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From: G. L. Bradford on 20 May 2010 05:00
"How slow can you go?" Stand still. That's how slow you can go.

Now if you are asking what is the slowest speed in the Universe? that is a
different matter entirely.

There is relative velocity in the Universe (both macro- and micro-verse)
slower than Einstein's observer standing stock still by the railroad track
on Earth, thus an assumed zero of velocity, a relative zero of velocity. If
c is the distant universally constant horizon of positive speed absolute to
a relative of 0 (absolute to the 'local frame' absolute of 0), what then
would be the distant universally constant horizon of negative speed absolute
to the same relative of 0 (absolute to the same 'local frame' absolute of
0)?

c = (+)300,000kps.
(-)
0=0
(+)
c = (-)300,000kps.

[c| |0| |c].....Boxed! No traveler of any kind in its own local frame, at no
matter what the apparent relative velocity -- faster or slower, can close
closer to c than a sustaining constant (+/-), a sustaining horizon (+/-), of
300,000kps distant from it. Since no traveler of any kind can, that traveler
goes somewhere else (0=0) in the breadths and depths of space; lands in
somewhere else (0=0) in those breadths and depths of space. The traveler
could do a constant of relative acceleration, or alternatively a constant of
relative deceleration, and go anywhere but to -- or even toward -- 'c' as
far as it and the Universe are concerned! The traveler's never going to get
CLOSER to c than 300,000kps! AND GOING THE OTHER WAY in velocity, the
traveler is never going to get FARTHER AWAY from c than 300,000kps!

"A [constant] of relative deceleration"?!? Yes, but of course there is
only one place, only one innumerable set of horizons (of planes within
planes, within planes, of universe expanding in an inverted inflation down
and in), in the infinite Universe of universes where a traveler could do an
interminable constant of deceleration.

GLB

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