Science > Physics > Quantum Gravity 137.1: Sqrt(1 - v^2/c^2) in Causes Come From Infinity, Effects Come From Zero
| Topic: |
Science > Physics |
| User: |
"OsherD" |
| Date: |
10 May 2007 12:32:14 AM |
| Object: |
Quantum Gravity 137.1: Sqrt(1 - v^2/c^2) in Causes Come From Infinity, Effects Come From Zero |
From Osher Doctorow
In looking at Special Relativistic:
1) sqrt(1 - v^2/c^2)
readers will notice that it is a 1 - x type of quantity, but it is
missing the correspond y. Curiously enough, the expression (1) turns
out to have different behavior relative to particular variables
depending on whether it is multiplied by or divided into the
particular variables in Special Relativity (SR), which introduces a
further complication into an already incomplete scenario from the
viewpoint of Probable Influence/Causation.
It turns out that even the PI "analog" of (1) shares this vagueness.
Noticing that 1 + y - x is the PI quantity that corresponds to y/x for
x not 0, let's write:
2) y = v^2, x = c^2
and so (1) says in this notation:
3) sqrt(1 - y/x)
So now change y/x to 1 + y - x, and substituting 1 + y - x into (3)
instead of y/x yields:
4) sqrt(1 - (1 + y - x)) = sqrt(x - y)
But x - y is no longer a sum of a scale from 0 (y) and a scale from
infinity (1 - x), even if the roles of x and y are regarded as
interchanging.
In my opinion, the expression sqrt(1 - v^2/c^2) in Special Relativity
is a "lemon" from the viewpoint of Cause and Effect.
Osher Doctorow
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