Parallel universe proof from sci.physics.research
On October 26, 1999 I posted the following parallel universe proof to sci.physics.research. That newsgroup is moderated and my post made it through the moderation process. The proof is based on the following sentences written in the book “Feynman Lectures On Gravitation” [1]; “This may be explained by the so-called explosion theory of the universe. As we shall see, the theory of gravitation is very important in considering cosmological models, and we shall discuss them later in our course. But for now suppose that galaxies are made from stuff that got started in a big explosion; then the proportionality between velocity from the center and distance follows very naturally, since the stuff which is further out is further out because it is going faster.”
The post was sent when I lived in Oregon and my email address in the post is no longer valid and now I have changed it.
Subject:
A Parallel Universe proof
Date:
Tue, 26 Oct 1999 18:59:18 -0700
From:
Jim Akerlund <jim@.com>
Organization:
Northwest Link
Newsgroups:
sci.physics.research
Back in April of 99' I came up with the proof presented here. At
this point in time, I can not find a logical fallacy with it, but
neither is it rigorous. I am posting the proof to see if any of
you can find where I went wrong. The whole idea of the proof is
to take conclusions drawn from the Big Bang model of the universe
and to prove the existence of parallel universes from it. The
proof is short.
1) The Big Bang is the first event in the universe.
2) The Big Bang created many different expansion rates.
3) All events after the Big Bang have the Big Bang in their history
(The Big Bang is the only event in the universe to have this
feature).
4) Time can be measured from the Big Bang.
5) Light was created at the Big Bang event.
6) If one event is X time after the Big Bang then another event
can be X time after the Big Bang relative to the Big Bang.
7) We propose two events after the Big Bang. On event is expanding
"fast", the other is expanding "slow".
8) Relative to the Big Bang, both events ("fast" & "slow") will
be at X time after the Big Bang at the same time.
9) Relative to the Big Bang, light traveling from the Big Bang to
both events at X time, will have traveled the same distance, both
for the "fast" event and the "slow" event.
10) If light traveled the same distance for both the "fast" event
and the "slow" event, then both events are expanding at the same
rate relative to the Big Bang.
11) If both "fast" event and "slow" event are expanding at the same
rate, then all events in the universe are expanding at the same rate
from the Big Bang.
12) If everything in this universe is expanding at the same rate
from the Big Bang, and the Big Bang created many different
expansion rates, then each different expansion rate defines a
parallel universe. The difference between each universe being it's
expansion rate from the Big Bang.
Jim Akerlund
References
The post was sent when I lived in Oregon and my email address in the post is no longer valid and now I have changed it.
Subject:
A Parallel Universe proof
Date:
Tue, 26 Oct 1999 18:59:18 -0700
From:
Jim Akerlund <jim@.com>
Organization:
Northwest Link
Newsgroups:
sci.physics.research
Back in April of 99' I came up with the proof presented here. At
this point in time, I can not find a logical fallacy with it, but
neither is it rigorous. I am posting the proof to see if any of
you can find where I went wrong. The whole idea of the proof is
to take conclusions drawn from the Big Bang model of the universe
and to prove the existence of parallel universes from it. The
proof is short.
1) The Big Bang is the first event in the universe.
2) The Big Bang created many different expansion rates.
3) All events after the Big Bang have the Big Bang in their history
(The Big Bang is the only event in the universe to have this
feature).
4) Time can be measured from the Big Bang.
5) Light was created at the Big Bang event.
6) If one event is X time after the Big Bang then another event
can be X time after the Big Bang relative to the Big Bang.
7) We propose two events after the Big Bang. On event is expanding
"fast", the other is expanding "slow".
8) Relative to the Big Bang, both events ("fast" & "slow") will
be at X time after the Big Bang at the same time.
9) Relative to the Big Bang, light traveling from the Big Bang to
both events at X time, will have traveled the same distance, both
for the "fast" event and the "slow" event.
10) If light traveled the same distance for both the "fast" event
and the "slow" event, then both events are expanding at the same
rate relative to the Big Bang.
11) If both "fast" event and "slow" event are expanding at the same
rate, then all events in the universe are expanding at the same rate
from the Big Bang.
12) If everything in this universe is expanding at the same rate
from the Big Bang, and the Big Bang created many different
expansion rates, then each different expansion rate defines a
parallel universe. The difference between each universe being it's
expansion rate from the Big Bang.
Jim Akerlund
References
Feynman, Richard P., Morinigo, Fernando B., and Wagner, William G.. Editor Hatfield, Brian. “Feynman Lectures On Gravitation” (1995). Addison-Wesley, Reading, Massachusetts.
posted by picrosser at 7:07 PM
0 comments
