you
welcome to my laboratory in my good city Ohio
my name is Stan Meyer and since 1975 the Lord has had me to work on a development
of a new energy system to bring this country we called the system the water
fuel cell technology and involves the ability to release and produce hydrogen
gas economically from ordinary natural water and in the ensuing years that
we've spent in developing this technology a prime objective was to be
able to legalize technology prior to releasing that technology into the
marketplace and this required a tremendous amount of legal paperwork and
as a result of this over the years we have found well over forty two major
patents nationally and internationally on this technology
and give it a little bit of an example of the type of paperwork that was
required to try to legalize the water fuel cell technology and actually bring
it into the marketplace there have been several major releases of the technology
one of the areas of technology that we use is in reference to the dealership
sales manual which really describes in an overall view of the water fuel cell
technology and what's involved and actually retrofitting the fuel cell to
existing energy systems like that of the car home heating electrical generation
and so forth we also have put together a very large research development
laboratory manual that we do not release out in the public domain at this time
which covers the historical event and the step-by-step procedure in developing
the water fuel cell technology we have just recently put together in release to
certain areas to the military and the several sections of the federal
government as well as to foreign governments the release on a very
advanced forms of technology in so many times in cases of research development
once you start pointing a finger to new technology you must explore that
technology to the fullest extent and bring it into maturity and the water
fuel cell technology covered many aspects that the prior state of the art
or the scientific world had no answers to in my files I had the most scientific
compilation study on hydrogen that's ever come out of the scientific world to
NASA and that's a clearly stated in fact that hydrogen was the most ideal fuel of
the future but they needed an answer in three major areas
number one produced the gas economically secondly control the range of its
production thirdly adjust the burn rate of the hydrogen gas to Coleco that it'll
pump the fuels and we added a fourth step to be able to transport the
hydrogen gas without spark ignition we own all the pad rifle nationally and
internationally in this technology the technology was further developed to a
process which we call a hydrogen fracturing process which bypass the
scientific endeavor of developing hydrogen fusion in this particular
process we can tap in to the atomic yield of water and release it under
control state in our laboratories or under normal room conditions and control
the release of that energy calculations of showed that tapping into the time we
give the water that that energy yield can exceed up to the two point five
million barrels of oil per gallon of water
basically the hydrogen fracturing process utilizes a patented Ektron exert
which we call a voltage intensify our circuits we also develop another
patented circuit called electron extraction circuit to you be utilized
with the hydrogen fracturing process that gives us ability to disrupt the
formation of the water molecule when the hydrogen oxygen gases are being ignited
and by preventing the water molecule to take place turn gas ignition
then we have an avalanche effect and now we cross over to release this atomic
energy this type of energy you can be utilized throughout their entire economy
and all segments of the economy and do it on the control stable it's technology
has the ability that we can to existing aircraft and run existing
airplanes off the water as well as teacher home produce electrical energy
economically and also be able to run your car into it do it in a very
economical way give a little bit of credit our technology and what's
actually occurred over a period of 10 years whatever you receive your patents
both the United States as well as in the end actual market area or in other
countries then in fact as you legalize this technology it says in fact that you
only control that technology for a period of 17 years so whenever you
receive this little gold seal here you see this little red button or little
ribbon down here it says something actually in fact that you have to apply
to the laws of the land and therefore you're entitled to bring this technology
out into the marketplace without opposition to do so and as a result you
can see that over the years and development we have received our
multiplicity of patents pertaining to the technology both the United States
and in other countries very recently Canada has just released all of the
meets of technology even including the mother's technology and has actually
given this top priority in their countries to bring this technology even
into Canada this is also now occurring both in the all of Europe Japan and
other countries as well as the United States it's extremely important that as
we mentioned earlier to legalize technology first and then bring it out
into the marketplace and this is exactly what we're doing many long hours have
been spent now taking the technology of the water fuel cell and translated into
pre-engineering models in order for us to be able to comply with all the
federal state local and highway safety code regulations the main thrust of the
water fuel cell technology and using water as an energy source is that the
technology must be able to retrofit directly to existing energy consuming
devices like your car or install the technology into a home or apply that
technology to industry there's an example of this form of development of
technology this is an example of a quickie circuit technology which has the
