Ahhh! These are
And do the other one... This exactly shows what I was explaining
And it's quite amazing. It's been an eye-opener for me, to just
And that's even how we see the color of the Earth
And that's why we see different planets, different colors, different strengths. You are showing
Are you using a four or six millimeter pipe? It looks like a 6 millimeter pipe?
But a lot of times, I find that the magnetism isn't
But, the blood flow creates it's own current, so it affects the shape of the
By the time the
Can you show it ? I'm going to explain to you why...
Could you explain that again, in a different way, please?
Do you understand?
Do you understand? so, the shape is
Even the strength of the shine of the
Exactly! And there's times where we have gotten a really good flow going,
First of all, the body is a coulomb generator.
Guy and I, I think, and I gave the example of the
I thought it was more the convection currents going
I understand it, but it's in a way to understand the reality behind it,
In fact, if you...I usually
In reality, it is still there, but now you allow the different combinations
It doesn't kill the light. Can you put a finger next to it?
It must be strong, that there is contact, contact on the pipe.
It would be very interesting if we can see it. Tell him we experienced that a couple of weeks ago...
It's the same as your finger, he has just shown.
It's the same assertion if you say the sky is blue because of the color of the water.
It's very interesting...I show you something to do....
Mine was five bucks, at the Salvation Army! hahaha!
No, it's just a ring, just put it through it.
Oh, yes. Now, would that go, for the kind of pump that we
Okay, here's a big honkin' neodymium magnet
Or the color of the water is because of the color of the sky. The color
Put your ring magnet on the side and we see the shape,
Right. And that will take out the plasma,
Run your reactor again,
So, we are playing with magnetic fields, and...
So, when you reduce, when you take so many atoms
So, you stop the flow with the magnet. But sometimes, if it is too strong,
Sweet. Is it a good idea to have another compartment?
That's the interaction. This is when you run your reactors in the Space
The best thing to do, somewhere on that pipe, closer to
The non-vacuum condition is a metal which exists, very compacted,
The vacuum pump hose. Be careful!
The way I do it...you see what happens
Then use a 6 millimeter ring, that you pull it through it.
There's not much room. A softer material which is your tissue, which is
They don't understand separation. That's right. Well,
This is what I usually do, put a magnet
This way, you create it in reverse. By vacuuming, you take layers off,
This would be 6 millimeter, yeah.
We could do the same thing in this chamber very easily, it's not magic...
We did try putting a magnet up
We have a magnet underneath here, a ring magnet is actually
What do you mean? When you have his finger on it, there are
What you do, what you do...
Which hose? The vacuum pump hose.
Whoops! ...I've got this arrangement here too, which is
Why does the change
Yeah, we talked about that earlier today,
Yes, I use the same kind of pumps. But the best thing is,
Yes, but the thing is, that glow can
Yes, that's right...we want to experiment
Yes, we've had some experience with that, with putting magnets on
Yes, well what is interesting, which sometimes I look at it and I
Yes, well, you did mention the idea of another chamber, to be like a dump chamber,
Yes, you can buy them, it's about 50 -60 dollars, these cylinders...
You are now working with a real vacuum plasma condition,
You have to use a ring magnet, if you can find a ring magnet...
You see, you concentrate everything in one position. You don't get
You use these kind of effects for targeting
You use these kind of effects for targeting destinations in the Space Technology.
Your hard material like the magnet,
a combination of lighter elements, then you have better conditions.
a cylinder. Yeah? As opposed to a...
a few different factors where you don't have with a solid magnet.
a length of it does. That's right, a couple of feet, and if you were to touch it,
a property of less...ah, much denser
a very strong magnet, that you
actual testing, and when you put gases in,
affect the pattern of the plasma inside that chamber...
affecting the plasma really. Like, when we take
and I was hoping to modify that, to use that.
and a good education, to play with it a little bit, just to see
and changing magnets and so on. And I also have a...
and how that works. It's a...
and how you can change the gravitational field on it.
and it seemed to sort of amplify it a little bit even.
and see the difference between the two? Yeah, okay.
and swirling around the inner globe,
and the gravitational-magnetic field of the gases which are around it.
and the shape of
and then the flow inside the globe is a separate
and they all line up, and they are real happy to let go of their
and when you put a finger, you collect them together, and the shape is fixed with
and you're in a dynamic, you open
any more than what's in there, but you bring it together. Where with a solid magnet,
applications...you see now, you have all those
around your chamber, opposite each other.
