You'll have silver in the solution with OR without Tyndall. We know they're
colloids, but what size are those colloids?
OK, let's seriously look at particle size for a moment.
Question 1 would be...At what *minimum* size do particles have a tendancy to
fall out of solution, or what size will they need to be before gravity pulls
them out of solution? I look forward to an answer on this one. I'd say they'd
have to be pretty big and suggest larger than 1 micron. Nobody who produces
EIS comes anywhere remotely near that dimension.
Question 2 would be...What are the sizes of the smallest AND the largest
particles in the same solution? They won't all be the SAME size, there are a
different sized particles present to my knowledges, we only hear about the
smallest ones, which is probly why particle size and ion/particle ratios don't
appear on the bottle, it could come back and bite them on the arse if someone
gets an analysis done after purchase. {I don't purchase any so I stand to be
corrected if this statement is not right}.
Question 3 would be...What is the size of the largest particle in a yellow
solution? Remember, we're talking about nanometres here, not microns, so
they're pretty small as we all know.
When talking about EIS we are talking about nanometre dimensions, not micron
scale, soooo, I'd have to ask...If gravity has pulled NOTHING out of a
solution, be it a clear OR coloured solution, what makes anyone think there is
any problems with yellow solutions, providing that the colour is pure and
transparent as I've explained before? And I know about particle surface area,
but what makes one think that ALL those particles will be larger than suggested
by popular press. You're going to lose some ions to particle clusters or
crystals after 24 hours of solution sitting anyway, doesn't make it any less
efficacious.
If EIS is being made appropriately one should have particles WAY WAY below 1
micron.
OK, my analysis showed some particles failed to pass thru a .45 micron filter
paper...What does that mean to me? Nothing, absolutely nothing, zero, zilch,
cos agglomeration would have had it's way during the filtering process, soooo,
another question could be...What was the ACTUAL size of those particles BEFORE
being put thru that paper filter? Logic tells me they would have been WAY WAY
below 450 nm. If one follows the popular press, refraction of light on
colloids not only signifies particles of a particular minimum size, but ALSO
indicates vast numbers of particles, which one will a person choose to go by,
size or number, or both?
I know the method of producing our EIS today produces the smallest particles
possible, and any/all particles in any of my solutions are WAY below half a
micron, and when reading how small a particle must be to pass thru the stomack
lining, capillaries etc in the circulatory system, organs, even the blood brain
barrier {can't remember now cos it's years ago I read that material so delete
the blood brain barrier thing if it's incorrect}, that encourages me to believe
ALL my silver solutions, clear or coloured, are perfectly bioavailable and
super efficacious.
Final note: With all the people around the globe producing this stuff,
including among you people here, does one think for one nanosecond {pun
intended} that all their/your particles in their/your solutions are of the
smallest size which popular press 'suggests?' they should be? Somehow I doubt
that very much, one must look at this stuff with more logic I think, and relax
a little more. Most of the information which abounds in the public domain
regarding EIS/CS is supposition, inuendo, best guess senario, techno babble,
trying to suck people in, or just plain BS. With laboratory analysis I
understand this much clearer, and with all I've read over the years I'm totally
comfortable with what I produce, and how I produce it, I'm as cool as a
cucumber with not a worry in the world about what I make and take...clear or
yellow.
N.
> Subject: Re: CS>where is everyone? now - serious CS questions
> From: [email protected]
> Date: Mon, 12 Apr 2010 18:52:36 +0100
> To: [email protected]
>
The red laser pointer is to test the finished CS for 'tyndall effect' which
shows that you actually have silver in your solution. If you have, it makes a
clear red line through the CS water. dee
>
_________________________________________________________________
New, Used, Demo, Dealer or Private? Find it at CarPoint.com.au
http://clk.atdmt.com/NMN/go/206222968/direct/01/
