"Joe Speak"
tape-3
Did I add anything to the water, to the ultra-pure water that Wayne and
Brook the government agents brought up? No, if you add anything to the
water, it pulls heaps of current, the water goes hot, the gas is no
good - not that they're using the gas. But it just doesn't work. And
plus, if you noticed on the videos and everything else, so far, what
you may have had... Anything what is in the water wants to come out to
the surface. That is any mineral, any substance, that's sewerage,
salts, coffee, caustic soda, flamin' acids, scum everything else which
I showed you the paperwork of here yesterday, you can look at.
Everything single thing comes out of that water. You do not use an
electrolyte to carry any current. If you have to use an electrolyte,
then your cell is not lined up. It's just not lined up right. What
happens is, that our normal way that the government talks about
conductivity and everything else is, you add stuff to the water. Now
like we've got Les Banky and everybody else out there making
hydrogen/oxygen cells, and to make 'em work and everything else they
have to add heaps and heaps and heaps and heaps of caustic or acid. And
that pulls heaps and heaps of current.
Now if you go to Les and check on him and everything else, when I took
the water cell down there, he put a twelve volt battery on it, it had
plain water in it. He metered it because he's a TV/video technician,
electronics expert and everything else. He put a meter on the cell and
everything else, and he said twelve volt input, one sixty-fourth of an
amp. And that kicked off as a welder within three seconds flat. It was
working as a welder, and there's not much gas in that time, but you're
not using it as a gas. Right? And that also runs a car and everything
else. And what you'll see in a few minutes is, gas production, after we
take Wayne and Brook for a run in the car, what we're gunna do now is
we're gunna show the car running with the petrol like I said. Then
we're gunna block up the jets as we've just come to them? Then we're
gunna run it, show you with that. You know with the jets blocked up.
And so on.
That's the intermediate high-speed jets completely blocked up, and the
idle jet, sixty-nine sizes smaller um, and so on. Now, we put the water
cell on, and then the uh, we'll start the vehicle up, and then you'll
be able to take it over idling. Where with the other way, with just
petrol on you won't. Then we'll re-set the timing, and bring the timing
right around to buggery in advance. You'll hear the motor smooth out
and everything else, and then she'll go right up to ten thousand revs.
Okay, with the jets blocked.
Then we take off the fuel. Now, after we take these people for a run up
the road and back. Right, out on the road for, probably a seven or
eight mile run, and then back in again and everything else. Um, I take
the cell out of the car again, we check the batteries in the boot.
They're putting meters on every damn thing what they brought, not my
metering. They check the batteries, they check the coil, they check
everything else what's happening. They even get voltages, AC and DC out
of the plain straight water, and it had no input while it was in that
car, while it's run the car. Now, when the cell is taken out of the
car, we add a little bit of charged water into it, because, when it's
running in the car you always have it lower. You know the water in the
cell is never to the top.
BOB: OF THE CASE?
No. Never to the top of the cell. It's always down. If you were under
vacuum., ah, you will find that the vacuum will suck water straight out
of the cell and set its own level anyway. It'll drop the cell down
probably four or five inches. It'll suck that amount out first to set
its own level, then it won't use any water from there on. All right,
but if you lift that water up, which I found in the first place, it
will
suck that water out if you have it under vacuum. In fact, if you see
with a power connected on the fire extinguisher- now that's a blue one
- and the flamin' cell for the car, if the water is too high, you'll
find that she pumps it out, over the sides and runs over the sides,
until she just, gets its own level. It sets that.
Right? So, when you do that and everything else you leave it down
there. Now when I come back to show them how much energy is in this
cell, what was just running the car with all of them in it, um, I add a
little bit of the charged water which has charge in it, out of the keg,
you know, it had a little bit in it, to bring the
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level back up to the top, so they can see the bubbles, and they can see
what, see the water. To see what it is doing. Whether it's running over
the sides, or how much energy in it, so we can light it and show you.
Now, even with that little bit of tiny charged water in it to bring it
back up to the top, you'll see, put a match to the top, and it goes:
'pop. pop.' and then it doesn't light.
It means that the gas, as a gas unit and everything else, has zero
energy in the bubbles. And the main reason is because you're asking it
to do something else. We were asking it to give us the gas to run the
car, we're asking it to give energy, to store in the motor. Into the
body, and make that car do another thing, you know like cool the water,
and cool the exhaust, and make the motor run and everything else.
Where, you know, like, you've seen the fire extinguisher, just to give
an example, you've seen the fire extinguisher, uh, which is on the tape
you've got.
Now we, as I explained a little bit earlier on the tape, we took it,
and we lit it. The bubbles were pouring over the side, running down
sitting on the bench. Right? And they get more violent as they run over
the sides, not on top of the water, they get more violent as they run
down. So, um, the same cell then was just turned off. we went on to a
few other things and then we come back to it, and then I put the cap on
the top, sealed the lid and took that white hose off. And then I put it
into non-charged water in a glass container, and drove the bubbles
underneath the water, what you would call like a flash arrestor. All
right, that's on the video you've got.
And um, when you first do that, the bubbles, what come out on the top,
you can't light em. The reason is, because the gas itself is bringing
the charge out of the vessel, out of the fire extinguisher. But the
water what it's travelling through, is non-charged, so the charge
factor, what is in the bubbles is um, going into that water which is
non-charged, then until it charges up some with the bubbles going
through it, you cannot light the gas, coming off the cell. And then
when that water picks up a bit of a charge, then you start lighting it
on the top. Now you can sit down at home and watch all of this, 'cause
you've got that video. All right? And then, as the water charges up,
you then get all the different gases running through like:
pip-pop-pip-pop! as I described before.
It does probably about, you know you can visibly see about, in here,
five or so different gases with the power on. Okay? Now as I run
through the process, which is on the other tape you've got too, you
turn the machine on and you turn it off, and we get an in-suck, you
know air sucking in. You turn it on, you turn it off, you get an
output. You turn it on, you turn it off, you get a bang. All these
different things, we get a variety. Now I've gone up to twenty
different gases, five, um, between five and ten, depends on which water
you got. You know, like you can get a water with minerals and shit and
everything else in it, and it has to pull all that out. Now, we run
through a whole lot of different gases and that because, each mineral
gives a different kind of gas. You know, like if you got a chlorine,
you got a fluoride, you got a you know, acid, you got salts, you got
everything else. You know, you end with all different kinds of gases
but, when you initially break down, when you virtually remove every
damn thing that you figure out, out of that water. You know the
government will tell you that you have no conductivity in that water at
all.
All right, that's why we're showing all this paperwork and everything
else before. Now, the water has got nothing in it. But it works, it
reacts greater with nothing in it, with these cells, than it does with.
That's the only way to store energy. To keep a cell, which has
continuous charge factor, what you were talking about. You know like as
electricity or, not bubbles, okay? But what I'm talking about is the
energy to run a vehicle, or to run electricity, or to sustain its own
field.
The um, the cell itself, if you have minerals in the water, you will
find, in a normal electrolysis cell, if you add anything into the
water, as soon as you turn the machine on, you don't get any bubbles on
the surface, you don't get a surface tension, but you can produce
hydrogen and oxygen. Okay, it's sort of like you don't have anything
like you see me doing. But as soon as you turn that machine on okay,
you'd pulling heaps of amps, as soon as you turn the machine off you've
got nothing. You don't have any bubbles with it coming afterwards. You
don't have anything stored in that cell, your not able to light
anything again, um, so on like that, you see?
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Now, and your cell, soon as you turn the machine off your cell's dead,
your water's dead. The main reason is because the acids, or the salts,
or the flamin' caustic, or anything else what you got in the water
there, it pulls current. And if your water's ditched, or any
electricity, instantly that you turn any input off, it's used up
straight away by the reaction between your minerals, what are in the
water. Okay'?
Now, if you have a water, which doesn't have any minerals in it, and
your cell's lined up properly, then what happens is, is you've got
yourself a cell which doesn't use any excess electricity.
If it makes it or if it stores it, that's a capacitor. We don't have
enough time to make it a big capacitor, to do what it's damn well
doing, because the amount of electricity what has to produce those
bubbles under normal circumstances, is a phenomenal amount of
electricity. To produce any kind of bubbling and gas, and you know
reactions like that. We don't put that amount in, we're only running it
for seconds, you know half, a quarter of a minute. It's not enough to
produce bubbles as well, and store anything to run afterwards. In any
other circumstances you don't have anything what goes on into the input.
What do youse do? And we're only running for a very short time. Now the
more you leave 'em going if they're running like that, then uh, the
greater the bubbles' performance, the greater the performance goes.
But, if you add any minerals like I said into there, it will discharge
anything you've got into there. So the cleaner the water, it stores
energy which nothing can effect.
BOB: IS IT BETTER TO HAVE ULTRA-PURE WATER?
Ultra-pure water. What you're seeing here, these government agencies,
Paul Christiansen and all that, he's been out there and released all
these tapes, he can tell you he brought his own water. He had nothing
in it, even though he didn't understand it didn't have anything in it.
