Article: <5e590t$og5@dfw-ixnews7.ix.netcom.com>
From: saquo@ix.netcom.com(Nancy )
Subject: Re: ENERGY WAVES - the Zetas Explain
Date: 15 Feb 1997 21:15:09 GMT
In article: <5e2nco$5ca@pollux.cmc.ec.gc.ca> Greg Neills
writes:
> You said that the heat particles move from close in, to the
> outer parts of the atom, like "children being led into
the
> hallways" or some such thing. The heat particles then
take
> up more room, and the ice expands as it cools.
> ynecgan@cmc.doe.ca (Greg Neill)
The Zetas words, abreviated, below. They said the heat LEAVES, freeing OTHER subatomic particles to be more active and create bonding not formerly possible due to the lubrication of heat.
(Begin ZetaTalk[TM] on Ice Formation)
So why would ice crystals expand, requiring greater space than
the liquid state just before? ... Heat is composed of several
subatomic particles that act as a lubricant for molecular motion,
where atoms change their position with respect to one another.
... The lack of heat particles creates a situation at a certain
point where atoms are pressed against each other, and a different
drama ensues. Just as within explosions, where subatomic
particles on the move require more space than in the prior,
pre-explosive state, just so the near proximity of other atoms
can create this need for more space. ... In the case of ice
formation, there is a steady lose of heat during the freezing
process, however, so to some degree one might call the formation
of ice a controlled explosion.
What occurs at the point that freezing water turns to ice is
that subatomic particles trapped within each water particle are
encouraged to move into areas formerly occupied by heat. .. They
no longer bump into heat particles flowing between atoms when the
normal course of their movement within the water atoms brings
them to the periphery. Just as in an explosion, where the
rearrangement of particles at the atomic level requires more
space, just so the quiet explosion that freezing water represents
requires more space. The water atoms are now increasingly sharing
subatomic particles, which move to the periphery of an atom and
loop through and around other atoms before returning. Thus the
atoms become bound to each other by the wash of this motion, and
become static ice!
(Begin ZetaTalk[TM] on Ice Formation)
In article: <5e2nco$5ca@pollux.cmc.ec.gc.ca> Greg Neills
writes:
> The alternative that you are now presenting, namely that
> when heat leaves, there is for some reason a tendency for
> 'subatomic particles' to orbit more than one nucleus, is not
> the same thing at all.
> ynecgan@cmc.doe.ca (Greg Neill)
Sure it is, Greg, its a multi-step process! Heat leaves, lubrication keeping the atoms apart is gone, OTHER types of subatomic particles get more active as they now have space to move about and sharing of these subatomic particles with the resultant bonding of atoms occurs!
In article: <5e2nco$5ca@pollux.cmc.ec.gc.ca> Greg Neills
writes:
> In the model I presented, the bipolar arrangement is a
permanent
> feature of the water molecule (in fact, it also determines
some
> of liquid water's unique properties as a solvent). It does
not
> suddenly come upon it once it cools.
> ynecgan@cmc.doe.ca (Greg Neill)
The Zetas didn't SAY that there was a before and after structure of the water molecule, they said that sharing of various subatomic particles whizzing about the periphery (i.e. electrons) CAN OCCUR more readily when the water gets freezes.