ability to prevent a spark back into the system this was developed in such a way
that we now can comply with this existing law other examples that worked
in development we have to develop our own electronic circuits designs capable
of performing the function of the water fuel cell and under extreme safety
conditions where we have an automatic shutdown in the system fuel cell
involves very high technology but we have reduced it down to a very simple
form we had found out through the electrical polarization process that
once you expose the water molecule to a very high voltage frequency while
restricting in flow the water molecule B takes on an electrical charge which
automatically switz off the covalent bonding and as a result we're now
producing hydrogen gas from water economically and therefore complying to
NASA's first requirement to produce hydrogen and oxygen gas economically by
simply attenuating the high pulse frequency to a higher voltage level we
now could be able to control the production of the hydrogen gas on demand
always to take over the dead short condition in order to perform the
electrical polarization process we had to develop a new patented electronic
circuit which we call a voltage intensifier circuit this circuit allows
the infrastructure in while attenuating the voltage potential in order to
produce the - the gas on the man
you
you
okay the mire 10x a box the variable voltage you're only going to go maximum
the 12 volts switch it on the light comes on when it's on you got a fuse
here's the volt meter the amp meter this is power out these are the same
alternators that Meyer used these are forward the old-style Ford alternator
they're pretty big here's my hand it's a big bowling ball you can see there's
diodes inside that's a full wave bridge rectifier for three-phase there's six of
them they're just diodes this is power out
this is your ground these two excite the field in the rotor
what's a rotor this is a rotor also cold and armature there's two rings here
there's a brush that goes on each ring you've got a bearing here obviously you
got a v-belt it spins the rotor positive and negative it doesn't really matter
which one's positive which one's negative there's a coil wire inside it
makes this side positive this saw negative so the fingers are positive
negative positive negative on around this whole finger network will be
positive or negative the other side will be positive and
negative one will be positive one will be negative it's just an electromagnet
if you put more than six to 12 volts you're going to mount the wire inside
the coil this is what is that steam stator thank you Frank
yup Frank over here electrical engineer this is the stator the stator is three
phases 1 2 3 obviously you see the diode connections back in there that's a
capacitor you don't want the capacitor you don't want the voltage regulator
these are brushes the brushes contact with the Rings
you don't want this wire to the regulator any kind of regulation or self
exciting I think that's on this alternator that's just a self exciter
most alternators nowadays have regulators built-in so you clip that
wire you clip the capacitor wire these two wires are now isolated from the
alternator they only go to the rotor here's the rotor these two wires go to
these connections on the rotary pulse generator there's the back here's the
front the one paper says a deregulated alternator
that's all says that is all it says a deregulated old inator
the mire 10x a box yeah the handheld voltmeter just to
check it we have amp meter one two three four five of course voltmeter which is
way too big for five volts that we want to see we can adjust the voltage and we
have the rotor for the alternator here's the stator here's the rotor there's two
solder connections and we have a Gauss meter that are on 4.3 volts 2 amps the
magnetic field
the magnetic field from the rotor goes into the stator to induce a voltage
again this is the Myer 10x a circuit 5 volts roughly 2 amps 5 volts on the big
meter get the power on the on bulb got the monitor alternator one part of the
paperwork and Patton says deregulated Alden they're an ordinary old inator and
there it is
this is a picture of the Meyer 10x a
basically a very AK with a voltmeter amp meter and a bridge rectifier 110 volts
an the variac variable voltage outs
and this is my reproduction voltage in the bridge rectifier five amp variac
power stock variac voltmeter amp meter and I took the voltage out the front
this is the front here's the picture of the front
here's your variac is your on and off switch this is a neon bulb your fuse
voltage amperage the rotary pulse voltage frequency generator the 10x a
here's the variac the on and off here is the neon bulb and the fuse voltage
amperage it's a 5 amp variac this is a 5 amp meter it the very act goes up over
100 volts here's the voltage up to 150 volts zero to 150 and here is the power
out again the rotary pulse voltage frequency generator the 10x a
and our 10x a get your Foltz and get your amps the very act fuse neon bulb
that says it's on on an off switch
because turn your voltage up and down
all the jokes
to our cell scoop probe here's the Scylla scope rectified household voltage
120 Hertz this is the voltage amplitude this would be the peak
the peak is the very top that is what is measured on the oscilloscope so if he
turned the voltage down turn the voltage up
this is the wave form that comes out of a very act with a rectifier on it this
is the wave form out of the 10x a
so into the old inator
just my scoop
into the alternator the maximum voltage into the rotor would be 12 volts down to
6 volts
and that is how you adjust the pulsing field on the 10x a all the Nader
and again the 10x a
Stan Meyer 10x a I forgot the amp meter
this is a car headlight made for 12 volts turn the power on turn up the
voltage
this is less than ten volts
and there's the amp meter turn the voltage down the amps go down turn the
voltage back up
this is a 5 amp car headlight
and the amps back down with the voltage
you