Because it was rain water from near the ocean, and that brown shit in
that tape which you've got in '95, actually brings this shit out of the
water, because, you don't taste it, you don't know it, but it's just
got a fine bit of salt mixed in that rain. From blowing off the top of
the ocean. And that pulls it out. It takes it out of the water. That
water underneath, when you remove all the stuff off the top, it doesn't
have any electrolyte in there, it doesn't have any caustic acids. But
you need to add them, to make standard electrolysis work. But this is
not standard electrolysis.
With electrolysis, shut the power down, you've got nothing where there
is a sustainable energy. Well these things here, you know, you've seen
it on the tape that you've got, you haven't seen these other ones here
with ultra-pure water, four times distilled, de-ionised, de-magnetised,
everything you can do to the water, it is non-conductive in any way the
government can tell you. Wayne and Brook brought their own water up
here, but that will not conduct anything that you understand as
electricity, AC or DC or any other thing. But, with the cell I've got,
in the configuration of plates that you've seen here this morning,
there's no shit coming out of the water. It is showing you absolutely
brilliant, white, white as a ghost bubbles and water and everything in
it.
Clean as a whistle compared to the other stuff, isn't it? And there's
no shit comes out, even when you light the bubbles, and jar the water
and do everything else, no shit comes out of that water.
And that water there, instantly conducts, doesn't it? And it gives you
violent bubbles straight away, doesn't it? And out of those bubbles
which you witnessed here, what come out of those bubbles when I lit it?
Wasn't it? EXPLODING out, that white, misty stuff. It just shot out
like a cannon out of a bubble right out of a keg. And that was only on
for what, not even a quarter of a minute? And we had a whole lot of
bubbles on the surface and everything else. And then, after we lit 'em,
the power's disconnected, and it still does the same thing, it still
goes bang, it still blows those things out, and then it still
on-produces. After a quarter of a minute - now that's non-conductive
water! Ultra-pure, and it is doing more action than what that other one
was with Solly's stuff in it.
And those cells will go on - and they'll stay like that for ages and
ages, and what we've got is... You try it with any gases of any kind,
get it into a bubble, and see two to three to four days later, that you
have the bubbles still sitting on the surface, and those things get
more violent after two to three days. Where's that energy coming from,
because you haven't got 'em anywhere - you can sit 'em on a bench, you
can sit 'em on a table, you can sit 'em on anywhere... Take 'em off the
cell, and they don't burst. You go sit 'em
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somewhere else for a while, and they get more violent. Where's that
coming from? It's not coming out of water. That's not coming out of
electrolyte. That's not coming out of electricity input. 'Cause there's
no flippin' input.
There's something about it, I didn't say I knew what they were doing.
All these other people are calling it, first of all they called it
vacuum space energy. Well the thing is I didn't have it under vacuum so
you can't call it vacuum space energy. So when I told people about that
they went back to the people who called it vacuum space energy. Now
they call it 'Joe Phenomenon' because it's out of zero point energy. I
don't know what zero point energy is. I don't know whether anybody else
does either.
You see, if we're creating a vacuum which, what happens in some of
these things is... Now I'll agree in some things. I've taken some of
these gases off. If you're looking at some of your ideas on it... I've
taken some of the gases off, and we've got witnesses here and
everything else all around the place, that I put some of these bubbles
into a balloon. And then, if I don't cover up my arms and face and
every damn thing else there is, and I light some of those bubbles, the
in-rushing air to that vacuum-implode going in, actually wipes out -
you don't feel anything -there's no flame... All the hairs on your arm
are aiming - what's left of them are aiming towards the balloon. You've
got nothing left on your hands, or your face or anywhere else. It just
totally implodes. The air rushes in that fast it just takes - bums off
the hairs. And it's not burnt off, it's actually sucked them off.
Pulled them clean off your arm. Now, your other bubbles, we got there
with the yellow flame, an explosion, doesn't hurt your ears, doesn't do
anything else, doesn't bum your head, doesn't do anything.
Now that is an ex-, you know, and the other's an in-. All right, so
what is ex-? Well you can't call it eximplosion. Or vacuum. All right,
it's ex outwards. That's not an implosion, that's not a vacuum. With
the ones we did do, we did it on a variety of things others haven't
really got now, Ian Hakon and all the other jokers and everything else,
are now calling it the orgone. I don't even know what orgone energy is,
I've never checked it and everything else. Somebody gave me a piece of
paper on it, when somebody wrote about orgone energy, what it does.
Now, sounds like orgone by what they wrote on the paper, does some of
the similar things that this water does. But in all the different cells
in all the different ways, they do different things. Not just the one
constant thing.
Cause these people have got it in their head that, one constant thing
is, produce the bubble, produce a gas, hook it up to a car, run a
stinking car. This is not all that these things are doing.
It's not all the way the cells are made. Now fine, all these cells that
we've got I've hooked up to different vehicles, and the vehicles have
run. They've run different ways, you know, I mean the same sort of
thing but, different ways, some are weak and some are strong, some are,
you know... Now, but the energy what's in there but we're not using a
gas. Tried running gas, under vacuum and everything else, but it
doesn't do anything. Doesn't run the car. Tapes youse've probably got
and other people've got and everything else, putting it under vacuum...
Finding out the containers, under vacuum the containers expand. Flaming
expanding out, like it's gunna blow you to pieces, and if the stuff
gets out, you're probably looking like, I'm not joking here, you're
probably looking like what this energy is, is Hiroshima and
Nagasaki-type stuff. You know what I mean? Because we've um, in Casino
and all that before with some of this stuff when I first started,
lighting one little bubble on top of the water was shaking and breaking
glasses, and shaking four houses down the road.
It was pulling people's ear drums while they're half deaf and they're
listening to TV, right across the road, with the TV turned up. Light a
bubble, and those people would come across whinging that their ears
were hurting because it imploded them right across the road. That's old
Edgar. And we got me son and everything else with his mates, four rooms
away with all the doors and walls and everything else all shut up, and
you light one bubble what sucked air, and this was the government agent
too working for ASIO, one itsy bitsy tiny little bubble sitting on top
of plain straight water, on me son's pool table, in two litres of
water... It sat
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there for over twenty minutes while we were outside talking, we come
back in, and he says, oh nothing's happening with the cell. I said
well's there's one tiny little bubble, how 'bout we light it?
He said, oh it won't do anything. So we put a match to it, and this is
the guy that's got that F 1 00 to lift off the ground. Anyway, ???
light the bubble and everything else, the two litres of water instantly
went straight out of the cell, up under the roof, all over the light,
and then fell straight back down over us and all over me son's pool
table. Him being four rooms away with the doors shut and everything
else, him and his mates come out with their eardrums hurting like
buggery.
And that was one itsy bitsy tiny, tiniest bubble you could ever see.
And it went into the water, and threw the whole two litres of water
clean up into the air. We've got quarter-inch bullet proof glass, what
I had on the side verandahs what I had in the window, quarter-inch
stuff, and it cracked the damn stuff, smashed it. Rachel here, sitting
here, has seen by me lighting the bubble, she's seen me being picked
up, and taken across the other side of the room and deposited. sat
down, she was hanging out the window and I lit a bubble on the top and
it just picked me up. I didn't feel it, she said it picked me up and
threw me across the room. I didn't feel being thrown across the room, I
felt, oh just picked up, moved, and sat down again.
Ah, we've shot electricity from lighting these bubbles, we've shot
electricity out both, um where you put your leads on, both leads, right
around the flaming house. Right around me shed here, shooting right
around the shed. It goes into screw drivers, out the other side. Throws
the screw drivers around the room. We've got balloons just blown,
burnt, just sitting on the bench, with nothing in them burnt to
cinders. We've got jumper leads with the steel, you know, gripper on
the end, and the copper wires... The copper and the steel has burnt
apart at that point, just absolutely burnt, and they weren't even
connected to the cell when I lit a bubble, they were... We put the
battery on with the jumper leads, and then charged the water up, and a
few bubbles on the top. I disconnected all that, and then this
electricity jumped out of the flaming cell when I lit the bubble, went
into those leads, and blew those two metals apart, and burnt it to
cinders.
Right? We've got bits where we've been lighting bubbles on the top of a
cell, and coming out of my little finger, straight out of my little
finger, no flames no nothing, a little pin hole of light jumps out,
puts a hole in me finger, takes blood and everything on top of the
cell. The cell blows to oblivion, and sucks it inwards. Sucks the top
of a curved lid, right down inside. We've got people over there, Jack
Lew and all them who have witnessed this, and then from it, after it
did that, it shot electricity around the shed, all over the shed. And
then, from the cell, went straight back in, about a sixteenth of an
inch, beside, where it come out of my finger, and my finger just,
little finger blew up like a balloon like it was smashed, and it went
black as charcoal.
