one half of a blackholepair with every other blackhole in the Universe.CONCLUSION 0704 – Every blackholepair is either adjacent or unadjacent. CONCLUSION 0705 – An adjacent blackholepair is either understable, stable, or overstable. CONCLUSION 0706 – Every adjacent blackholepair is surrounded by a gravitysheath within which its gravitypull is stronger than that of any other object. CONCLUSION 0707 – Every adjacent blackholepair's gravitysheath is surrounded by a gravitysheath interface.
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PART 3 – COSMIC ELECTRONSCONCLUSION 0708 – As the Universe expands, and as realspeed moves outward from the Ucentre, blackholepairs become momentarily stable or overstable.CONCLUSION 0709 – As the Universe expands, stable and overstable blackholepairs are able to form more easily and to endure for longer. CONCLUSION 0710 – As the Universe expands, and as blackholepairs are able to endure for longer, overstable blackholepairs differentially increase their energy and mass measures as they attempt to stabilise. CONCLUSION 0711 – The differentially increasing mass and energy of a blackholepair renders its constituent blackholes permanently understable. CONCLUSION 0712 – The understable blackholes in a blackholepair are attracted to each other by their mutual gravitypull and repelled by their dense and extensive teelospheres. This is the “strong force” in action. CONCLUSION 0713 – As the Universe expands, blackholepairs become sufficiently massive to endure but are still unable to stabilise. CONCLUSION 0714 – The structure of an unstabilised blackholepair is chaotic because its constituent blackholes are both centrifugally structured and therefore must tumble about each other in constant disorder. CONCLUSION 0715 – The chaotic structure of a blackholepair is brought to order by the constituent blackholes becoming quarks, one axial and other centrifugal. CONCLUSION 0716 – In a multiprocess, the mass of the understable axial quark decreases and the mass of the overstable blackholepair increases until the blackholepair stabilises and becomes a stable electron.
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PART 4 – ANTIELECTRONSCONCLUSION 0717 – An isolated electron cannot be differentiated from an isolated antielectron and vice versa.CONCLUSION 0718 – An electron may or may not be aligned to the teelstream through which it is moving. CONCLUSION 0719 – The default condition for an electron is to be aligned to the teelstream through which it is moving. CONCLUSION 0720 – Electrons are aligned to the teelstream through which they are moving. Antielectrons are unaligned to the teelstream through which they are moving. CONCLUSION 0721 – Electrons en masse and within a teelstream will adopt a condition of least disorder. CONCLUSION 0722 – Adjacent electrons and antielectrons can annihilate. CONCLUSION 0723 – When electrons/antielectrons annihilate, their component quarks (understable blackholes) either stabilise as photons, neutrinos, or blackholes – or they dissipate.
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PART 5 – SELFPROOFSELFPROOF 0700 - SELFPROOF HOMESELFPROOF 0701 - ELECTRONS SELFPROOF 0702 - ANTIELECTRONS SELFPROOF 0703 - MUONS AND TAUONS Work in progress
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previous page | next page Chapter 1 - Fundamentals | Chapter 2 - Moment Zero Chapter 3 - Blackholes | Chapter 4 - Darkenergy Chapter 5 - Darkmatter | Chapter 6 - Photons Chapter 7 - Electrons | Chapter 8 - Nucleons Chapter 9 - Atoms | Chapter 10 - Atom Mechanics Chapter 11 - Stars | Chapter 12 - Star Mechanics Chapter 13 - Galaxies | Chapter 14 - Galaxy Mechanics Chapter 15 - Galactic Clusters Chapter 16 - Galactic Cluster Mechanics |
Comments and suggestions: peter.ed.winchester@gmail.com Copyright 2013 Peter (Ed) Winchester |
REVISIONS 13 DEC 2014 - page revised, adding selfproof items. |