you and gas has been liberated from the
water molecule through the eraser cavity technology now enters into what we call
a fuel gas processor the combustible gas ions are now subjected to a much higher
fall voltage frequency while being subjected to even a higher intensity of
laser energy this causes the cause of the combustible gas ions to go into a
high energy state causing the electrons to be released from those combustible
gas ions well gas ions and do a much higher energy State we had now to
develop an electron extraction circuit that had the ability not only to pulling
off the electrons from the combustible gas ion but also consume those electrons
in such a way that those electrons could no longer influence the combustible gas
ions gas processor which we had assembled in order to test out the
principle of the hydrogen fracturing process to get the stability to tap into
the atomic yield of water this research lab model can be miniaturized down to
the side
alright so in this video my what temp to show you follow up from a previous post
basically what I was trying to do last time was replicate a patent from a
gentleman by name is Stanley Myers this case it was a figure 8 XA the voltage
intensifier circuit the v.i.c according to water field cell member 420
this one caught my attention because there's one of the few patents that he
had did they not involve a high voltage coil or transform so you really caught
my attention and I wanted to experiment with this one
basically i replicate everything that was here except the surgery and
triggering mechanism which was a the pc 9 XP card I did not have access to that
so I attempted to replicate it and as I was doing this I stumbled upon the
internet a very neat replica of the night XP and it was by project Icarus to
see the little wings there I believe by gentleman the name max Miller very
professionally made definitely save me a lot of time and energy and I'm very
happy with the performance so let me show you how it works
got a main switch there I got two different doctors so I got two switches
for each inductor variable potentiometer here and I got a switch for my 9xb card
then really neatly there's an optical power that connects to these so I like
to see that there's a voltage coming in to the system
and there's a cell and we can see the performance there is no electrolyte in
the water and as I modulate the frequency the output performance changes
drastically
I'd like to show you still waiting on some parts such they need to put their a
ammeter let me show you the inductors here inductors I have tested different
conductors over the time you can see they're there and some other ones
basically one of the issues I've had was heat but I don't have that issue anymore
this inductor that I'm using works really well what I am NOT very happy was
the fact that when I installed this fuel cell I hooked them up in a way that
limit limited my connection that's parallel and I really like to hook them
up in series I believe that will make a huge difference so in a previous or in a
next follow-up video that will make my attempt and I will post that so if you
have any questions now in a previous video I showed how to connect these
timers voltage intensifier circuit according to WFC memo four to zero what
happened was I went ahead and I bypassed this triggering mechanism I'm gonna show
you a disadvantage for doing it what happens is we have a unipolar voltage
waveform coming in without the triggering mechanism we don't have
control the off time so basically we can control the duty cycle why is that
important that's important because according to style Myers you want a 50%
duty cycle to allow the inductor to discharge to the capacitor during
unipolar voltage waveform action the inductor is gaining energy and amplitude
in the form of magnetic field that energy wants to collapse by giving
it a 50% duty cycle or that opening in the gate right here it gives a time to
discharge back into the circuit or back into the capacitor by night having that
what's happening is now we're forcing the discharge rate right from peak to
peak so obviously I'm not getting the efficiency this was designed with
originally now what happened was I did not have means to get this PC 9xv card
so I figured well how can we get an alternative or a simple replacement
something that switches this on and off a 50% duty cycle variable duty cycle and
relatively high frequency so I'll search here in a line and I found out that we
can use the five five five timer chip I'm going to show you a real basic
simple way to do this and what we have here is at five five five timer circuit
board hooked up in such a way as you can see we have a Heine little and we can
control its frequency XO or the duty cycle
there's a duty cycle now there's a disadvantage and that is that this is a
Power Limited circuit meaning it doesn't have the power to drive this main
circuit so that's why it's called the triggering circuit now nowadays we don't
have to use as fancy off to couplers with a silicon control rectifier we can
actually use something called a MOSFET now MOSFET is a metal oxide
semiconductor field effect transistor it's a very fancy name for a very fast
switch but what does this switch do well it allows you to trigger it with a power
limited circuit and it controls a heavier load so in a future video I will
post the triggering circuit pulse width modulated together with the v.i.c board
that we had previous and we'll do some testing and we'll examine okay this is a
basic 60 Hertz center-tapped transformer and this is my by Fowler choke and I
just put a 220 ohm resistor crossed out please just say you know that sell or
whatever okay a measure in with reference from the negative choke to the
diode and easiest rectifying the signal half wave all right now I'm gonna take
using the center tap as my reference I'm gonna connect this probe to the input of
l2 choke which would be your negative choke so between a doubt and l1 choke