And the next-door neighbours, which is the two German guys, the'Lew
guys, Jack and Jack... They were in there having lunch, and they reckon
that the bang - they jumped nearly to the roof, while they were eating
dinner. And I went in to see them. They said, what'd you do? And I
showed them me finger, and they couldn't believe it. And in a split
second me finger was up as hard as a rock and so on. Now, one of the
holes what come out of, something come out of it, and set the cell off
That healed up by the next day. But where it went back in again, it
took about three weeks to heal that hole up. Now I don't understand
that, but that's what took place. I've had some phenomenal sort of
happenings happen, you know what I mean'.?
We're talking about up here on the front lawn, Rachel was here as well,
at that stage. And I've only got her here, but she doesn't talk very
much... But me son, screaming, white as a ghost shaking when the cell
first kicked in and everything else, white as a ghost, because it blew
his motor up, it didn't blow his motor up. It was revving like mad, you
know going right up to sixteen thousand revs, and it lost all its
noise. And the neighbours complained here. And we've got, the little
boy's out here, who's a sickly fella, my son's girlfriend's brother, he
goes out and he leans on the mudguard with his hand, and the car dies
out. Tell him to get his hand off and the car picks up again. Nobody
touches anything, that's all he does is lean on the mudguard, you know?
I don't know, we got some phenomenal stuff happening around here you
know. That's not all, that's just some of this stuff. Sorry, in plain
straight water we take a, you know the socket bar, you know the
5
sidchrome, long socket bar? In plain straight water, and put a battery
onto it. Nothing else in it, just put a couple of plates into it, not
two, you know you don't have your neutral plates. Put that in, and
about a half a minute later, you have no, excuse me, you have no iron
bar left - what you've got in the bottom of the bucket is about an inch
of powder. Just all powder, you tip the water off, you put your hand in
and you've got iron powder. It just totally turned the bar into powder.
Now Peter Stevens was there for that, so was Ron Davis who is dead now,
can't get him to verify it. And so was a heap of others. I don't know
whether Cliff was there at that stage and everything else, I so. And, a
lot of other people who were on the videos in the past.
They were there and I put the iron bar in, and I turned it on, and we
ended up with flamin' iron filings on the bottom of the container in
plain water straight away. It just turned the bar into iron filings.
What your mate's gunna see here and everything else is this welder,
very shortly after I've run through the process in the car, we're gunna
go straight onto the water welder I've got. Which has no flame, no hole
in it, you don't light it, no power input. It's plain straight water,
and this is off the fire extinguisher. Okay what we lit up there
earlier and everything else, and you've seen going. Uh, with the lid on
it, and sealed up, there's no gas production, no nothing. I don't light
it, I put it on me face, on me hands and everything else. There's no
flame, it doesn't burn. It's cold, it's nothing there. It's cold
because there's nothing there. And then I put it down to a steel bench,
it's a bit of steel, and what your mate here's gunna witness and
everything else, is the steel catch alight.
In front of it off the end of the torch, by putting it there for not
even a second type thing, or maybe a second only, and the steel catches
alight, and the steel keeps burning, when I take the torch away. And I
keep talking to these government agents for a fair while, and then I
lean back and I have to blow the flame out. And then put it back, the
torch on me hands and face again, it doesn't burn. I put it on their
hands and face, and it doesn't bum them. And then I hold up, just a
rubber party balloon, with nothing in it, just straight up in front of
the camera with no tricks or anything else, put the torch on my face,
put the torch on my hand, and then bring the torch up closer to this
rubber balloon, and in front of your eyes, with no flame out of that
torch, the rubber balloon just atomises into flame. And then that
flame, which is burning the balloon, it bums my hand, cause I go ouch.
But the torch doesn't bum my hand. But it just pre-combusts it in front
of us.
So this energy is having a reaction against the atomic structure of the
materials and just combusting them. The pre-combustion you've heard of
and everything, just pre-combusts the balloon in front of your very
eyes, with no flame. But the government or anybody else weren't
interested in the torch, in the welder. For doing that.
BOB: ????? WHAT WAS THE REAL REASON THEY WERE THERE ??????
The real interest was just to come here and stop me playing around with
cars. They weren't interested in another thing which is on tape which
you may have witnessed and everything else... We tried many
experiments, and we got, we got a little vacuum pump, you know the
little battery twelve-volt vacuum pumps. You'll see it here, you have
one for cars, pumping up your tyres and so on like that, just a small
one. We hooked it up to um, the fire extinguisher. And um, when you've
got these vacuum pumps, they're only a plastic piston - you can stick
your fingers over the two holes. One hole, two holes, it doesn't
matter. And they will just keep going, you can't stall them, because
they will just override. The piston has no strength there and overrides
and runs all day long. Can't bum them out. Now, you hook them up to the
fire extinguisher, and put them under vacuum, and you vacuum suck out.
With no power turned on, the vacuum pump still keeps pumping.
You can stick your thumb over the end of the hose what's coming out of
the pump, and it's just hooked up a hose from the input of the vacuum
pump to the stainless fire extinguisher. And it just vacuums the air
out, it doesn't do anything else. We were doing it by trying to vacuum
gas out and then pump gas forward, understand?
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So what took place within about a half a minute, was the vacuum pump,
just kept pumping on and everything else so we decided to turn the
power onto the stainless container, just put a twelve volt battery on
it. Soon as we did that, the flamin' motor, not the pump, the motor in
this vacuum pump, seized up and burnt out. Just seized up. Anyway,
there was no flames, no burning or anything else. When I say seized up,
it just stalls out. And then, you know it just didn't work again. So
then what we did was, and you'll see it here. You'll see the vacuum
pump's still there, so we took off all the main end wirings, and we got
a great big electric two forty volt electric fan. And we took the fan
blade off, and we made up in the lathe, we made a little brass fitting,
like as a connector, like a shaft. So we could screw that onto the
shaft of the vacuum pump, and then hook the other end of it onto the
fan blade, where the fan blade goes onto the motor, and screw it onto
there.
And then I mounted it onto a steel frame. So we got this little machine
now. Instead of having a DC, because the DC is affected when we turned
the power on. And your mate here's gunna see this, with the government
agents here and everything else, I'm gunna explain that to 'em, and
they seen what happened and everything else. Now, hook it up to two
forty volts, and that turns the fan. Now, don't have the power turned
on to the fire extinguisher, but just have it, you know, connected to
the cell like I said, and that's vacuuming, it's sucking, and blowing.
And the pump just keeps going, and it'll keep going. You stick your
finger over it, it'll keep going. Turn the power, on to the cell, go
that now the cell will be producing some gas energy of some sort, or
whatever. And then what happens to the motor, the AC motor, is the same
thing with what happened to the DC one. She just slows down and stalls.
Now, with an electric motor, if you stall one, they sit there and they
go CWWOORORORGGGR! They won't turn, they'll just sit there and make a
big humming noise and then finally bum out. This damn thing doesn't do
any humming.
It stalls it, there's no humming. there's no shorting out that you can
hear in the motor. There's no nothing takes place. All right? And what
the government agents by witnessing this and everything else, said
something, maybe you might be able to remember it, when I show it to
him on tape, some other energy which they're talking about, which they
think is actually coming out of the cell, going back down, and it's
actually transferring or annihilating the AC. Now, what you do is, that
just stalls that motor, you cannot turn that shaft with your hands, you
can't turn it. It's sort of like the vacuum lock-up we talked about
prior. But the motor doesn't bum out or hum or do anything else. Now,
you can turn the power off again, disconnect your battery or your
rectifier or anything else from that cell, and straight away the motor
re-starts itself The pump starts itself again. And you turn the power
back on again, and she just goes BWWRR! and stalls it again. You turn
the power off again, and away it starts itself again, and it doesn't
bum out, You can leave it there stalled, that AC stalled, with the
power turned on at the cell all day long, and you can't bum that motor
out.
BOB: WHAT SIZE MOTOR DO YOU THINK IT WILL STALL?
Well I think it will stall with any motor because, you think of this...
When you've got an AC, and you've got a rectifier, to produce DC. What
happens to the AC? You haven't got any AC there then. You have at the
start of it and everything else but then what you've got out the other
end is DC. Now when you've got DC and you wanna produce AC, where is
the DC? All right, well you haven't got any. Okay, so looking at it
best I can and everything else is, we've got AC coming down to that
motor to turn the pump and everything else, we've got another energy
field which is in these bubbles, which produces electricity of its own
kind. A different kind, because our normal electricity we're talking
about going into that DC pump motor, and into the AC motor is... It
produces heat. IF we hook it up to a light it produces heat. If we hook
it up to a heater it produces heat. If we sort of back it up, it
produces heat under pressure.
This kind of electricity, as I described before and everything else...