atoms like to have elbow room! haha! They like
be able to see that. This is what that guy shows, and everybody
because you have a blood, which is a magnetic flow itself,
beyond it to find its balance. And then this surplus
blower motor, a heater motor, and I've got
close to the pipe, squishing it a little bit with the magnet,
colors that come out of it, so we have some understanding about that,
destinations in the Space Technology...
easier to create with it.
effect on the plasma than a magnet will, generally...
electrons, so you don't get it.
explain these kind of things, is like
fixed, it's pattern is fixed, because the body of a man
go into the motor, and burn your motor out. I wondered about that, because
got elbow room, this is great! ". And then you have a magnetic field as well,
have here, which is your standard, sort of, refrigeration
here, for example, and when we put it up to here...
hits the gravitational-magnetic field of the Sun, we have daylight.
if you release the energy which is in there,
in so many ways, have no boundaries.
in the bottom of the the chamber.
in the reactor, and actually have a magnetic drive on the other side
in the vacuum, when you go for
in there... But your body creates it's own. Body tissues cause it,
in your pump becomes like chewing gum!
internal matter, which is Earth, inside the cores,
into your pump,
is a lighter gas composition.
is different, you have this glass container,
is, in fact, it shows fields at a plasma level
it didn't look like a good thing to have two feet
it goes into your pump, and you find all the plastic
it has for a time what you have inside and you see the change of effect.
it releases a lot of energy, a lot of magnetic field
it still jumps, but you freeze it, it's a good way to do it.
it would light it up stronger, it makes it brighter.
it's exactly the same as when the lights of the gravitational-magnetic field of the Earth
kinda handy, which is a ...it's a motor, it's a Subaru
level, the gravitational-magnetic field of your system,
magnetic field inside there...a whole separate field that was activated from
magnetic fields gravitational field, when you suck it up,
magnetically, the Plasma Ball, for example.
near to his heartbeat. If you see it... well, it's
now the plasmas can interact. So, in interacting,
number four, where I've explained in every detail. Even what they say,
of green hose happening! You don't see the whole pipe lighting up...
of interaction of the fields, of the few
of the Earth or any other planet, comes from the interaction
of the magnetic-gravitational field of the
of the plasma outside it, in your second chamber,
of the polycarbonate, so I'm able to drive
of the, let's say, the star, it depends on
of their electrons at that point...
opens up,
or the color of the solar systems. It does not come
our hose started lighting up that goes to the vacuum pump!
out of your cylinder, you allow
pass the hose through it, around the pipe, yeah?
pipe it into a five-little cylinder,
plasma with the sensor.
plasmas you leave inside. You see this if you change
principle level. You open a higher level of transition level to the principle level.
probably not stainless steel, but a steel container,
reactor, and create magnetic fields
ring on that pipe. Build a unit
run the same chamber again, and put some magnets
see different colors.
seems that way. Yes, I do. Yeah. This is the
six neodymium magnets from a flywheel here,
so much from the production of material. This is coming up in the book
so your plasma is
solar system outside, and the solar systems interact with each other.
that is mounted onto it, and we can put that right on the top of the
that you cross your magnet through your pipe through it.
that's something we learned too, when
the Plasma Ball like this one, and we hold a magnet up to it...
the current flow of one with another.
the flow of the outside field. Yes, so this
the flow, if you look, is very much
the harmful plasma, is that correct?
the heartbeat. All fixed with the heartbeat! Yeah, the heartbeat.
the physicality of what we have seen in the universe. Now for the first time, we can explain it scientifically.
the plasma strength on the top layer,
the reactor, but a ways from it, you use
the very few plasmas which are outside the tube
the what you call, the transition levels. You never get to the
thinks it's magic, but what it does... haha!
to let the plasma settle down in...
to move, hydrogen atoms are there, "Whoa! We've
to open up. And in opening
to you. The solid magnet has
to...the external tube opens up, so,
transition level comes to find it's new parameter,
unit, this is what we have to operate with.
up, you allow the energy transfer across...
vacuum, or life and materials.
we have an aluminum, I've got an aluminum,
we realize that high-voltage is not the way to go with
well, my hand will make more of am influence, will have more of a
what do you call it, pressure cooker,
what happens with voltage in a vacuum chamber.
what you see there as a blue color, it's of no concern.
when you work with a real plasma condition,
which attracts the gravitational-magnetic field of the plasma internally. So,
which you are creating the original plasma in.
with it so that you could see the outer flow flowing around,
with some different gases, even with our crude setup here, just to see the different
with the Earth, creates a light around your reactor, around your craft.
you burn your pump out, yes?
you don't have that property, because it's compact. It's the same as, if you create
you have a solar system inside, and you create another vacuum
your gases or mixture of gases, then you
your plasma inside your tube
your reactor, but at the same time it's a good experience,