Re: Postulate #1: Time Dilation

From: Ron Poteet (purrcy_at_mminternet.com)
Date: 02/17/05 

Date: Thu, 17 Feb 2005 09:22:55 -0800

Dear Sir,

For over thirty years I've been studying the unresolved questions in
physics. Each time a new question appears it adds a new hint to the
unresolved issues of physics. A few months ago while I was reading a book on
the history of the square root of minus one I had an incredible moment of
insight; during that moment the room that I was sitting in turned blue, I
experienced an incredible feeling of excitement and euphoria. It was a
moment of absolute clarity and certainty. I thought for a moment that I was
having a stroke. But after a period of about five seconds I realized that I
had discovered the answer to the problems which had intrigued me for so
long: that answer was that matter, energy and time has multiple dimensions!

I worked on it for a couple of sleepless weeks and developed a complete and
concise theory which I call MEAT, for Matter, Energy And Time; the MEAT of
physics. Simply put the theory is as follows: "Matter, energy and time are
conserved quantities. They exist in multiple dimensions. All matter moves as
matter waves of energy in imaginary dimensions of time. Particles of mass
are stationary and exist in a real dimension of time."

That's it. Of course, between the lines of those few short sentences is a
lot of new physics.

Let's start with the conservation of time: if time were not conserved we
would have run out of it a long time ago. We wouldn't exit and neither would
the cosmos without the conservation of time. Interestingly, it's the first
question that occurs to a young student studying relativity, what's happened
to the rest of time? The answer is that it goes into wave motion, and as
such, it conserves time. An interesting side to this is that for ensemble
averaging to equal time averaging, time must be conserved. The proof of this
relation has not been possible until now. Matter, energy and time are so
tightly bound together that one cannot exist without the other, and if one
is conserved so must the others. Each conserved form of energy exists in its
own orthogonal imaginary dimension of time. And each form of energy (linear
motion, angular motion and random thermal motion, etc.) must be accounted
for in the time dilation of particles in real time. That is why time is
conserved.

The conservation of matter means that the energy required to convert a
stationary particle to a wave of energy must transfer to another particle
within the object when the wave converts back to its particle after
displacement. Particles quit converting only when that energy is removed
from the object.

The conservation laws requires that a fixed (or at least what the matter
sees as being fixed) frame of reference must exist. This obviously spells
doom for inertial frames of reference in relativity.. This refrence frame is
most likely to be composed of strings.

"Sam Wormley" <swormley1@mchsi.com> wrote in message
news:gk2Rd.11234$tl3.6890@attbi_s02...
> guskz@hotmail.com wrote:
>>
>> Two planes simultaneously take off at c/3 in opposition directions
>> (West and East) from a Platform used as the inertial reference plane.
>>
>
> Physics FAQ: How Do You Add Velocities in Special Relativity?
>
> http://hermes.physics.adelaide.edu.au/~dkoks/Faq/Relativity/SR/velocity.html
>

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