We've got an AC light, and it makes it glow brilliant white. Instead of
a two forty volt, forty watt light just yellow and dull, and it's hot
anyway if straight away you turn it on, this thing here is freezing
damn cold, not ice cold, freezing cold, and it's a brilliant whitest
white light you can't even look at. Now that's with the AC. All right?
now, DC like I said on the Holden headlight, they're only a yellow
light, not a very bright light. Now when you hook the cell up to that,
the light is over 180 or 200 watts, what you would look at classing as
that in brilliant white light, but
7
you can put your hand on the bulb, and the glass and everything else,
put your hands right up to it - you've go allot people who can verify
that. And it's cold, freezing flipping cold, and it's producing this
brilliant white light. So is it sort of producing like a rectifier,
takes AC and produces DC, so there's no AC there? Won't shock you or
anything else.
It's not sort of like another energy which then your AC which turns the
motor at that stage, it's not there to turn the motor. You know it's
running a field through, and that is not shorting it out, it's not
storing it up, it's just either annihilating it or changing it, or it's
not working for you at that present time, and as soon as you turn off
the power to the cell, bingo! Your AC starts working the motor again. I
don't know, I never went into those things too much. They weren't even
interested in that either. But she didn't even want to know about that
kind of field. They mostly interested in, let's have a go in this car
then, they call them h-particles, or they slip the tongue and call it
hydrogen. Now how can it be the damn hydrogen when we're not producing
the gas, we're not putting electrolysis in, we're not putting charge to
it, we're not hooking a big hose up to the vacuum in the car... How can
they call it flaming h-particle or hydrogen going into a motor and
making the motor run, when we're not producing the damn stuff, what you
would call hydrogen? As a gas.
Very dumb people out there some places, you know? Oh, they're maybe not
so dumb. Well, what we're going to do is, we're going to get on with
this now. On the end of the last tape, I just remembered, on the end of
the last tape what cut off, right at the end, we were talking about the
effect of this energy coming out of the cells when it's lined up
properly. No power input, and the electricity which is stored up, or
whatever is stored up in this water, plain straight water, turns these
lights on. How we hooked it up and everything else was, if you hook up
where you charge the water initially, you got neutral plates in there
but... You hook up the positive, and negative with the wires to turn
the light on.
What takes place is that, if you hook it up to positive and negative,
where you hook your leads up, you blow every light. Doesn't matter what
size or anything else. What you gotta hook up to is one wire on the
negative, and then you go on to any neutral plates. And that's what
turns them on. You go to either the positive, and then across to
neutral, it turns them off. As soon as you go to positive and negative
you blow everything. Lights are working, they're cold, real bright
light, no heat in them whatsoever, no power input, and while that's
taking place as I said, the cell itself puts out more bubbles from off
the plates than we can produce with power input, than I've ever done
with electrolysis, with you know putting anything into water, or
putting nothing into water. While it's pulling electricity off we get
phenomenal amounts of bubbles, and as I said, for some reason, I've
never ever tried to light one of those bubbles to find out what was in
them. I wasn't interested.
When you do finally get a cell working on a vehicle and everything
else, what you'll find is that after a period of time when your whole
motor and your whole car and everything else charges up, you can
disconnect your cell. You don't need to run with the cell on the
vehicle. Because what happens is, that she charges up everything else
and, you don't need the water, you don't need the cell, you don't need
connections, you don't need anything else and your car on goes. The
Rover, checked by RTA and everything else, plus Professor Ron Davis and
everything else, down at Taree, Mt George.... It sat down there for
three months. And run out of registration, it had no cell on it,
nothing else, no fuel in the tank. After three months of sitting and
never being fired up or anything else, just went straight down there,
hopped into the vehicle after three months of no cell on, hit the key,
we had to put a battery into it. Hit the key, fired it up, and drove it
two mile up to the shed.
No cell. You don't need a cell on after this energy gets in and
completely saturates your motor, your body, your everything else. You
do not need it. And what your mate's gunna see here, can't show youse
on the cassette tape but, what your mate's gunna see is, the energy
transfers across atmosphere. Across rooms. What we're gunna do, is
we're gunna take in front of these government agents to prove this and
talk about it and everything else. We're gunna take some charged water
which is only charged for about a minute, a couple of days prior. It's
never been turned back on again. We don't need the plates in the water,
it's plain water what they brought up this ultra-pure four times
distilled water. Couple of days later, from when we
8
first originally charged it for about half a minute, we're going to not
turn it on, not do anything else to it, just sit in me shed, we're
gunna send the government agent over to my mum's tap, and take water
out of the tap to a plastic bucket.
A pink plastic bucket. He's gunna bring it back and he's gunna sit it
down in the shed.- It doesn't have to be very close to the cell. And
we're gunna stand around and watch it for a couple of minutes, and the
water what come out of the tap is clean. Just like what you drink.
Depends on where you are and what it looks like, but this is clean.
Melbourne water's green.
So he just put it into a bucket. Do not do anything else. And within a
few minutes of standing around, what will happen is, the water in the
keg which has been priorly charged you know for that half a minute, it
won't move. But the water what's in the bucket will start turning
clockwise because the water what was in the keg turned anti-clockwise
earlier.
Two days earlier. Now, that is a figure-eighting effect. Our water
turns, which is on video tape, which this fella here will hear shortly,
when we're charging the water, this is a government agent watching this
and then he explains for his own videotape which your mate here's gunna
watch, which I don't possess remember... Um, he's going to explain on
the tape here that, the fully charged water what you do is, if you've
got any minerals or shit in the water, the water will turn
anti-clockwise, if it's charging the right way. Anti-clockwise until
all the shit's out of the water. And when all the shit's out of the
water it will stop turning.
And that then is fully charged water, for that water at that stage.
Okay.? Now, that water then, just remove all the shit off the top and
everything else, it stops turning when all the shit's out. If you store
all the shit back up into the water and everything else, you know mix
it all back in, and so on like that, turn power on and it wants to
bring it back out, you know doesn't mix back in but dirties the water -
it will turn, the water will turn until all the craps back out of the
water again.
And it will stop turning. Now, with the figure-eighting effect, this
bucket of water put down beside it, in our water up here we've got
aluminium, you know alum, fluoride, chlorine, you know, thousand and
one other things you know they put in the water to clean it up.Take the
smells out, take the colours out, take everything else out because our
stuff comes out of a flaming Boree creek dam out here, it's just dirty
water out there... And they don't take it out they lock it in. So, we
put this bucket down beside the keg, we don't turn the keg on. We don't
even have the plates into it. You don't need that.
That water has now got a charge into it. What happens within a couple
of minutes is, that within the plastic bucket sitting anywhere in the
room near it, we will end up with probably two to three inches of solid
shit. Crud. On the bottom. And the water is that crystal clear you
can't even see the water in the bucket hardly. That's so crystal clear,
and all the shit on the bottom. Now, what we do then is, tip this water
out of that plastic bucket into another bucket, stir it up.
It goes brownish. Okay? And it goes back into a brown colour. And the
government agent asks, now was it that colour when we put it in there?
I said no, it's just normal tap water, the colour. But now it's back to
the colour of the dam. When they pulled it out of the dam, before they
put the alum and chlorine and fluoride and all the rest of the shit in
there. It's dirty. So we tip it out of the other bucket back into the
pink bucket, and sit it down on the ground again. We don't turn the
cell back on.
We don't charge the water again. We don't do any of that. We just sit
the bucket back down again, on the ground, near the keg, and we wait a
few minutes. And within a few minutes, all of that crud, which your
mate here can verify, is just gunna fall straight out of the flamin'
water, and you're gunna end up exactly the same as you were before with
all that shit on the bottom. And the water so crystal clear on the top
you can hardly see it. It's just gunna fall out. And that water there
doesn't need ever putting into a charger, into a cell or into anything
else with plates in and turn any power on, that is now charged water.
You can't get a dam bit of any pollutant to stay in that water, if you
take it out of that bucket and put it anywhere else, and put anything
into it, any other contaminant. You can put caustic soda into it, it'll
fall out. You can put salt into it,
9
It'll fall out. You can put acid into it, it'll come out. You can put
sewerage into it, it'll come out. You can put flaming dirt into it,
it'll fall out. You won't get a damn thing into it.
And if you take that water to the universities to have it analysed,
they will tell you that this water has nothing in it, which we've got
paperwork here on, and it will not conduct. It is nothing in there,
with no salts, no nothing, with no conductivity. You put that into a
cell and everything else, and the flipping thing rages straight away
and never pulls any shit out. It just goes, you can put it into a cell
instantly. And violent bubbles, instantly. Never pull any shit out of
it. And your mate here's gunna witness that, so he can tell you. If he
doesn't witness that, he won't tell you that.
Okay, we'll just here, witness the little Escort, being transferred
over. Yes? From the petrol to petrol and cell. And from the petrol and
the cell, to running a clean out, and then running the cell all by
itself. And then taking some government agents and everything else, for
a pretty good run up the road. And, was it or was it not going well
over seven thousand, in tacho readings? Correct?
BOB: YES.
Correct. Um, with all the jets blocked up and everything else, and no
fuel on board. Um, different sounds in the motor, everything else. Ice
on the exhaust. Wasn't there before, I didn't make that too clear to
this man here, but I gave him a view of a black exhaust with to start
with, and then all this white stuff all over the exhaust. I'm not going
into too many things with it. Now,' we've also witnessed the water
dropping out of the cells in buckets without any power charge. Watching
energy fields of all different kinds, we've also seen the water welder
yes?
