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The
Fiber-optic properties of a water string:- (suggested
herein but unproven as at February 2004) seem plausible
and reasonable to me; a simple experiment with the "water-drop
microscope" amply demonstrates this possibility. If
chains of synchronous SL
event sequences can be produced in this way, the heat-dissipation
properties of a flask full of liquid no longer apply. Moreover,
if the water is destructively distillated it could be that
my original concept for contained ionised plama strings
could be right after all?
Only one way to find out...
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The speed of sound:-
is different in water, air and
carbon fiber, so the natural standing wave resonance for the speaking
length in each of these materials will be different and this will contribute
by bowing action at the interfaces, to the complexity of forced vibration
in the water strings, rendering high-numbered harmonics very quickly. |
| Photons travelling
throughout a chain of very closely spaced multiple sonoluminescence
events (if they are present at all in the functional string device described),
must have been generated therein and are therefore synchronized to all
others, whichever direction they are heading. |
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"Utilising a tensioned speaking length
of the said string as its axle, a spoked, lightweight aluminium rotor
is mounted to spin freely at the octave node repelling and constricting
fields within the string core. Modulations propagate within the core
water-strings, synchronised to the rotor's spin by a reciprocal system
of stators and coils. Sonoluminescence events occur in the water-strings
as a symmetrical probability set either side of the octave node in the
string speaking length."
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