The Sun is estimated to be about a distance of 34,000 light years distance
from the center of the galaxy. According to the rotational period of the
galaxy, the Sun--at a usually estimated velocity of about 220km/s--orbits
the galaxy once every 250,000,000 years (the longest estimate given).

  Here is the problem. Center of the Milky Way galaxy to the so-called Big
Bang horizon is a radius somewhere in the range of about 12 to 14 or more
billion light years in straight lines out in every direction from the center
including straight through the almost circular orbit of the Sun around the
galactic center. Within that vastly greater radius is the radial distance of
the Sun (in light years) from the center of the galaxy, or 34,000 light
years. Pi(r^2)=3,629,840,000 light years for circuit distance to be traveled
(where radius equals 34,000 light years). That circuit distance figure
divided by 250,000,000 years equals 14.51936 times the speed of light for
the Sun's velocity in orbit of the galaxy when disregarding the internal
rotational periodicity of the galaxy--which itself is an isolation of this
galaxy by astronomers, cosmologists, and physicists, from the universe at
large. When not just simply disregarding the synchronized whole of the
observable universe at large--when one refuses to isolate the galaxy from
the universe as if the universe doesn't have anything to do with this galaxy
in this picture of Sun's velocity--the velocity of the Sun in orbit of the
center of the galaxy radically changes from 220km/s to 14.5 times the speed
of light through the circle, through the circumference, of the orbit.

  Now if one wants to include the entire universe as orbiting at
mind-boggling speeds faster than the speed of light around the center of
this galaxy--as the center of the whole universe in rotation around our
galactic center, then the speed of the Sun in orbit of the center of the
galaxy drops to 220km/s with regard to the entire universe as well.

  Jan Oort and everyone since looked only inside to the "spacetime
continuum" existing in the distance between Sun and center of galaxy never
bothering to coordinate the radius and distance of circumference and the
time of one complete orbit with the universe outside of this tiny picture
taken entirely in isolation from nearby Andromeda, say, and the whole rest
of the universe with it outside the internal rotational periodicity. Between
Andromeda's center, for example, and the center of our galaxy is the
bisection that is the nearly circular circumference (3,629,840,000 light
years) of the Sun's orbit of the center of our galaxy 34,000 light years in
radial distance out from the center. Take the two as two fixed points to one
another, even add a third for the blackhole center of the next nearest
galaxy out in distance from the Milky Way for a fixed triangulation of
center points, in doing this dropping the internal periodicity of the Milky
Way, radically speeds up orbital velocities for each complete orbit through
the distances of circumferences--such as the Sun's.

  Of course in doing this the way I did it, I fixed the speed of time
(250,000,000 years) to the speed of light (for a ratio of 1 year to1 light
year, or one year of time equals one light year's distance in space), since
so many figure the speed of light is the speed of time or there would be no
"spacetime continuum" otherwise. I just divided distance to be traveled in
the line of the circle by the preset time of travel (gleaned from galactic
periodicity) to complete one circuit. I moved up one level of coordinate
point surface and looked from it back and down at the Sun's orbital distance
and velocity from a frame of reference of more dimensions. I added greater,
larger, dimensionality to the picture already [partly] dimensioned and the
Sun's velocity within the greater total dimensionality took a quantum leap
upward.

Brad