No flame?
BOB: YES.
No heat? Lighting steel and keeping it burning? And atomising a balloon
into flame right in front of your eyes? Without any flames.
BOB: AND WITH NO GAS.
No gas, no flame, only the balloon catches alight and then it'll bum you.
BOB: NO HOLE IN THE END OF THE TIP.
No hole in the end of the tip. Now, on top of that he has now witnessed
what not many other people have witnessed either, and a couple of
times, he's witnessed the drag car on the drag track. He's written down
the times and, a quarter mile. What in seconds does it do?
BOB: 4.71.
4.71 seconds. That's it. Was there any acceleration before... any acceleration in the motor before...
BOB: NO, JUST A BANG AND THEN OFF!
There was no revving of the motor prior to the people counting to zero, or the clock changing to
green? It was on idle. And you could see that with the white vapour pouring out of the back of
the vehicle? Soon as they count to zero, and the clock's changed, touch the accelerator and, what?
Motor explosion?
BOB: JUST ONE BANG.
No flame? No wheel spin? No wheel stand?
10
BOB: NO WHEEL STAND
And in camera shot?
BOB: PRETTY BRISK.
Got out of camera shot a few times. All right? Okay. And it broke, and
it says so, it broke all the track records, but then they eliminated
this track record. You can't find them, somebody's taken them off the
list again. This was done in front of thousands of people yes? What you
seen?
BOB: YEAH, IT WAS ON THE SCREEN.
In front of a crowd. All right, now the other thing I want to explain
to you is about... We can go on to something different here. I want to
talk about to mechanics, and to everybody else, about the power of
vacuum, compared to the power of pressure. Now, mechanics of some sort
should know... Let's look at a Falcon six-cylinder motor for a second.
Look at any others, but just that one for a second. If we start a
Falcon motor too fast, start it up too quickly and accelerate, some
times in Falcon motors, they bend the push rods. And they'll only bend
one, in one cylinder. Now, that means that bending one push rod, the
valve isn't working. Okay? Now, you've got a miss in that motor. The
motor still goes and everything else, it just bent the push rod, and
that valve now isn't opening and shutting. Happens stacks of times with
Falcons. Now, if you ever had it happen, what takes place is that, if
you try and accelerate, you've got a six cylinder Falcon motor against
one valve push rod bent, one valve not opening. You try and accelerate,
and that motor, if you hold the accelerator down, it will only rev a
little tiny bit, and then start to die out. and if you hold that
acceleration open, it will not keep the motor going, it will stall,
completely stall the engine.
One valve pressure, against five other pistons. Now if you have ten
cylinders, and you try and rev it up, one valve not opening, that is a
vacuum in the cylinder instead of a pressure, that one valve, being
bent, that one cylinder will stall ten cylinders against their
compression and fire, greater than a six cylinder.
if you hold the cylinder down and try and accelerate, it will not
accelerate out, it will stall if you hold the accelerator open. It will
just keep going until the motor stops. But if you don't wait until the
motor completely stops, you can just back off the accelerator, which
will go back to idle, and she'll just have a miss in it. But you try
and accelerate up, and she will just stall the motor up with that
BRRBRBRBBRRRR! You understand?
If you've got a twelve cylinder motor, it will do it greater. So you've
got eleven cylinders against one, and it is faster for seizing that
motor, stalling that motor, not seizing, stalling that motor. And all
you've got in that cylinder is no compression, really. It's not so much
no compression, it is actually holding back under vacuum. One cylinder
against eleven, in a twelve cylinder motor, stalls it greater than one
cylinder out in a six cylinder. You mechanics, you think about that,
and all the other people. You don't think that happens, go and try it.
Go out to one of your motors and everything else and pull out one of
the push rods.
Start it up, and try it. You think that compression would be greater
than vacuum, but vacuum will stall, the more you put against it, the
more it will stall. Everything else, could be one to a thousand times
greater power, than what pressure is. But we run on a pressure motor.
But now you figure out what is eighty degrees advance. Plus more, in
some motors, eighty degrees advance timing. Is it exploding? Is it
imploding? Is it... What's it doing? Well, now I'm going to give you
what we've already done the analysing on, we've got the analysing of
this, compression tests and everything else.
At eighty degrees advance, the only thing we're talking about there is
the spark igniting. That's where our motor fires. With no petrol, the
only other thing you can say is going into the motor is air. There's no
gas and so on. And the energy which is charging that air. Eighty
degrees advance, we have taken out one of the spark plugs out of the V8
motor, that's the 3500 Rover motor. And at eighty degrees advance
timing, as the spark fires, it creates an implosion in the bore, and
implosion, right, vacuum takes an expanse of space, the same
11
as pressure, takes an expanse of space. For every action we apply the
same thing. There is an opposite an equal reaction. Well, what we are
told, and it happens this way, but it also happens a different way...
Vacuum eliminates pressure. So if we had a vessel with some pressure in
it, we created a vacuum we wouldn't have any pressure in there. Now,
this is not a very good view of it, but it gives you some
understanding. If you have a vacuum cleaner, in the front of a vacuum
cleaner, you have a suck. At the other end of a vacuum cleaner, you
have a pressure. Now inside these cylinders what we found is, that a
normal engine, standard 3500 Rover motor, on normal petrol and air, at
the top of the stroke, for compression we run somewhere around about
140 to 150 pounds compression. It's not a real lot, but that's what we
were reading. That's at the top of the stroke. When we had one spark
plug out of the eight cylinder, and at the very given point that the
spark fired, we took a compression reading at the top of the spark plug
where we put our gauge, we had four hundred and twenty five pounds of
compression against the hole where the spark plug came in, but we were
creating a suck on the piston.
What happened was there was a suck, pulling the piston upwards, and all
the compression what we have compressed, up to the eighty pounds,
because from the bottom of the stroke to the firing point of 80
degrees, before top dead centre, we start a small amount of
compression. That small amount of compression went in front, like the
vacuum cleaner, it went in front of the vacuum. So the vacuum in this
stage did not annihilate the compression. For every action there's an
opposite and equal. In one case, vacuum annihilates pressure, pressure
fills a vacuum. In this case, vacuum applied and sucked the piston, and
blew like the vacuum cleaner, the compression ahead, up against the
spark plug hole where our gauge was. It's not up against a head gasket,
but it is definitely up against the of the head valves.
Now, when the piston got tot the very top of the stroke, we have
measured it. It is 830 to 850 pounds compression at the piston at the
top of the stroke. Now if you injected 850 pounds compression, into a
motor which wasn't even going, through spark plug hole, with a piston
at the top of the stroke, how fast does your piston go to the bottom?
So, if you're looking at trying to figure out what's happening in these
motors is, get two people, we're gunna do it here to show this man,
youse get two people. And you get one person with his fist closed, and
you have his elbow bent, and you just push your flat hand up against
his. And he starts like the piston and starts to compress, push against
your hand. When he starts to compress, do what an implosion would do.
Wrap your fingers, while he's pushing against you, against but over his
fist, and pull forward. And what you'll find is, all of his weight will
nearly drop him flat on the ground.
Because he's got all of his own weight behind the fist to push. In your
motor, you've got a fly wheel. You've got the weight of the motor,
you've got the weight of the vehicle pushing you ahead. If you've
created a vacuum, with the weight of all that plus the compression
against the piston pushing up, and then you created no friction. A
straight pull forward, the same as a person, pushing against your hand,
just falls now forward, with all his weight behind it.
That's what resistance does, in the car while it's driving along the
road. And plus if it's just sitting there revving, you've got the
crankshaft weight, you've got the flywheel weight, and you've got the
other pistons, which are pushing down the stroke on their power stroke
and everything else. Pushing against that one which is coming up as
well. Now at 830 to 850 pounds in a V8 Rover at the top of the stroke,
releasing that poundage on the downstroke, because now when the piston
hits the top of the stroke, on the power stroke downwards, 825 to 850
pounds of push, will definitely drive that piston down extremely
quickly. Extremely quickly. We only need a radiator, we only get
friction, we only fight ourselves, there is only a limitation of speed
in our motor, on the compression stroke because we're fighting against
our compression. Plus, we're pulling the weight of the vehicle. Pulling
the weight of the vehicle as well.
Now, as you look at the Falcon motor, vacuum can stall out, the more
you put against it can stall out more. Twelve cylinders, for one valve.
One push rod out of that, or drop one valve. Just make a valve not
work, and she will stall eleven others under compression. And that one
isn't even firing. The vacuum one isn't even firing. But it stalls the
rest of your motor. In these motors.
