An Addendum to Atomic Theory of Gravity (et al)
Sven Gelbhaar
10.04.2019 (10 April 2019)
In my paper /Atomic Theory of Gravity/ and /Unified Force Theory/ I discuss how
electron orbits could effect Gravity. This, however, isn’t the only way that
Unified Force Theory can lead to gravity.
Electrons stick to protons, forming a glue between the same using simple
electric force. So now where does this leave gravity? It would still take
place. The electrons, most likely distributed evenly across the protons once
their numbers can feasibly do so, would still act on neighboring protons and
‘neutrons’. It would simply be a matter of them matching up with surfaces on
protons (et al), un-covered by electrons. All things being equal, it is likely
that most matter has angular momentum when viewed from its neighboring
particles, therefore this should effect gravity. Furthermore electrons would
naturally shift (due to Electric Force) on surrounding protons and their ilk
until a stable equillibrium is reached wherein electrons would correspond to
un-covered surface areas on neighboring protons et al. The result of this of
course would be observed as gravity.
This does not preclude electrons orbiting protons (et al), naturally, but that
— and how it results in an attractive force between sub-atomic particles — is
already accounted for in my previous papers.