you have the frequency doubling and this l1 choke while on the l2 choke you still
have the 60 Hertz and you got 120 Hertz on your or positive choke going into the
seal that's basically the setup of what
stands transformer does hope this helps
9x be poor together with the SCR board and we have connected the two up to
coupler output is connected to the SCR and we are not using the
opteka optocoupler on the SAR board itself and we've connected the scope on
the red channel we have the selected output from the 9xb and on the blue
channel power to a lamp that we've connected to is the art board instead of
what would normally be by filer coil and the supply to the AC our board is a very
AK transformer set to 12 volts because the lamp is 12 old mine and the AC which
is 50 Hertz is a full wave rectified giving a 100 Hertz force DC output which
is connected to the AC R so if we look at the scope we can see the rectified
the the supply or the output from the scr board that's so that's the lamp
voltage and the red trace is the signal gating signal gate signal from the 9hp
and on the scope we can see the frequencies we have the expected hundred
Hertz on the blue channel and we have 100 and currently 126 Hertz on the Red
Gate channel what I will demonstrate now is the beat frequency effect that can
occur between the hundred Hertz
rectified sine wave Doppler rectified sine wave form waveform and the 9x be 50
percent duty cycle square wave output so I'll just start by adjusting the
frequency down to hundred Hertz
and here we are matching the the frequency of the night 9 XP to the 100
Hertz double wave rectified voltage waveform and we see on the scope that we
have the a quarter of the sine wave being chopped off at a low frequency and
if we look back at the lamp we can see the low frequency component it shows up
as slow blinking and the blinking frequency is the difference between the
9xb gate signal frequency and the 100 Hertz frequency from the full wave
rectifier I can turn it up and down a bit and change the frequency see blinks
faster and I can turn it the other way and it also starts to blink fast
and you can do other combinations you can do 50 Hertz on the 9xb and get to
half waves on the output where one of the half waves being chopped from 100%
to 0% but this action creates a lot of overtones which are being fed into the
by filer coil so and if you change the 9xb frequency you can move the overtones
up and down and basically the overtones are the combination of the 100 Hertz
full wave rectified sine wave and the
50 percent duty cycles quickly I was actually retrofitted on top of the
series of resonant cavities that are arranged in a vertical ray much like
what you see in this slide at the present time the injective system is
automatically controlled with the maltese intensifier circuits which now
allows the production of the energy to be controlled on a demand basis
fracturing process simply occurs by preventing the formation of the water
molecule during thermal gas ignition of the ionized gases causing an avalanche
effect that release the thermal explosive energy under control state the
fracturing process is totally completely environmentally safe on the control
state it can be retrofitted to any existing energy consuming device within
the economy it's been expanded in the area of developing what we call an
electrical particle generator that has the ability to move in attenuated
magnetized gas
you
I said I would and explain how the Meyer 9x b8x a
functions the first thing we need to go over maybe the second thing is the very
AK a very AK is a variable transformer
here is a bench top model 0 to 140 volts you plug it into the wall into 120 volts
in the United States and you have a switch turn the switch on turn the power
up there's 50 volts
Oh our meter stuck
we're at 140 volts around 140 150 120
100 volts
I think the meter wants to be straight up and down zero volts 50 volts 100
volts as you can see a very AK is just turning the volts up and down the
benchtop model has an on and off switch
normally there's a fuse this says an 8 amp fuse this is a seven-and-a-half amp
variac this one has a label I don't know if you can see it this is the power stat
single-phase should tell you the frequency what else let's get two amps
seven and a half amps this is a nice old power stat very act variable transformer
you can see the dial
again this is the seven-and-a-half amp hour stat variable transformer here's a
5 amp RadioShack variac you can mount mount it right on your wall to screw it
down with some three screws the same with this one just screw it down or
sometimes they have little rubber rubber grommets on it so it doesn't scratch up
your bench variable transform or very act
this one this is the one I normally use maybe you've seen it in the videos this
was a panel mount variac and I put it in this little box this is a three and a
half amp variac from one from zero to 110 volts what I did is I put a
rectifier inside the rectifier makes pulsed DC out here you got negative and
positive and this is my AC so with this very act I can have DC or AC again
there's the fuse in the back now this one this is another panel mount all in
pieces I bought this one on eBay it was listed as working but it had been
underwater these things are not cheap so I got a discount because this one's
dirty been underwater looks to me like the wires are okay needs a little
cleaning needs a little cleaning on the connections again this is a power stats
and we got I can't even read it this is 15 amp power stat panel mounts now I'm
going to clean it up I already took it apart the connections I'm going to give
them a good scrubbing with the water brush this thing here it spins around
and what it does it has a little carbon brush and the carbon brush rides along
these wires as long as they're nice and flat and clean they work just fine
what I do is I take a stainless steel water brush thing cleaning everything
off same thing with this long as you're careful put it back together the way it