12
Now, we've got a radiator in there, because in our bore, we've got
friction, compression, which creates heat. So the radiator, needs to
cool down the motor, or we melt it. Plus, we've got explosion of fuel
and air, firing which creates heat in there as well. So, definitely the
radiator. Why do we get ice on our radiator cap and ice on our exhaust
in these cars? Because if you're vacuuming a piston up the bore, the
same as when a person falls forward when you grab 'em and give 'em a
yank. When they're pushing against you, it takes away all friction. And
then when the piston hits the top and starts pushing itself down that's
on the power stroke, there's no weight against that. That's a free run.
It's not where you get your heat from. You start cooling when she goes
down. If she starts heating up under compression, just grab a pushbike
pump, stick your finger over the end of her push pipe up, and let a
little tiny bit of air out, it'll bum the end of your finger.
Let a lot of air out in a big hurry, and it won't bum your finger. So
it's restricted in air, compressing it. The more compression, the more
heat. That's why the radiator, that's why the exhaust heat, and with
explosion, the exhaust pipe's hot. With implosion, opposite effect.
Then you can figure out then, what takes place. We did discuss valve
bounce to people on the tape did we? Just you. Mechanics, I'm give a
very short little thing, and anybody else out there.
Valve bounce, what does that mean to you in a motor. Well most people
say, that our motor is turning over that damn fast, that our valve
stays open, because it can't shut fast enough. So, rev a motor up and
it starts revving out and out and out, and then it hits its what we
call valve bounce, where she just goes BWRRBWRRRBWWRR! And won't go any
faster, because a valve is keeping itself open, because it can't go any
faster. It stays open, it can't shut. Now we can do a couple of things,
we can put double valve springs on, so that puts more tension on it,
sucks it closed a little bit more, and we get a little bit faster out
of it, and it still valve bounces.
Okay, you could probably say then yes, okay it's valve bounce. What is
a speed that a valve can open and shut? What is a speed that a piston
can go straight up to the top, and stop and go straight down again, so
how fast is the up and down stroke? Is there a limit to it anyway. Now,
so, without replacing double valve springs in a motor. We have a motor
what will valve bounce under normal conditions on petrol and air,
timing and everything else. Nothing else put onto it. Let's make it a
really monstrous motor. 300 cubic inch, in a bore. From the intake
valve opening, to the bottom of the stroke, till the intake valve
shuts, under atmospheric pressure, which is 14 and half pounds per
square inch, we pull 300 cubic inches, because that is what you can fit
into that bore under those conditions.
The intake valve shuts. We start compressing. As we start compress, we
get something called blow-by. We lose some of that 300 cubic inches
past the rings. We build up a compression, we hit the top of the
stroke, just before the top of the stroke, somewhere round about 3 to 8
to 22 degrees advanced timing, spark fires. Fuel gets hot, air and fuel
gets hot, starts expanding, and we lose a little bit more past the
piston. Air gets really hot, heat loss and everything else, then we go
over the top of the piston, and down the power stroke, and the piston
starts pushing to the bottom. When we filled that chamber, we needed
the valve open to put 300 cubic inches from top to bottom. Do we have
that 300 cubic inches anymore? No we don't, because when she goes down
the power stroke, as she goes down the power stroke under the heat, she
doesn't expand anymore, she starts to cool. Fuel and air starts to
cool. As it starts to cool, it starts to shrink. We don't have 300
cubic inches of air in there anymore, anyway. Because we lost some on
the up stroke. Through blow-by.
We lost a lot more at the top of the stroke under explosion and heat.
We now cool, and the piston gets so far down the bore, and she's now
starts to create a vacuum. And the vacuum as we explained is far
greater than compression. And she just grabs a valve, and sucks it
open. Now, to explain that, you can add the extra double valve springs
if you like. But we're not gunna do that for a second, we're gunna
explain something else to youse. Standard motor valve bounces at 5000
revs, what we call valve bounce. Normally the way you ask them to draw
it in, which I said with the split manifold for starting the vehicle.
All right, it's a difficult thing to start. So if you just like, sort
of like a dry motor, and so on like that, we used a Webber, and they
were using a Toyota carburettor, you know pump and everything else and
different kinds. He had some photos, and those photos, there was no
photos taken when of what we did that. No photos be brought back here
of it, or tape of it, that Paul said didn't turn out. And they're not
on the video tape which you've got,
13
which is the full videotape what we done. I didn't mind them doing the
video. It has, I don't know whether he's got it or not, there was stuff
what he done and everything else. He noticed first that it had actually
pushed all the fuel clean back out of the carburettor, and you could
see that. That's not how I do it, I don't leave the lines on, as you
saw. That's why I disconnect everything. You know, just keep running it
and redoing your timing. Your motor will start adjusting itself, and
advancing the timing-and everything, as soon as you put in the cell.
You first put the cell on, the Escort being the car I started on. She
starts to fluctuate a lot. I don't know what it went to, while it was
in the vehicle. It was in top gear 40km/h down the road, and he got
scared and everything else and he sent the tacho, clean off the top
over the other side. Just howling the wheels in top gear and it just
freaked him out and he walked in here. We worked everything out by the
tacho. It jumped the needle stop, and everything else, and no noise.
Going, no noise, and I just left it going at that. You could hear the
air in the fan, but you couldn't hear, you know like you noticed
yesterday when we were adjusting the distributor and this stuff in the
motor, cause there's still a bit of petrol, you can hear the motor get
very noisy, 'cause there's petrol there, and then she'd go noisy, and
then quieten herself. And inside the cab was just a normal car. You
know your exhaust noises.
It was going WWRR!WWRR! pull it back into itself, and as it did, she
wasn't come down noise like BBWWRRR! Pull it back down, wasn't it?
That's what it was. And everything else, you would get this pulling
back in effect. A major explosion. Something that we really wanted to
find out about, or know about or anything else too much, it didn't
matter. We just heard the difference. What we really did was. we just
run it for a short time and then shut the fuel off ?????
(About the petrol line.)
Early model P76 and everything else for a Rover 3500 SDI. Up around, in
there it's got manifold where the carburettors go on. Heater box
through the manifold like most of our cars do today ???? and that's
only for atomisation ???? top of the carburettors, in between it ????
over, if you look at it goes over the two front cylinders. ??? number,
the two cylinders back from the motor, and they ????? over the top,
feeds over the top of them, all right and that just ????? on the Rover
what we did was just hooked up the water cylinder ???? water cylinder
???? Transferred over the fuel line comes into the right hand one as a
straight line, and then butts in, goes across as a secondary runner to
the other carby. Yeah, it's in the valley, she runs front and back. One
on bank and two middle ones on the other bank. Yeah well it's not, we
don't just go to forty degrees, no what we're doing is we just grab
that distributor, and you hear a motor, okay once she's on the four
cylinders out, she starts running rough as a mongrel dog with no power.
Anyway, so I just starts advancing the distributor ????? actually just
took it up to where it felt like it revved clear and everything else.
???the left-hand side carburettor it's doing there to stop the fuel
pouring out I found a blank bolt and put it into there, it had a little
rubber o-ring to seal off, so I screwed it into there. I left
everything else standard and she just cuts out. Then I went to the
left-hand carburettor, pulled that line off.
(Too hard to decipher.)
You do need to pull the carburettors up a bit, because you will drop
down on revs. she'll still run, but she'll want to drop down well below
500 revs, and motors don't like running that low ??? Initially for
doing the transfer over onto the cell,the distributor stays there, the
motor's still running, what I do then is I bring the distributor ahead.
When I feel the motor and carburettor start to die and the carby, I
know is running out of fuel. I bring it further forward and everything
else, you find out that retarding ?? and you are getting up to around
eighty degrees advance then ??? and while you are doing that she is
getting rid of all the petrol in the carby at that point, and then you
can just go to the car and just turn it off and re-start it. And as
soon as you hit that key, you don't have to wind it over, she just goes
BANG! you don't have to hold the key on very long. She just goes.
14
BOB: DOES THE SPARK ACTTVATE IT? OR IS IT THE ROTATION OF THE MOTOR WITH THE. SPARK?
??? Really it's a frequency thing. It is like when you had that flash
in your eye from the rectifier, which worked your optic vision, you
know your light before your eyes. that means you can see my veins light
up in my arms. Because it's like turning on a fluoro, because this
spark is coming through... But that's what happens to me, my kids can
tell you, Rachel can tell you, and a few other people can tell you.
You can touch the body or not touch the body for me. Without getting
into this one too much and everything else, if you ever got to me...
But anybody else who does come through normally, if you call me up or
something else, she might just speak to them and send them on their way.
Running on water cells is okay but if they get onto other things they might be sent on their way.
Noah up here applied through the RTA and got a rego A-R-K - ARK, and
then he's got double -oh- seven on the end of it, you know Noah with
his ARK - 007. Now they put a Leyland P76 motor into it, and Alan Rush
wired it all. They're having heaps and heaps of problems where it would
start and run but it just wouldn't rev up... And I just had the
Scorpion, before I had it all painted I had it I had it suped up by
Waggat Engineering - took 'em twelve months to build the motor, with a
Leyland 4.4, okay? The Rovers are a 3 500 or 3.5, and the P76 is the
4.4. It would do 250 to 300 miles per hour with Waggat's engineering
and Waggat's cams and all that, in my motor. They put new pistons with
Holden lifters, he didn't case-harden them again (the valve ends), all
the valves pulled through the collets and dropped down and smashed the
pistons, and bent the rods.
