Quantum Gravity 292.993: Mass is a Cause in Gravitation, an Effect in Accelerating Universe Scenario

From Osher Doctorow

From subsection .992, we can divide both sides of the first few
equations by m, and now let M be the ratio:

1) M = m1m2/m

M is dimensionally a mass, and so it is a "mass variable" (it's not
the dimension M from before). We now get:

2) P(v^2 M/(r^2 rho) --> a1) = 1 (Gravitation)
3) P(|a2| --> v^2 M/(rho r^2)) = 1 (Accelerating Universe)

Therefore, mass M is a Cause in Gravitation and an Effect in the
Accelerating Universe! The fact that the Universe undergoes periods
of alternating dominance of Gravitation and Acceleration outward
suggests that mass M alternates as a Cause and as an Effect in the
history of the Universe. Whether this should be called a "Bounce" as
in some parts of Cosmology or is just a wavelike sinusoidal-like
alternation is not at present clear. Notice that in Gravitation,
where mass is a Cause, it is a Cause jointly with velocity and space,
whereas in the Expanding Universe, where mass is an effect,
acceleration is the Cause and the Effect is jointly mass and velocity
and space (r, the distance between the masses m1 and m2).

The linear density of mass M (per distance or length), rho, seems to
go from an Effect in Gravitation to a Cause in Accelerating Universe,
oppositely to M! Note that denominator quantities are multiplied on
both sides of equations to get them to the numerator for easier
interpretation. I may have to amend the above statement because r
(space) actually seems to always be paired with rho. Space and linear
density go from Effect in Gravitation to Cause in the Accelerating
Universe, oppositely to mass.

Osher Doctorow
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