Saturday, December 27, 2014

The basic idea is expressed in the formula:

NV / tau = zA / 1 second

where N is the Number of protons and neutrons in a star, V is proton Volume, tau is a time constant to be found (5ns), z is the height fallen by a mass in a one second test, A is Area of the star surface, 1 second is the time duration of the test. 

One result is the new knowledge of the radial linear momentum p into each baryon. That momentum is V/5ns, the proton volume over a time constant.

p = 7.02*10^-37 meter^3 / second = Momentum of Free Space per baryon (proton or neutron)

It is this Momentum of Free Space which is invariant. It is invariant even when r, the proton radius, is set between 0.8fm and 1.2fm, since the 5ns and Volume values are calculated after the r is chosen. Those are calculated from dropping an apple for 1 second. So p is always 7*10^-37 Lug even when r varies according to experimental results. The conservation of momentum at this abstract level is the conservation of The Gravity Continuum. The magnitude of time growing out of each baryon is equal to the magnitude of the space draining in. Mass is proportional to volume so mass was mistaken as a source of gravity.

Links


See my other website for Shapiro Delay Theory Formula
http://fcontinuumgravity.blogspot.com/p/fractional-units-of-measure.html

See the neo-Maxwell Equations attempt, which barely succeeded:
http://traction8d.blogspot.com/

2018 Nihonium nucleus : https://impuremath.wordpress.com/

2017 summer periodic table: http://pyramidalcube.blogspot.com/2017/08/periodic-table-of-shapes-of-nuclei.html

2017 spring iron 2 loops : http://ferronuclear.blogspot.com/p/uranium.html

October 16, 2014 began the discoveries by Alan Folmsbee

April 11, 2018, Fusion Continuum Gravity

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A paper was written in 2022: get it

"Gravitational time constant is 5ns, relative to a proton volume"

Author: Alan C. Folmsbee
Email folmsbee@protonmail.com
Submitted on October 22, 2022
Essay link above was written for the Gravity Research Foundation 2023 Awards for Essays on Gravitation. (Jan. 30, 2024 edit)

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