come apart it'll be just fine again this is a panel mount variac this is a bench
top very act that one's a wall there a deck also known as a bench stop variac
your panel mount will look just like that in the panel you choose to put it
in
and I went ahead and took the variac all the way apart there's what the wire coil
looks like here's the mount cleaning up put him back together get his name so we
got the raw a couple of little parts on the bottom the little rope in little
plastic piece little copper shim up through the bottom make sure spins easy
and we got a little insulator and this thing the coil of wire now this all of
this wire has a a varnish on it you don't wanna you don't want to brush off
varnish you don't want you just take a rag wipe this off this piece the good
very acts are just flat and I'll just take my brush and I clean that off make
sure it's all good make sure it's all flat and that goes on there right there
this thing goes in middle some kind of centering washer
hmm another insulator
washer now if you really wanted to be good you could clean it up better than
that I'm not that worried about it what should I do with the nut lost mine
there's got Doolittle cleaning on that that gives their nuts pretty cleaned up
not goes back on right there
and we got a machine screw here machine screw down here and one more here
we got a little some kind of insulator what in an insulating washer and then
another insulator and that goes right there
to clean this thing up this goes right over top of that and here is the trouble
spots the brush has a little spring on it the contact spring has corroded that
has to be cleaned if not you're 18 amps 15 amps you're going to get some trouble
the little brush a little carbon brush is fine the housing is fine just need to
clean the spring or replace the spring there's the contact for the the main
water contacts rotary contact now that piece is cleaned and assembled you can
see the brush that moves up and down
this contacts the contacts here
cameras on my way and there's the assembled 15 12 to 15
amp power stat variac cleaned and assembled I mostly clean could have been
clean but I'm not that picky now this goes in your panel this goes on the
front of the panel and then your knob
panel mount very act now you know what it is somewhat what it does adjustable
AC power more on this later now this is a 300 volt 340 volts transformer you
plug it into the wall and you get 300 volt or more out the wall is 120 volts
in the USA the transformer is a step up from 120 to 300 what we've done this
very act is from zero to a hundred and forty with an on/off switch
so what we've done is we plug to this transformer into the very act so now
with the 300 volt transformer plugged into the variac now we can turn it up
three hundred and twenty volts
you can easily put any transformer on till variac and change your voltage
if I wanted to I could put a neon sign transformer on here and go up to 12,000
volts or so
this is all AC power if you look right there there's a little a seesaw
you
you
you
in this video I want to share with you how you can make 9x a circuit from - 9 X
bees if you have two 9xb boards you can connect it together and connect it to
SCR board and you have as a result 9x a board I use this schematic to connect it
together this is a 9 X B number one none X B number two and this is a scr board
and you can see from resistor of 9x be number 1 it goes to resistor of a CR
board and from gating of 9 X B 2 it goes to to gate of AC up world and from gate
9 X B number 1 wire goes to resistor 9x be number 2 and here you can see the
result whatever God I can control frequency and gating
I don't know if you can see that isn't it nice
it connected to this SCO board okay
thank you
you
you
you
you
now the powers fly is on the bottom we got up to 1.7
amps from 0 to 170 volts 140 volts and we have a frequency generator got a main
frequency we got a gate each one of these goes from zero Hertz basically up
to in over 400 kilohertz I can choose which one is the gate I can choose if
it's an exact 50% duty cycle or adjust the duty cycle and then there's my
ground this is my signal out this is my NPN transistor driver smoothing
capacitor it looks big but that's what I had so that's what I used and the v.i.c
transformer bolted to the heatsink
and back there we have an 11 cell
resonant cavity in series with water and we got some ladybugs in there going for
a swim
hi guys Mike here today I'd like to talk about how to request my friend talk
about what's going on with the 9x a board and basically walk you through
this entire board now I've made a few changes one of which is you'll see this
board over here which is basically and if you notice carefully I wish I could
zoom in your five five five is here now this is your primary capacitor where
you'd have it here on the board but instead of that I've made a set of
jumpers these are header pins and you could put
jumpers on them to engage or enable that particular capacitor so you have a
greater depth of more frequency range whether it's a large capacitor or
smaller capacitor or or you can select more than one capacitor to go a
combination so that you get any frequency range that you want that's
what that board is about now the other board here is quite a few
different circuits in one an angle here first of all we have McConnell is this
which you might have seen on max Miller's iron D max form this is the
movie dad out there 9x a board addendum basically what I'm
doing is taking a couple of transits at my boss sets and creating the gated
pulse train they've met the status talking about instead of having a single
9x a bort with just one oscillator this gives you the issues both dated tell
strain like here you have the post bolt postman gate
the problem with the 9x B board is in my opinion it was it was meant for stayin
mire to cover his all of his bases with regards to his patents so that he could
have make sure that nobody was able to say okay well hop up just talk about
