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If people look into second hand shops and scrap-yards,

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they can make these systems for themselves.

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What do you call it...pressure cooker...

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I picked up here. I was hoping to modify that; to use that...

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Yes, you can buy this, it's about fifty to sixty dollars, these cylinders...

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Mine was five bucks, at the Salvation Army!

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Hahaha!

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That's where I get all my good things!

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It's surprising...I walk through

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the Salvation Army looking for Plasma Reactor parts, you know...

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I've done that as well, don't worry! ...I spent an hour

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um, LadyDragon knows, she called me...I was at the refrigeration

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supply place yesterday, and we talked

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for about an hour while I was wandering around there looking at all

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the neat things. Like, I was lusting after a vacuum gage

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that costs about $300, for example.

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Well, the thing is, this is what I do in my writing, and I always explain,

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there is enough material around the world,

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that even in Africa, if people look

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into second hand shops and scrap-yards,

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they can make these systems for themselves. That's right...that's

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very encouraging, and you know, what changed my life a few months ago

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was when I heard you say something about...that there will be people

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making these reactors in their garages! And that to me,

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that's kind of what I do, I'm an inventor and mechanic

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and so on, that's what I've always done, so that was so invigorating,

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and so much of a grand idea to me, that it might be

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that simple, you know, that it isn't really, "Rocket Science"!

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It's actually simpler than rocket science. But it's still very exact.

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Rocket science belongs to Nasa.

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The Space Ship Program belongs to the people in their homes.

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That's right, exactly. I have a quick question...

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Yes? Okay, I will turn on the video for a moment...

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This...I don't know if you can see it...

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Yes!

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This is a container from balloon gas, I have one

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pipe going to the bottom, and the other pipe is

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going to the same top. And I was planning to fill it

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half way with water in order to discharge the reactor inside.

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No, no, no, no. Don't use any liquid, because the vapour

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goes back into the reactor and causes all sorts of problems with you.

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Once you extract

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the gases from your core, the minute

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it hits the wall of the cylinder as you have,

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it releases its energy into it, that's it.

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But it has an advantage, when you use a cylinder like you have.

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Whenever you want to create vacuum, you go out and start the pump,

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in your case, Rick.

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You have to turn the pump on every time you use it to

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want to create a vacuum. Right. With a double chamber,

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even it is to outside, you always have vacuum

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as a reservoir, you just open it, and its there.

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You don't need to use your vacuum pump.

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You see, when you use a molecular vacuum pump, these are timed.

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Because they can get damaged, molecular vacuum pumps, very easily.

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And they even have a timer on them, how much you've used them.

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So, by keeping a reservoir of vacuum,

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or two reservoirs; one for discharge and one for charging,

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you always have a reservoir ready,

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and you don't put so much pressure on your pumps. Right. The turbo...

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the way I understand it, the turbo-molecular pump, it can't take

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regular atmospheric pressure, it has to have a roughing pump,

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similar to what I have here, in order to

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bring it down to vacuum first, and then you use the turbo-molecular.

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The turbo-molecular is always next to the roughing pump,

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together. The roughing pump comes on, takes you to

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to minus 1 or whatever, and then to minus 2 or 3, and

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then the molecular comes in to take the last bits out.

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Even when we use the molecular pumps,

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and you think you

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still have a total vacuum, in the chamber there are millions of

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atoms still left behind, gases. I understand that the hydrogen and helium,

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the lighter gases, are the hardest to get out. They tend to stick around in there.

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You can use them. You don't need to get rid of them. You can use them.

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That's what I was thinking...they would be what remains.

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Yes. What you do, is you try to unify

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the atoms in your container.

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What this means is, instead of having...

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When you do the first vacuum, you pull out a lot of things...

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there is all helium, nitrogen, whatever CO2 in the inner cylinder...

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but there is still some of them left. What I always do,

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before I start a test, I feed in

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three or four times, hydrogen. When you feed in

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hydrogen, you reduce...then you vacuum it,

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then you put hydrogen in a second

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time and you vacuum it. And then you

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reduce the, you minimize the, contamination of any other atoms

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but, if, for example,

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you are using plastics or glass,

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even metals,

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in the condition of the vacuum, releases

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part of the material which is in the construction,

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in the structure. So contamination

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through the wall of your core

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is a natural process.

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So, you have to build up this layering that

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you push heavy material or heavy gases

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or any change of composition in the structure of your reactor,

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not to come in touch with the plasma.

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Do you understand what I am talking about? Now, is part of that, the way

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I understand it, is having a copper reactor helps with that a lot because of the

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when the magnetic field of the plasma gets

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close to the wall of the copper reactor, it will tend to repel,

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because of induction, magnetic induction forces involved...