When we go it back we found out we couldn't rev the motor up over two
thousand revs. We tried petrol, we could start it on that, and they
just said the motor's a bit big for that, so... It had a 38/78 drag cam
in it???
the valves in it were over-sized chevy valves which used to nick
'emselves, you know in the heads. Had to port them out ???? everything
else balanced out so she ???? he put the wrong stuff in it everywhere
it was
the fuel what wasn't giving it the right revs, so I had to heaps and
heaps of people and so on without getting on it and... then tried, you
know, racing fuel ???? at this stage and everything else I had not had
the car
registered. Then they said well the only way I can register it is on
LPG... ? In fact petrol was sometimes better. It would ping and break
down, so we then tried boosting fuels up, ourselves. Now we had to have
a vehicle which was on the road, this damn thing wouldn't rev.
We had overhauled the damn thing. The fact of the story is I took the
distributor down to the proper electronic experts, and they had it up
over I 1,000 revs without any break down. I had it built for that
thing. After I put it in, that did not make any difference. But then
she smashed the piston... knocking and detonating, and the cylinders.
Flaming valves fell out, pulled the collets clean off the end of the
stems. They had not case-hardened the ends of the valves. He re-built
it all again and everything else. What we did then was we reduced the
compression. I just went over there and got thicker gaskets. 'Cause we
only had the Rover, we were running the Rover tin gaskets, which are
thin as buggery, and the Leyland P76 ran with a thicker gasket, so we
put two Leyland head gaskets... And we lowered the compression. Now we
get the thing to sort of rev. We still had the distributor built to run
over ten grand and so Noah, after farting around himself for a long
time, brought it over to me at my place. He said, do you know what's
wrong with the damn thing?
I said, well if it's breaking down, you've been through everything,
change points, condensers, and coils and flaming everything else, how
about we just look at the distributor in case she's just shorting out.
So I said, I've got my distributor which over there, which has been run
up over ten grand, let's drop her in. Anyway, we just dropped it
straight in, I just lined it up on number one by eye, down the bottom,
and so on. So I says to Noah, just get in and turn her over. Now this
is the funny part. I had the distributor cap upside down in my hand.
Noah could not see because of the raised bonnet, and I had the
distributor cap in my left hand, and so I just said hit the key and
bring her around. He hit the key and the motor started. I had the cap
in my hand and all the leads were still connected, I don't care whether
you believe this or not. All right you can just go and
15
you can talk to Alan... And I said to Alan, stick your head around
here. So he sticks his head out around the flamin , side of the bonnet,
and his eyes nearly popped out of his head.
He says the motor's going and you've got the distributor cap off and
upside down in your hand. I said yeah. So he shuts it down, and he
says, can I see that again myself.? And I said sure. So he's really
stretching himself to lean across this bonnet and mudguard, he turns
the key on and so on, and I've got the cap upside down in my hands, we
shut the motor down and he's stretching, he hits the key and the motor
fires straight up. Smooth as glass. It would have been a couple of
inches above the distributor, with all the leads still connected.
And I had my hand on the distributor, to give it a bit of turn, that
wasn't it either. I take that hand off. And with this cap upside down,
the car, she revved as smooth as glass, right up to full revs and back
again. All the way. So I said just shut it down again. So it only done
it that time, and I have never ever tried to do it again, in any other
vehicle, or that one again. Anyway so, we puts the distributor cap on
with my hand, set the distributor properly, and put the timing light
on, and we got a break down again. He still had the break down and he
had come here for that reason. He hops into it and so on and he heads
back home to his place. He's gone belting over there in his car, and he
says to his father, dad, that flaming Joe over there, he's had the
distributor cap off upside down in his hands and the flaming motor
starts! Twice! And it's working smooth as glass, and we put the cap
back on and do everything else, and the motor runs like a mongrel dog
again! There's no cracks in the cap, there's no nothing else like that.
Now, there's no answer to that, I don't understand it. I was just
giving you an example about some things that have happened. You asked
about sparky, and with the frequencies and things. I don't know what is
making that flaming Leyland P76 run with the distributor cap upside
down, with it not in. I don't really know. Or the other one where I had
all the leads bunched together next to the block, and the motor ran.
These are some of the things we've found. I myself, really don't think
that it is a spark what makes them run. It's not just a thinking
ability on your own.
Um, we haven't talked about the Japanese yet... Here's something we
didn't finish talking about the other night. If you've got a motor with
the ignition turned off, and you ??? And you do it, it's called
dieseling on. What I do, is when ??? if you like. Run out and ??? say
no spark. What I said was the ignition turned off.
BOB: Yeah, yeah, yeah - you've got the ignition turned off.
with no sparking, all right? Now you say, well, the ignition's turned off.
Yeah, but our spark isn't coming through the positive wire through the
ignition. It's jumping across the block from our negative back through
that way. But, when you do turn, as we described, um, on the tape...
You have turned off the ignition, and the motor's still going, your
alternator is still charging, but it backcharges. You understand?
You've still got charge coming out of your alternator, because your
motor's still going the same way, your alternator's still turning the
same way. And in the alternator you've got diodes in there which switch
across, okay So you don't blow the diodes because they won't feed
backwards, single runs, single flows. Where a generator will go
backwards and forwards and any which way you flaming like. Okay?
And a generator and everything else, well it'll back charge, it will
charge forwards, you can take the battery out and it won't blow
anything in it, because there's no diodes, no nothing in it. It'll feed
any which way. Just touch them on the metal, and it won't blow your
generator. All right? It'll still run.
The Japanese motors are a little different ??? they wanted to make it (cheaper to run ?)
16
When you do shut down your ignition and your motor is still going over
the ???? alternator, or your generator's charging, you haven't got rid
of your spark, you haven't got rid of, you know your charge. We'll go
into that. if you like that, we'll go into it, because it covers a fair
bit of things now.
Waste spark management, there's people out there who don't understand
it, and um.-.. So I'm going to relate it to the same thing, back to our
question that is... I really don't know. The spark, I don't believe it
sparks. We've got different motors running different ways without the
stinking petrol. I believe, that with petrol a motor runs. Fine. And
you shut the petrol off and they don't run. But you see it's been set
up for that way. All right? Let's look at a different way on that fuel
side.
We've a drag car racing motor... 'these motors, they usually start
running on, colder fuel, like methanol, alcohol, and all those types of
fuels. As I was talking to you the other day, petrol itself, when you
put some on your hand, you're instantly burnt. Straight through,
because they bum inwards, straight onto the skin. And, if you put
metho, methanol fuel, like there is there... on your hand -it doesn't
bum you! The flame's there, a different kind of flame. It hasn't got so
much of the yellow flame in it.
Let's have a look a flame, you look at hydrogen. ??? in the, and I was
saying all these others were hydrogen, but maybe there's a possibility,
that being a liquid, 'cause if you break everything down it mostly is
water, the liquid side of everything is water... So possibly, water is
hydrogen and oxygen, I don't know too much but... Being liquids, you
break 'em all down, they're all water. Whether all the rest of these
things is a liquid, now I don't know...
But um, go through it, and you go down through the racing fuels and
everything else but, if you put the methanol, alcohol, metho, anything
else like that, which does bum too, and you put it onto your hand, it's
a cleaner burn ??? liquids, what you put onto it ??? You put a match to
it, it don't burn you, until all of that is gone. All of the wet fuel
and vapour and everything else is gone. Petrol instantly bums inwards.
Now when you go onto your bigger high compression suped-up motors and
everything else, what you gotta do, they go into these different kinds
of fuels. Like alcohol, like methanol, like ???? And what you gotta do
in your distributor, this is your frequency stuff, your spark stuff and
your frequency stuff is, take your damn distributor out. And you start
advancing it one to two teeth, and drop it back in. Off you're running
on petrol, you put petrol into that motor now with your teeth, what
runs on these other fuels, put petrol in the motor, they don't run.
They don't start and run on that. if you can get 'em to start running
on it, they definitely won't rev on it. All right? You saw me brother's
race car out in the shed, modified race car? He's got a fully blown,
damn 350 Chev motor, running on monstrous flaming Holley, carburettor
on. Drills all the jets out to flaming nothing, just runs through, he
runs methanol on it, okay? Forty-four gallon drums of methanol, runs
through the stuff. Understand? A lot of amount of cost. But the motors,
I mean, a phenomenal power in them too. I mean they're holding the
foot, on dirt tracks they're holding the foot flat to the floor, and
they're just drifting the whole way, and spinning the wheels the whole
damn way...
