# Future and Time / hypothesis /

Discussion in 'General Science' started by socratus, Apr 26, 2013.

1. ### socratus Thread Starter Member

Mar 26, 2012
267
3
Future and Time / hypothesis /
1
If you travel with a speed less - less than constant speed
of quantum of light ( c < 1 ) then you have your present future
( sooner or later the death will come ).
The classical deterministic principle works in this situation.
2
If you travel quickly enough ( with constant speed
of quantum of light c = 1) then the time doesn't 'exist for you
and you don't know your future.
3
If you travel quickly enough (with speed faster than quantum of light c > 1)
then sooner or later a new time and future will come to you.
Heisenberg Uncertainty principle need to use here.
4.
Of course, a person cannot travel with such speed,
but a quantum particle has this possibility.
For example:
When speed of the photon is c=1 then time exists as an infinite time
(an eternity) as for photon as also for its reference frame.
But photon can destroy this eternity and create a time - phenomena .
We call such time - phenomena / effect: 'vacuum fluctuation'.
==,
socratus
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2. ### Wendy Moderator

Mar 24, 2008
20,772
2,540
You have it backwards. For a particle that is timeless, traveling at the speed of light, the entire history of the universe is "now". No time has passed from beginning to end. Not that that is a meaningful concept, because time does not exist for that particle.

3. ### socratus Thread Starter Member

Mar 26, 2012
267
3
No matter how the quantum particle travels ( c<1, c=1, c>1)
for it - its own time ( history) is ever "now".
=,,
But my first abstract point is:
No matter how the quantum particle travels
( c<1, c=1, c>1) its speed and own time are relative .

My second abstract point is:
there are two different reference frame -
one system with timeless (according to Einstein's SRT) ,
and another system where time is depended on speed
and mass (according to Einstein's GRT)

My third abstract point is:
the quantum particle can travel between these two systems.

Therefore we can see 'vacuum fluctuation '
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