just the one board by itself when one off later so he's trying that's what I
figured he was doing but the other things we have here is if you look back
here looks at the camera here's the - a little tiny MOSFET and the two resistors
there's the 9 X be at a addendum now also over here we have a max called at a
totem pole MOSFET driver where I originally got it from and I'll show you
a link to this monkey how well you can see this but this is this is where the
signal comes in a whole lot of course I can get but here you have your signal
coming in now with I got this from a guy named value on PZ and I'll send a link
to to this particular image and hopefully you guys get a chance to look
at his other videos this guy's got a lot of go lot going on and he's got a lot to
to show learn quite a bit from him now one of the other things after your
signal comes through you have quite a bit of an placate amplification when you
when you put your me this morning if you put your probe right here on this point
here to your output let me turn it on now
all right this right here
Way Out of resolution I'm saying
bring it down take two
okay we're at the output of this output
MOSFET now if you get a chance here to look and I have to hold it on that you
can see it we're at one volt per division and just about two volts which
is not much when you consider what you're getting out now go back over here
and here we have five volts per division and about 13 volts which is your
amplification and you get that steady go down slow down
okay but what I'm trying to get at is it gives you a little bit more
amplification or your when you send it off to the hospital also have a inverter
which in his situation he didn't need it because his signal was basically upside
down if you do it according to the way this setup is you'll need an inverter
which is basically just 10k resistor into your inch shell or MPN and then a
4.7 K to VCC and then out to your MOSFET that'll get your your in the pulse up
instead of pulse down so that'll get that straightened out so it's basically
like an amplification instead of your what they call it where you have your
incoming sine wave is vertical but it comes out as a negative so that's what
they call that's what that is and basically that's it now also here on the
board we have a a 12 volt regulator back here a couple of caps first moving now I
pull this power if you'll notice this wire here comes off the bottom of the
board and I just tied that to the positive of the right guy rectifier
so that I could bring 12 volts into here instead of five which is get you a
little bit more power output now if you were to turn this on here
Skype off one second turn it back on
okay now if you if you take your signal off of
the opto-isolator it may be a little bit rough it may not
look very clean but if you come off of here there it is there it's pretty
fairly clean I understand why it has a little blips but there's there's your
other signal this is your gate I think the other on top of that gate are the
somehow interference from the from the primary oscillator kind of like
inductive something interference but if you were to come off of the output of
the opto isolator unless you're driving with enough voltage I think you're going
to have a problem that's why I I don't go through there I just bring my output
from here off of these two at the switches which is
usually easier see if if you notice here's your two sets of switches and if
you count these is actually six which is set of five I happen to have these
laying around so I use these instead of having to buy additional switches so and
then back to this diagram where you've got your two Swit sets of switches and
you come off of here to tie into your primary frequency which which comes into
the drain and then your your gate frequency which is the b-side comes into
the gate and then the rest of its driven is your output so that's basically it I
don't recommend using the opto isolator up the coupler output I tried using it
it just doesn't seem to work but this does seem to work pretty good for me so
you would try to have any questions I will be posting a link to this image
here and check a look take a look at the bell young PV his work he said a lot of
hip stuff and if you have any questions give me send me a note or as I say
comment below and don't forget to like because like good looks a lot of likes
and I forgot I totally forgot this is where you make your adjustments for the
for your frequency here you have your main frequency and this is set up so
that as you turn this in this direction your frequency would be lower because
the wave tends to be spread out as you increase it in this direction your wave
tends to look like that that's why they're kind of set that way and then
this one is in like the other way whereas as you go in that direction your
gate spreads out and the other way that's basically it
here your your power MOSFET that would be going up to your to your cell or Ike
no actually this is for the to the primary and feed the primary and that's
basically it
here we have a very active lines plugged into the variac to lawns we have two scr
boards both plugged into the variac both plugged into the frequency generator we
have one joke and there's another cord
we have a light bulb we have a large hydrogen cell - beret we have a
backlight and we have an oscilloscope and we have a frequency generator
now what exactly is all of this
well Meyer had what he called an electron extraction circuits let's see
what it does
the electron extraction circuit pulses opposite of the hydrogen pulsing
circuits
that's why there's two SCR boards
electron consuming device
and this is rain water in the tube array only rainwater
this is a hundred and forty volts variac
and we have 204 volts across the to beret the off time is showing the
electron extraction light bulb
and what is this this is a Trifield meter it's on magnetic magnetic zero to
100 range which is the top needle there the top numbers
whoo
