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March 2, 2021 - Clif High
38:31
Woo ships -2021-3-2
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Okay, so the other video is often being uploaded.
My camera, hang on a second.
Okay, hang on.
Here we go.
It's confused by the gray.
And also, by the way, the tape up there is just because I don't want to punch a bunch of holes in this part of the wall.
Because once all this, or once the conditions change relative to the lockdown in this state and all of that kind of crap, I won't use this space this way.
And we may actually have to put parts of machinery in here to build other stuff.
So all this stuff is flexible and gaffer's tape works just great.
Doesn't leave residues or any of that kind of thing.
Okay, so let's put that away.
Anyway, so uh this is about uh woo-ships.
Okay, and so the woo ships are heading away from us.
And the woo-ships are uh the tic-tac UFO, the other UFOs that we're seeing.
There's many of them that have a common uh that have that have common elements in their propulsion systems that I've deduced as a result of having read through Boscovich, which where did I put that copy out here?
Oh no.
Well, I said it somewhere.
Undoubtedly was looking something up, and I've got the other copy in the in the other office.
So anyway, so uh back to the woo-ships.
Um so in Boskowitz, you will find uh the end of section one, part one, you'll see there's a number of articles in which I don't I don't remember the numbers, but it'd probably be like in the uh mid-200s, like 240 or something like that.
Anyway, in which uh he mentions oscillations.
Oscillations are natural uh response in universe to uh magnetic drives traveling from one limit point of cohesion to another limit point of cohesion, or from a limit point of repulsion to a limit point of repulsion.
Uh so um in the process of this, he talks about oscillations at a level to dissipate energy.
And then if it was done right, you could take vast quantities of energy moving incredibly fast and dissipate that energy in virtually no time with no uh inherent inertial effect on the object that's that's being propelled by that energy.
And and he discusses this.
He doesn't discuss it in in those terms, he is a translation from Latin.
He was not trying to describe UFOs, he was trying to describe uh aspects of the ether, but these UFO ships, these woo ships, operate on a magnetic drive.
Uh we could also say equally valid that they operate on a limit point drive, because they hop from limit point to limit point, and you can vary the distance between the limit points, but that takes the same amount of time essentially to go from one to the other.
So if the two limit points that you want to transit to, one's here and one's on the moon, it'll take you a second to make that transition.
If one's here and one's fifty feet away, it'll take you a second to make that transition.
So you can decide uh how fast you want it to go by how close you set those limit points or how far away.
Uh so if you wanted to transit locally, you could set the limit points very close and just second by second by second move at the incremental rate that you want from limit point to limit point using a magnetic drive.
And this is what Elon Musk wants to do with his ships that float up over the ground, only he's talking rockets, so last millennium.
Okay, so we're we're talking here about woo ships.
And woo ships are basically pods here for the occupants to sit in and drive the vehicle.
Okay, and a woo ship is is um uh very minimalistic.
We can, or it can be as large as you want.
So a woo ship could be like one of those, you know, uh Star Wars or Battlestar Galactica or whoever the hell.
I mean, they could be giant things, they could be the size of many planets and still operate under the same principles.
Or they could be uh the size of a, you know, um just a regular smart car and be little and very minimalist.
What I favor, of course, is the sort of um cigar shaped one in which you'd be able to have, you know, your this would be your Wu R V because you'd have a place to cook, you'd have beds, you know, you can place to put your fish in poles, could be as large as you want, you know, you have dining rooms and that kind of stuff, right?
You could have a three or four bedroom RV if you wanted in this form, and it's gonna be propelled by magnetic influences.
So woo ships go on what we call mag drive.
And we can we can explain and I can describe to you a great many aspects of how to create these woo ships, of how to create the tic-tac tic tac UFO and others that we have seen.
I've investigated this, we I bounced ideas off of other individuals that are working in other areas that are sort of related.
And uh there's been some level of uh conclusion that I've been able to form, and some of those conclusions, along with reading in Boskowitz, have led to a number of patents that are on the way to necessary stuff that we need for these, right?
And so a woo ship is going to be uh magnetically isolated from the rest of the environment.
And so it'll automatically, when you fire it up, it will create a um a particular kind of a magnetic field that isolates it from the rest of the local environment.
So basically what what you're doing in mag drive, uh scooting from here to Zurich, say, right, is that you're using this and the magnetic influences, you're isolating this ship relative to the rest of the Earth's magnetic field.
So this, all right.
How do I want to say?
Okay, so the the arcing lines of the Earth's magnetic field would see this, would not even see that that existed.
It would be magnetically isolated such that you wouldn't even exist insofar as the Earth's uh magnetic magnetosphere was concerned.