So he puts the methanol in and everything else, but when that motor is
dead freezing cold, and you try and fire that thing on methanol, she
rolls over. And she'll kick back on that flaming starter motor and your
fly wheel and everything else so phenomenally because, not when it's
running, but when you go to start the mongrels. Because your timing and
everything is so far advanced for the methanol and everything when it's
cold... When you first let them sit for a while, you have to pour
petrol down their throat. And you kick the guts out of the motor, with
methanol. Had it running out everywhere. Cylinders was full of the shit
of the stuff.
And I think you pour in a little bit of petrol and into it, she fires -
BANG! Fires! And you warm it up a few times, you know a few revs, you
can't put the petrol in again. She fires and runs on the actual
methanol then. She runs, goes, revs, everything else.
17
If we go to this now, if we try and run our motors on this, I've tried
it, we try and run our suped up motors on it because we got the ????
and the noise. Um, so you try and run one of these suped-up motors with
all the advanced timing ???
BOB: WHAT'S TOO MUCH?
We'll give you just a little demonstration of ??? our drags. All right,
I build drag motors. I quarter mile drag myself all the time, bikes,
cars. I don't like cars that much, but I do it on the bikes. ??? so
much an idiot on bikes. I was entered into Bathurst and everything
else. ??? I build these motors myself, I got sick of other people
building them. Waggats put it in your car, and he stuffed up, and
that's the last one I'm getting done by them. I build these things and
I know what they're doing and everything else, Um... The really super
vehicles, you know cars on the drag track ????? run. What you would
call ???? run. Um, points ??? make them run, electronic. ???Start over
here on his race car I modified. Started off with a set of points, a
condenser and coils. And he decides to send to America and pay flaming
a thousand dollars for a distributor, and that one's an electronic one.
And within the first run around the track, the flaming box inside had
blew, and it cost him five hundred bucks.
It didn't do what he wanted it to do.It wasn't giving the performance.
It didn't rev out, it didn't do what wanted. So anyway, he's played and
played and played and played, went over the distributor and did
everything else... But anyway, we go to our drag trials on the track.
They're going back to the early, cars. The earliest of early cars had
magnetos. Maggies. The flaming, these rails and everything else, the
big motors and all these things and everything else, they're running
double magnetos. It's the only way they can get the damn things
running. And they're running these high-volume fuels with their double
A fuel rails ????
All the early cars, all our old vintage cars I'm coming to now, they
all didn't use any of those things. In fact most of them ??? else, any
of those things. They just had magnetos. They took the lead straight
out of the magneto and straight across onto ??? That's what they run.
on These suped motors ??? frequencies ???
magnetos.
What we want out of these motors, because our normal technology ???
Back to playing with the vintage cars and everything else. Found out
too that uh, does anybody out there know what happened to ???? ones
without any of the main ignition keys or anything else. They got the
spark advancer on the uh, on the steering column. They've got either a
chain-drive diff, or a flaming shaft drive diff ??? couple of gears ???
over, over-geared. What these buggers do when they start running out of
fuel, is they start to you know like your pre-ignition, they start to
jerk. You know, jump. They start to,jump like buggery. They're only a
light car, and all this.
And, if they don't snuff out by the over-gearing, usually people do
another weird thing and they pull back on the spark ??? They know
they're running out of fuel so they go and get some more petrol. I
don't do that... You go around to all the vintage people around here,
they'd think I'm crazy. 'Cause I go over there, and I worked for these
guys, and I built these vehicles, and I built the old-style cars like
that and everything else, and I figured out looking at their magnetos
and ??? Rubbish heaps in their paddocks. So I put them together and try
and figure out what makes the buggers run..
I found out that the, what I do, they all think- I'm silly, I go out
there and when something starts to run out of petrol and I make it do
it, on purpose. I make it do it. So it starts to jump and jerk, before
she over-gears and snuffs out, I just push the flaming advancer
forward. And the stinking cars run. And they start to pick up and run
pretty good that they actually spin wheels. And that's what happens
when you're cruising along, you know you do a little bit of a speed in
old vintage rig... She starts to run out of petrol so you're up in revs
a bit, you're up in gearing, you're momentum moving and everything
else. She starts to run out of fuel and the motor starts to get this
jerky effect. The motor doing the jerking, the wheels and everything
else actually start to give the spin, you know, before she over-gears
and snuffs out.
18
So like I said, they either pull back on the spark advancer a bit, or
she just snuffs it. What we do to our motor which is pre-igniting
anyway, if you got a manual, put her into gear, drop the clutch and you
put your foot on the break. Other than that, if she's keeping on
jerking too much, you can put her into first gear and she'll just hop
down the road, you know: RU - RIH -RIH - RIH! Jump the car down the
road. Just like an awful big cam, until she snuffs out.
Anyway, so I just push the advancer ahead, and the flaming motor picks
up. And it hasn't got the fuel in it. But then you go and look at a
motor mower, and so on like that, and you start to run out of fuel in a
motor mower, and they scream before they stop. They scream. There, you
go and do that.
I think what's happening is, see our fuel, we're trying to atomise the
fuel, and we're putting fuel in there as a wetting agent, lubrication
and everything else, plus, we're trying to atomise it. Now all our fuel
doesn't atomise. So the wetting, agent what is happening is, that's
what I say, you can check it if you like...
???? The fuel doesn't, what they mix into there is wetting agent, it
doesn't atomise. Most of it goes in, and spits out, flaming pollutants
???? But the rest of it what does atomise, it is there for a reason.
And this is my belief.- the air is then being charged. You put all the
things we talk about, like Brocky with his air polariser, you know in
the manifolds, you seen that one I had there. Fifteen years ago! no
fuels, we're talking about all these other things with running without
fuels, like the water cells and everything else going into motors. You
look at the motor mowers. You look at your own cars when they run out
of petrol. Well maybe yours don't start screaming when they run out of
petrol. But, if we tune, if mechanics tune them and everything else,
they run a hell of a lot flaming smoother and better if you lean out
the fuel.
But what takes place is, the outside air going into your motor gets too
damn hot. Just like the pushbike pump with your finger over the damn
end, she gets red hot. It's only because the air itself is not charged,
and under compression she gets hot. And for every action there's an
opposite and equal reaction - why can't the air go cold? Well it
flipping does, if you put the right frequency on it. And I can prove
that to you with all the things I've been doing. That little one I
showed you over in the shed you played with and everything else, I can
imagine what it is and everything else.... With the right frequency on
that, no fuel at all, putting it into the air intake, the motor runs
cool. You don't even need a radiator on that. It doesn't make ice or
anything else. It's running on air, all right? It's running on air,
with a frequency inputted into the air, and your motor runs cool.
It doesn't overheat. But we do understand that air overheats if we
flaming reduce the fuel. Because it's a wetting agent, it's a cooling
agent, and a lubricating agent. And air under compression gets flipping
hot. But there's no reason why you can't make air colder. It's just we
may not have had the right frequency to do it, or the right way of
knowing what to do with the damn things.
Well, um, in your motor and everything else, it would be better to run
less fuel. If you've got a pre-igniting motor on heat ??? you can check
it. The pre-ignition on the motor is hot, and you turn the ignition off
that is so-called, our forward spark what we put in the motor ?????
keeps going, we do have fuel there. We do have fuel there - the fuel is
that flipping hot it is just what we call, pre-igniting. All right? But
then we've got the vintage ones and everything else. Brocky had a box
in the back, had a flaming air polariser in the front. He was out of
fuel three laps prior, by the computers and everything else, but what's
a fuel polariser gunna do if you ain't got any fuel?
Okay, think about it. Don't tell Brocky, I told you that. You know,
with the no fuel there, let's put all these things together. We've come
up with the no fuel there and everything else and so on, and the motors
are jerking and coughing. We advance our damn distributor, and the
motor picks up, Fine, well we got spark there now. Okay, we've got
spark. Now that's on the vintage one. We just advance our spark, and we
ain't got the fuel there. That's on a magneto. On our normal car we've
got the ignition turned off. We've got the petrol there, we've got the
ignition turned off, and it's heated up, and we've got pre-ignition.
So, the motor's going DA -DA -DA - DA - DA - DUM! Well what happens
when it's doing that and you turn the key back on to give it the
forward spark, well fine, she runs smooth again.
19
Just like before you turn the key off, the motor's running smooth. Turn
the key back off again, DA -DA -DA-DA-DA-DUMMMM! Turn your key back on.
What have you really done? Well, funny thing is if you go out there,
while she's pre-igniting, go out there and grab hold of a spark plug
lead. Don't tell me you're not gunna get booted! You have negative
running through the block, you've got the points opening and shutting,
you've got your coils on there and everything else, you got a
condenser, you got a resistor it's all there and everything else. You
got the alternator turning or the generator turning. There is spark
coming through. Now what it is is, the reverse damn spark. Reverse
spark. Now we're gunna talk about that because this is called waste
spark management.
What the Commodores have, is it implosion? I'll talk about implosion in
the same thing. Now in the waste spark management, we have normal
spark, compression number one, and it fires in there with the ignition
turned on and the fuel near there. That's our normal one, and now our
petrol breaks down into pollutants.
********************************
The Experimenter's Guide to the Joe Cell