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| Isotopes Timing Out, Does It Lead to Supernova Brightening? |
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I have found two phenomena that may provide evidence for
time flowing faster. The first example, is the delayed brightening of
Supernova Remnants (SNR). The second example is what appears
to be high velocity filaments.
The Super Nova creates, and then expels, elemental isotopes
at high velocities, 2000 Kms to 10,000 Kms. After traveling at
these velocities, the isotopes may enter into regions where the
gravitational field strength falls below a critical value. I suggest
that the isotopes entering regions of low gravitational strength
will experience a faster flow of time. Faster time will equate
to a shorter half-life. A decrease in the half-life,will mean
increased energy production from radioactive decay.
The SNR will then become brighter, as the isotopes reach
gravitationally weak space of approximately The radiation
output may then illuminate older, slower, material from the star.
The current accepted explanation for SNR brightening, is a
collision between older, slower material, and high velocity
Supernova Explosion (SNE) material.
The time that the isotopes need to travel,, is dependent on the
critical value (gT2) of gravitational strength. My best guess,
at present, is equal to gT2= 6.674e-11m/s² which would equal
a time flow of 2.This is only a guess.
After the isotopes move through the critical value of gravitational
strength, the time flow increases with increasing distance. Half life
continues to decrease and radioactive decay increases. The remnant
become brighter, dependent on the temporal history of the isotopes,
since the Supernova explosion SNE.
SNR brightening, represents time moving faster for a small mass
as it enters gravitationally weak space. It is the visible evidence
for time moving faster. I also suggest the Time_Space is Lorentz
invariant. Absolute velocity may not be externally determinable by
blue and red shifts alone.
Two HST pictures are Scrapbook picture 14 and picture 15.
Examine the filaments
time flowing faster. The first example, is the delayed brightening of
Supernova Remnants (SNR). The second example is what appears
to be high velocity filaments.
The Super Nova creates, and then expels, elemental isotopes
at high velocities, 2000 Kms to 10,000 Kms. After traveling at
these velocities, the isotopes may enter into regions where the
gravitational field strength falls below a critical value. I suggest
that the isotopes entering regions of low gravitational strength
will experience a faster flow of time. Faster time will equate
to a shorter half-life. A decrease in the half-life,will mean
increased energy production from radioactive decay.
The SNR will then become brighter, as the isotopes reach
gravitationally weak space of approximately The radiation
output may then illuminate older, slower, material from the star.
The current accepted explanation for SNR brightening, is a
collision between older, slower material, and high velocity
Supernova Explosion (SNE) material.
The time that the isotopes need to travel,, is dependent on the
critical value (gT2) of gravitational strength. My best guess,
at present, is equal to gT2= 6.674e-11m/s² which would equal
a time flow of 2.This is only a guess.
After the isotopes move through the critical value of gravitational
strength, the time flow increases with increasing distance. Half life
continues to decrease and radioactive decay increases. The remnant
become brighter, dependent on the temporal history of the isotopes,
since the Supernova explosion SNE.
SNR brightening, represents time moving faster for a small mass
as it enters gravitationally weak space. It is the visible evidence
for time moving faster. I also suggest the Time_Space is Lorentz
invariant. Absolute velocity may not be externally determinable by
blue and red shifts alone.
Two HST pictures are Scrapbook picture 14 and picture 15.
Examine the filaments
| August 12, 2003 |
| November 28, 2003 |
| About 109 Days between pictures Minimum Inside Radius of Bright Points Approximately .4 ly Examine filaments near edges, estimate their velocity. |
Credit:
NASA/ESA, P. Challis, R. Kirshner (Harvard-Smithsonian Center for Astrophysics) and B.
Sugerman (STScI
NASA/ESA, P. Challis, R. Kirshner (Harvard-Smithsonian Center for Astrophysics) and B.
Sugerman (STScI
Stories astronomers tell by the campfires, to scare the new initiates.
The one about the objects moving near the speed of light, without any
significant red shifts. When you see an object move at ridiculous
speed, don't try and publish it, or you will go moon blind. Just ignore
it, and you will still be allowed to use the telescopes.
They might publish photographs that show insane velocities between a
succession of photographs, but they won't mention that part. It isn't science.
If you ask for photos that might show what I am describing, they may
give them to you. But they won't interpret them for you.
If what I suggest is correct, then the photographs exist, but since it
can't really happen, it is something that doesn't make any sense, so ignore it,
it isn't real.