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No, smaller, please
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this is too yeah, ok.
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Can you smaller the picture is too much.
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Yes! That's.. A bit more, a bit more, a bit more.
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a little bit more please, Rick?
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That we see the whole picture.
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Ok! That's perf... No, you've got to go down,
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you've got to go up, go up? Yeah, that's it, perfect!
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Ok! Carry on Vernie, please?
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Ok, yeah!
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Err, the bottom of this err, err, document you can see the Magrav unit,
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this is err,
-
this is the starter that we used,
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and they are numbered as, the bottom part as 1,
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the middle part as 2, and 3.
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These are in the middle, these are err, gans balls,
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which on the upper right we have a legend there, of what's in there.
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Err, err, gans inside the plastic balls,
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these are for the number 1, this is CO2 gans coated,
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for the middle part, err, copper oxide gans coated,
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and on the topmost CH3 gans coated.
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So, as you see, those who already have the Magrav units,
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you can use them by simply adding other components, that is shown above.
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So, we have up on the upper right, oh, upper left,
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err, below the starter circuit, we have our power strip, where we connect our load.
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And on the right side, in the, err of that power strip,
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we have the pink err, box, a refrigerator, represented by the box,
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what's shown inside is a drawing of the circuitry inside.
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But what you see on your refrigerator,
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coming out, is only 2 wires that is the plug,
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there is a 3rd wire there, err, for those that have a capacitor, this one is used in here.
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On, on the upper, that is the light blue box, is a compressor, added by Douglas as a load also.
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Then on the upper right, we have the plasma capacitors,
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these are a special err, type capacitors where we added err,
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an aluminium layer on top of the paper, err, which is also gans coated,
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which the details can be shown on the next page of this document.
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For now let's, let's err, discuss first this page.
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Ok, for the starter circuit, this set up was done using a starter circuit,
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in this case we have err,
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a battery, which is a DC battery running err, a 6 volts, 12 volts DC motor,
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turning the shaft of a submersible pump.
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We open the pump, we have this submersible pump, there is a shaft in the middle, which can be rotated.
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Err, if you supply this pump with the positive and negative at the back, on the right side, this shaft will rotate.
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In this case, we do it in reverse, we rotate the shaft and it will supply err, electricity on the other side.
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So, we use this as a starter source,
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just to start the system, when the system clicks, when you hear a click from the refrigerator,
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then you can disconnect this, and you have a self running system.
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The role of err, the starter is only, just like a car, you cannot run the car without starting it.
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So, this is it, for now, err since this is our first prototype, but works well.
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So we have there a switch, to change over the connection, err, on the right side of the starter circuit.
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You see we have the specs, also, of what err, Douglas used, the type of submersible pump,
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a capacity there, is written, 400 gallons per hour.
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So, you can do the same, this is a very cheap, euh, device.
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Actually, all of these, except for the Magrav, are off the shelf, and every home already have a compressor,
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which is found in the refrigerator, so this is very much do-able.
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In here we showed, euh a detailed connection of wires, on how we connect the compressor,
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the light blue box, and in relation with the refrigerator.
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So, if you follow the lines, all the dots, across 2 lines, means they are connected,
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err, that's this, err, that's what it means.
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So... let's follow the,
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on the capacitors, they are all connected in parallel with each other.
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They, these are all capacitors, of similar construction,
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and...
-
they're joined err, together using (oberst??) nano coated wires.
-
By the way, all these connections on the capacitors, on the, going to the Magrav
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err, unit are all nano coated wires, err.
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They are all nano coated wires.
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The only that is not nano coated is the power strip, and on the battery side, the starter circuit.
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And of course, the wire, that is from the refrigerator err, that goes to the err, power strip plant.
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Ok? Err, at first, you have to initiate this to charge,
-
so it to have the charge.
-
When this refrigerator, in the pink, in the pink err, box,
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err, initially charged by our starter circuit,
-
we have the detail here, that the motor circuit,
-
initially, the, the wire, from err, the connected wire going to the capacitor on that refrigerator,
-
charges up this circuit, the SMC circuit,
-
up to a point that the changeover to C & R, which is the running coil of the circuit takes over.
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So, the PPC, there you see, it's a switch, built in on the rev, you don't have to put that,
-
it's already on the rev, we just put the detail that you can understand the operation.
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So, when the motor is on running condition, this PPC will cut off,
-
and will change to running condition, and you hear a click.
-
Usually, you rev, when you start your rev,
-
you will hear a click in a few minutes,
-
maybe less than 3 minutes, or less than a minute, you will hear a click.
-
That click is from that circuit err, that cuts off the starting coil.
-
With this,
-
err, when it is running,
-
err, this, err circuit, if it is connected to the Magrav, err,
-
they communicate with the Magrav, because this,
-
our refrigerator, also at first, runs err,
-
just like a generator the moment before it cuts off.
-
So, when it, it discharges err, a supply to the Magrav.
-
The Magrav is funded, then we have this oscillation between them,
-
then we have a mutual err, flow of energy between the load,
-
which is the compressor of the refrigerator, and the other compressor, and the Magrav.
-
The moment it happens that way,
-
we have err, what we call an oscillation between the two,
-
then we can disconnect the starting.
-
Just like the car, when you start you don't continually turn the key in starting mode, you have to turn it off.
-
Similar to that one, this is how it is done.
-
So, I could say this is err, primitive way of doing things, but it works well,
-
umm, and as you know it, it can carry up to 5 kilowatts of loads.
-
The role of the Magrav here is to err,
-
provide the extra energy, because if some would say,
-
those who are familiar with this circuit, the compressor circuit, they would say,
-
“Oh, that's, that's not a Magrav system, that's a generator set up using the compressor.”
-
But when you do that, without the Magrav,
-
you cannot sustain, because you don't have the extra energy, it will back down,
-
because of err, the design of the motor, and of course the resistance.
-
With a Magrav, you can sustain, and in fact you can go beyond err, err,
-
that point
-
that you can supply more than err, 4 kilowatts of err, load.
-
The capacitor here is a very important component,
-
err, that's why it is designed that way,
-
different from our usual capacitors.
-
The aluminium layer you can err,
-
literally, err, err catch up, that charges from the gravitational field in the middle going up,
-
the aluminium there err, is a huge err, err, factor than our previous design of capacitor.
-
So, it, it resonates well with our Magrav,
-
and the whole system err, resonates back with each other.
-
So, this err, is how they communicate with each other, it's just a give and take err, err, situation.
-
If you see the red wire and the black wire,
-
you will see red wire connects to the black wire,
-
black wire connects to the red wire, similar to the grav. connects to the mag.
-
This is a consistency in connection, this is how also plasma works,
-
magnetical connects to gravitational or gravitational to magnetical.
-
So, we have passed this err, months ago,
-
we have understood this, and indeed when we have applied this,
-
this way, we were successful with the set up.
-
Ok?
-
Do you have any questions?
-
So, Vernie, I've got a question, for the starter circuit, can we also use a fish tank pump?
-
Yes!
-
This is a fish tank pump!
-
This is a fish tank pump, ok!
-
Yes, it is a fish tank pump.
-
We... you've got to understand, when this was set up
-
err, looked at the easiest way to do it, that it can deliver....
-
Just one second, please?
-
Hello?
