> Whether time "moves" or "stays exactly where it is" is a metaphysical
> question: you can't make an experiment that distinguishes the two
> possibilities. Thus it's just a matter of how we explain things to
> ourselves.
There is some evidence of time's asymmetry, and hence the "arrow of time" in
particle physics. It is known as t non-invariance, and is the process by which
a particular meson may be observed to decay into several other particles, but
this process may not be reversed as in Feynmann's theory of opposite particles
travelling in different directions in time. These processes are distinct to a
particular subatomic particle, but nevertheless they indicate that there is
some definite direction to time. Whereas most subatomic particles have an
opposite number (electrons and positrons, protons and antiprotons)
(t-invariance), T non-Invariance has been
observed only in the weak decay of neutral kaons.
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