Natural Science Forum / Physics / Relativity / October 2005

Light's inflation is an example of a physics no one is talking about.
When they do I predict it will be cutting edge; perhaps the most
important discovery of the begining of the 21st century as far as a new
physics is concerned.

The question behind Light Inflation is simple: What if light is emitted
that is very large? Will it take time to form? How long? What if there
were, let's say, a billion year light wave emitted? In the extreme of
gravity this is a possibility. But we have to ask how long it would
take to form this giant wave? If light is local we would expect it to
take a billion years to grow to that size. I call this growth Light
Inflation. But this is rather odd. What form would the yet to be fully
formed light waves take? What does an unformed light wave look like?

Is light lame?

I look forward to the future physics of Light's Inflation.
Take note that at the surface of a so called "black hole" General
Relativity predicts the emission of an infinite light wave. I believe
this is the theoretical proof that black holes do not exist. They
predict energyless light and that is nonsense.

The physics that replaces black holes limits the size of a possible
light wave to a less than infinite size. I have to ask though: what if
a light wave bigger than the universe is emitted? I know this is a
strange sounding question but there is nothing in Einstein's theory of
gravity that says this is not possible. Gravity could redshift the
emitted light so much that it could be arbitrarily large. The paradox
of where it would fit I call the Redshift Paradox.

Perhaps light's inflation will explain what would happed if light with
such a low energy as to be bigger the universe is emitted. Either way
this future physics will be fun to contemplate.

Mitch Raemsch       -- Light Falls--