I would call that magnetic flux of some kind and it continues all the way it
gets lessened but it continues all the way to the top of the tube and the water
holds some magnetic flow
I'm gonna turn the light bulb off it should have the same magnetic flow I
would guess yes
that's a - with the light on
that's a - with the light off two and a half we're at two and a half with the
light off
Wow it's a tattoo with the light on that's interesting
to the quarter to
four up around three a waveguide the magnetic wave is going up the electrode
again turning on the light
the light is consuming some of the magnetic wave
I would dare to say that's electrons flowing through the pipe
this is from Meir himself the electron extraction circuits
amp'd assuming device filament wire
there's your SCR
there's the inductor the blocking diode
the filament wire which could be a resistor or a light bulb blocking diode
SCR there's your isolated pulsing transformer variac
there's your trigger pulse so as we liberated the gases from water we're now
reach objecting those liberated gases to even a higher pulse voltage frequency we
are restricting the amps and all voltage to take over to perform its work we are
now injecting laser energy in the process to aid the ejection of the
electrons two three
number one yeah we go on yeah so basically what I'm doing now is that I
am now taking the combustible gas ions and I'm now bringing in two sub critical
state I pulled off the electrons I have now subjected to photon energy and what
I'm now doing is taking combustible gas atoms and put it in the subcritical
state in order to do this I had to invent now the electron extraction
circuit when I developed the electron extraction circuit which I shut off the
flow of am voltage to take over to eject the electrons and now come up with an
alternate way of redirecting those liberated negative electrons and as a
result if you would apply the B plus across a filament of a light bulb then
those negative charged electrons will go into the filament in to react to produce
heat in the form of light energy but what I'm now illustrating to you that
not only are we're setting up the condition to bring about the hydrogen
fracturing process we are now producing electrical energy simultaneously which
that electrical energy now can be recycled back in electronic circuits to
aid the voltage intensifier circuit to perform the electrical polarization
process this is an example now that when you inject the combustible gas atoms to
laser energy it causes the electrons to go to a higher energy state which now
allows electrons to be ejected from the oxygen atom as an example and by
subjecting it to the pawls voltage frequency we pull away the electrons and
then we consume the electrons and not allow the electrons to go back into the
process so we're now keeping the combustible gas atoms into a very
critical state to do this we're now developing all the hydrogen gas gun
technology now basically what we're doing is we know that in fact that when
you ignite hydrogen oxygen and gases it released the thermal explosive energy up
to two and a half times that of gasoline the scientific question that was to be
asked at this particular point is that what happens during thermal gas ignition
of hydrogen if you could the formation of the water molecule from
occurring in other words if you could prevent the formation of the water
molecule from occurring and could not reach stable state then in fact that
explosive energy would keep continuing to be released from the process until
such time either a new atom structure is formed or that an implosion effect in
release pure energy now since the energy problem has have
been occurring in the scientific world Livermore laboratories has been trying
to use in hydrogen fusion as you know by taking hydrogen is subjected to high
temperatures and high pressures around 10 million degrees and put an electric
electromagnetic bottle in trying to release its energy another process which
was very successfully demonstrated in a university environment is called the
muon process now we know that if you will decrease the mass of an atom it
must release its energy and under the muon process they took a muon which is
twice the size of an electron and cause the hydrogen atom to accept the muon and
reject its natural electron now once that has occurred then decay comes about
on the muon and once the muon decays then the hydrogen atom no longer stays
in existence and the energy that's there to hold the electron and it's outer
orbit is no longer there and therefore under the law of physics everything must
be stabilized and therefore releases tremendous amounts of energy what we are
now doing is setting a subcritical mass at combustible gas atoms decreasing its
mass size in allowing in preventing the formation the water molecule from
occurring to release phenomenal amount of energy this example of taking the
hydrogen gas gun and put it on top of the resin cavity matter of fact the
hydrogen gas gun can be reduced down to the size of a spark plug or the gas
injector system of an f15 or an f-18 and literally fly an f-18 or 15 on the
atomic power of water this is some of the electronics are
interfacing that gave us the patents worldwide on this technology now to give
you an example of the hydrogen fracturing process to prevent the
formation of the water molecule is that Ike and I are on a basketball court and
he's the hydrogen atom and I'm the big oxygen atom now I'm eight times bigger
than he is right now what I've done is I've zapped
act Ike with laser energy and because I had hit him with laser energy his
electron migrates far away from the Nikolaus and as a result of that the
electoral attraction force between that electron and nucleus becomes weakened so
he is now in a weakened state but I am the big oxygen and Adam and I got four
missing electrons and unlawfully says I want to stabilize and I need some
electrons but I'm also injected with laser energy and I'm in a highly