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We have plastic reactors...

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So, does the plastic repel the plasma, or is it

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just the combination of gases inside that are correct for an insulator...?

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You use the gases as a shielding as a containment.

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You have a solid containment of the plastic...

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One of the best things to use is carbon...

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If you can get carbon gas... Carbon gas, yeah?

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Yeah? And the carbon is very

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it's a specifically...

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some places it's very easy to get...

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I haven't heard of carbon gas, that's an interesting idea...

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I produce it. I've been producing it myself.

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Okay. This is the structure of...

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You work with the CO2, as you buy

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to carbonates the drinks. Yeah, yeah.

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And through a specific process, you separate your carbon,

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and there is another method which I show on the internet, quite a lot of people

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don't understand, is through the Coca-Cola bottle.

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That's the easiest way to do. Then you

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use your carbon for, what do you call it...

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It behaves

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as a conductor and a resistor at the same time.

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Depends on what vacuum condition you put on

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your central core. CO2,

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Now, this wouldn't work with straight CO2 or,

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I have welding gas for my MIG welder, which is

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CO2 plus argon.

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You can use that, we have done that. But the thing is, if you use CO2,

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Then you end up with O2 in there? And with the hydrogen, you get moisture

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in your reactor. You get the connect force of moisture,

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and then if you get to the positions,

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you find out a lot of your valves, externally, between the core and

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pump, they start rusting internally.

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Oh yeah. This is somewhere where the condensation becomes vacuum to water.

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It took me a long time to discover

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why I was losing my valves!

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You create a condition of rust very quickly in those positions.

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So, these are little, little things that you learn by experience , and

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you try to find out why you get to these positions, because you run your

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vacuum pump, and you don't get to vacuum.

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Yes, well last week we discovered about using water. We put water in our

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vacuum chamber, and high voltage, just to see what would happen there,

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and the vacuum pump oil got contaminated really quickly.

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It's got all foggied, and sort of yucky looking,

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so, I changed it. Had to change the oil in the vacuum pump.

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It oxidizes, because it takes in the moisture from the

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the oxygen from the water. Right. You have to keep away,

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all the time, from combination gases,

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gases which can combine to give you

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new matters. In some cases, you deliberately

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create the conditions to create new materials.

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So what would some gases be that would be true contaminates? Like would

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oxygen would be an obvious one that would tend to... You don't touch oxygen.

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You wouldn't want to have even the C "O2" part of the CO2,

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so CO2 wouldn't be a good idea probably. No. These are the things you have

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to learn by experience. And if you always...

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you know, I do this all the time,

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the last barrier before your vacuum pump,

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has to be micro-filters.

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That the stop any new material built in your reactor, any moisture,

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to be absorbed.

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Yeah? So, these things

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get created even in the pipes.

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If you understand the structure,

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you can allow, in part of your pipes, while you run your

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test, to create protein.

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You know the glow you saw in your pipes? Yes? The what...

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in the pipe? You know you said you could see glow. Yes.

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Right. Yeah, in the pipe between the vacuum and the chamber,

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You can create conditions around your reactor, that in different sections

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you produce different materials. Yeah?

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Inside? You produce liquid, you produce matter,

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and if you can feed in part of your pipe, a specific

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condition of gases, you can produce protein. This is what we've done in Tehran.

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Because we understood,

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we understand the structure. But now, scientists like you

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have to to test to come up with different ways of doing it.

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The way I say in my patent, I cover every aspect of it.

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The way you see

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you do your reactor, or Ludmil does his reactor a different way...

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there are as many different types of creating the same effect

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as there are stars in the universe. Hmmm, that's a great way to put it!

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Do you understand? Not only my way is the correct way.

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The way I explain it, is a general way to approach

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and to reach. So if you change it slightly,

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you get an earth condition, you get water.

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You change it in a slightly different way, you get liquid something else, or you get gold.

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This is what we try to explain, in deeper space, we don't build different reactors,

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for producing different materials, we use

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different POSITIONS of the reactor to produce different materials.

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This is a misconception, a misconception which I see a lot of people do

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when they read my patent.

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So, if you want

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energy of the protein,

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you go closer to your core. You want less, you go further out.

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And that energy is always there....energy is magnetic field in motion.

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You have to decide in your reactor,

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in what strength you want to be, and then you calibrate your reactor core,

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that this position gives me protein level,

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this level, gives me copper core,

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and then when you tap into it, when you extract it, it gives you different material.

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Material production in the Universe is that way.

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