Water, Part 5 (continued)
Michael S. Johnston ( (no email) )
Fri, 03 Dec 1999 00:12:03 -0500
Ok Then,
What if you added on another unit, and another and another.....?
You end up with an electrical transmission line that is made up of
small segments of two different conductors spliced together. The
material making up each of these "spliced in" pieces (water) having the
unfortunate tendency to decompose into a potentially explosive mixture
of H2 and O2 at a rate that is directly proportional to the amount of
electricity that you are passing through your line.
In other words, if the line is carrying a charge of say, 120v and 30a
and this is the charge that exists through EACH of the seperator/splices
(as it will be) then EACH SPLICE will decompose into it's components at
the SAME RATE AND VOLUME AS IT WOULD IF IT WAS THE ONLY ONE IN THE
SYSTEM!!
You see, all we had to do was change the perspective from which we
viewed the reality of the separator/splice and suddenly we are able to
perceive a whole new reality where H2 fuel gas is a free by-product of
using water as an electrical conductor.
As a real world analogy think about those strings of like 300
christmas lights. You know, the ones where if one goes out then none of
them will work. Well ok, they use the higher resistance of the wire
inside the light bulb to transform electrical energy into heat and light
energy but it wouldn't matter weather there was one, ten or three
hundred bulbs on the string of lights. They all burn equally bright
don't they?
Same thing here. You could put 300 seperator/splices on your line and
they would each act as individuals and EACH ONE would put out gas from
it's decomposition in direct proportion to the amount of energy passing
through it as it would if it were the ONLY one on the system.
So if we want to use the H2 gas that is produced by the decomposition
of the material that our splices are made of to power the engine that we
use to turn the generator at our power source then all we have to do is
figure out how many seperator/splices to make in our line to generate
the required quantity of gasses and then if we want H2 gas to run other
things we simply add more seperator/splices. ;-)
Coincidentally enough there has been quite a bit of work done in the
past by many fine scientists and amateurs alike along these lines. The
only problem is that they all (as far as I know) deal with having one
seperator/splice in the system.
We know, for example, that the energy that is released by burning the
H2 gas that is generated by the decomposition of our conductor (water)
is nearly equal to the amount of electrical energy that passes through
our conductor in a single seperator/splice. So in a perfect world we
could use that quantity of gas to power the motor that turns the
generator that produces the electricity that runs along the line and
separates the water.
This however is not a perfect world by any means and so quite a bit
of the energy released by burning the H2 gas never gets to be used to
turn the generator. That is the Second Law of Thermodynamics in a
nutshell and it is also the idea that has prevented us from making use
of this fuel source before this.
Here is where the 2nd Law was misapplied. In using the H2 as a fuel
you are indeed transferring the energy released by burning it into work
energy which your motor transfers to your generator where you end up
turning what's left into electrical energy but on the other end it's
different and that is what I think that everyone has missed up till now.
When electricity passes through your seperator/splice you are NOT
transferring the energy of that electricity into the energy contained in
the atoms of H2 and O2 gas! They have plenty of their own. You are using
that energy to pass through the water and as it does, as a by product,
it somehow interferes with the ability of the H2 and O2 molecules to
hold together. Consequently some of them lose their grip and go on their
merry way on their own.
You may lose some of your charge due to resistance but none of it
turns into H2 or O2 molecules and so you have basically the same amount
of electricity leaving the seperator/splice as what you put into it to
do with as you will.
There's the gift world. I hope I'm right. Merry Christmas, Happy New
Millennium!
Later,
MJ
P.S.: I plan to post my designs for devices to make use of this energy
over this coming weekend. So stay tuned.
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