energized state and that Leonard sword laser energy and iniquitous is
preventing me from allowing me to go back to stable state so I have an
abnormal state I'm in a subcritical state and then I am been subjected to
thermal ignition and so as a result the hydrogen oxide Adam seeks to come
together to form the water molecule but it is not in stable state and as a
result of that an avalanche effects occurs and once that takes place in
stabilization cannot occur you start to release thermal explosive energy of a
fantastic magnitude this process and hydrogen fracturing process the
potential yield is 2.5 million barrels of oil per gallon of water
and since there is no neutron into reaction in the process it is a very
clean process so we now have the ability to retrofit the technology to any form
of aircraft you so desire even rocket engines we can take even the liquid
hydrogen and liquid oxygen subjected to the hydrogen fracturing process and
obtain tremendous Mach yields where the United States was originally developing
the hydrogen power aircraft to go Mach 25 it is now slated to go a Mach 150 in
outer space with this type of technology
we now found since voltage stimulates the process we could not rely on prior
generators to give us the economics of reliability to operate both under the
Seas as well as in space so all of these electrical generators and the type of
technology had to be developed to give us the form of economics
alright guys so here's an observation I like to share with you maybe you could
help me out this is a very common diagram for those of you that are doing
the research basically we have the this is patent number four nine three six
nine six one and it shows us the step charging effect in the sequential order
of what happens to the water molecule as it breaks up so first of all you shows
the it's called the repetitive pulse stream so you have these pulses
sequentially and as they happened the water charges and like you know builds
up charge as this happens you start polarizing the water molecule eventually
you have an elongation on the water molecule then you have what's called the
convening break up on the water Monica now as this happens you know the voltage
Peaks and a false and it Peaks then a false so we have a posturing we have a
charging effects Peaks fractures comebacks down again in the process
continuously and this is typical for all of his patents that we've seen as far as
the v.i.c circuit of voltage and since the fire now this is something that
caught my attention here this is the birth of new technology book written by
Stan Myers and one of the things that I thought my attention was this page 337
we have a diagram here electrical step charging effect once again you have the
repetitive repetitive pulse train and as this happens we can see the charging of
the water something caught my attention and is the explanation of Stan Myers of
this picture here I like to share this with you guys well this is found in page
316 he says the following this is about attenuating the voltage amplitude and
that's vo through the air once again we go back to the drawing to confirm that
we're right where he's talking about
so there's vo throughly and interesting he's telling us that by us regulating
this voltage here we can have a we can change the output performance now he
says also in conjunction with a pulse width so here's the pulse width and
there's a voltage amplitude now I used to read this and just swing right by it
real quick and not pay attention that he was referring to the voltage amplitude
not just a frequency and this caught my attention because how can we vary the
voltage amplitude it was not for example in variac you can manually wrote
manually change the voltage amplitude or if it's in a you know fixed in ariel
there's reading a way to move it up and down I mean you have a transformer you
you are attenuated but that's it it stays at a certain level I mean the cell
charges itself we hit resonance the de sel will charge in fracture but how can
we attenuate this well I can't do a little more research found this is
patent number here we go five one four nine four zero so now this one is
interesting because it shows the voltage amplitude in this case he's manually
once again changing the voltage amplitude how does he do that does this
well he has an SCR Network and they're tied in two different voltage levels at
the coil so for this application now this is not to fractional of water this
is for the gas processor but in this application is interesting because we
can see you know what he's talking about and as far as how to monitor control the
voltage amplitude so I was thinking whoa how can we do this electronically where
we can sequentially move up and down the voltage amplitude
so that we can match the repetitive pulse train in other words as we're
going through the sequence could we not increase the voltage as we're going
through there and further enhance this polarization effects so they did a
little bit of research and came up with this here like to show you so here we
have a sequential circuit very simple circuit to hook up basically what we
have is a 555 timer and a 40 17 IC chip it's kind of hiding in there and in this
case here just for means no simplicity we can show you here there's a variable
potentiometer and we can control the frequency
so you can see there I imagine that each one of these is a silicon controlled
rectifier hooked up in a network like that now we can phase this correctly
with a pulse train and that would be a very interesting experiment so let me
show you how to connect that you like to mimic it here's a sequential circuit I
found this online there's multiple versions of this there's a 40:17 these
are the outputs connected to the LEDs and there's a 5 5 5 here and then this
is the control variable input so let me know what you guys think about it
you got any questions or you'd like to post any comments please do so thank you
you
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