It would be an anomaly, it would just be something sitting there.
And then the beauty of this is that it's magnetically isolated in a particular way.
And that particular way isolates the individuals in the in the ship itself from any influences of the magnetism.
Bear in mind we're going to be dealing with magnetism uh sufficient to remove this from gravity, which isn't that much.
I mean, you can do little levitation experiments with magnets very easily, and so one magnet here can use can levitate another magnet very easily against gravity, and gravity is known to be a weak weak force.
But we're going to be using this to propel us across material space.
And this is going to be magnetism at a level that we don't usually encounter.
So it's necessary that we be isolated internally as well as externally.
And the and the way in which the skin of the of the woo-ship is formed, is that the skin material has isolating magnetic fields structures in on both sides of it, on both the inside and the outside.
So we'll just say this is the inside, and here's the outside.
Okay, so that's external.
Um this field forms such that it traps, it's a dynamic magnetic field, such that it traps incoming magnetism.
Incoming magnetism would try and come in this way, assuming the external shield Was not there.
You'd go through the very magnetically porous material, but then it's going to get eaten up by the dynamic layer here of this particular kind of a magnetic shield.
And this magnetic shield is formed basically from the what I called the high effect of the ability to fold and blend magnets into unusual shapes, that are non-natural shapes by altering the nature of the dielectric planes relative to each other in altering the magnetic fields and embedding some lines of magnetic force within another, literally weaving the magnetic field.
And so this magnetic field would be woven, so to speak, and would protect the occupant.
It would maintain Earth ambient magnetism within the structure of the woo ship.
And so you'd have the it wouldn't be this massive, it wouldn't be this size.
It would be there's our natural formation.
It would be miniature.
You can do it in miniature in the materials as you put them together.
This all would be a sandwich.
And so basically it's gonna be a sandwich that would look like a metallic version of a printed circuit board.
And we'll pulse electricity through it, and we'll pulse electricity through this side and we'll pulse electricity through this side, and the material in the middle will be magnetically or electrically isolating.
And it will allow us to create these opposing magnetic fields that will isolate the structure of this vessel.
And then the outside of it, then it becomes isolated also, as I say, from the magnetic influences of the planet.
So if it were clear and of sufficient size and had air in it, and you could remotely turn on a turn on this effect, you know, you have your little machine inside like a big clear beach ball or something, right?
You could turn on the magnetic effect so that it was no longer feeling anything from the from the earth magnetically, wouldn't try and hold it down or anything.
And you could just set the beach ball, which would be at this stage heavier than air, out in the sun, filled with air, and it would, as Buckminster Fuller said, lift tremendously and just keep going, uh, because it would not be uh in any way affected by the stuff in the ether that's affecting everything else and keeping us all on this planet.
You have to go into Boscovich in some depth to get this understanding of how it all works.
But the oscillations, as I was saying, was the key to my thinking, oh geez, he's describing a manner in which these tic-tac toe UFOs work, because when they come zooming in, you'll see in the videos they come zipping in and then they sit there and oscillate, just vibrate like all hell.
And then just before they leave, they oscillate and zip out.
Uh and that oscillation is key because it's this limit point of uh coherence, cohesion, uh, attraction, whatever you want to say, however you want to characterize it.
All right.
So in any event, so our skin of our vessel here creates a magnetically isolated um medium, uh keeping Earth's uh uh magnetosphere ambient inside and totally isolating it from the magnetosphere on the outside.
And then on the outside, it's more a little bit more complex because we have magnetic fields that are both directionals.
All right, so in and out, so to speak, internal and external.
And this allows us to change, so to speak, to like phase change, this outside field.
And that would mean that we could pump electricity through the skin in such a way that from here over to here we would have repulsive force.
Those are all supposed to be R's.
And so that's our repulsive force on this side.
And then we change it so that we're attractive over here.
So we have the attractive.
Now the attractive is the weaker of the magnetic forces.
It's the centripetal.
Uh, the centrifugal is the repulsive force, and it is the far more powerful.
And we just make it attractive in a band however far we want.
And then what we do is we fire this up, it would be repelled, so it would repel against the Earth's magnetic magnetosphere On this side and would be attracted to whatever we were aiming at on this side.
And so it would go in that direction.
And it and it has a very interesting and unique method of movement, as we see when we get into Boscovich and read in parts in part two in the upper 200s or upper 300s,
I can't remember where where it was in relation to those, where he discusses the movement of materials in fermentation, viscosity, and simple chemistry, and how that is actually occurring within an etheric understanding of these.
Okay?
And so that same understanding allows us to grasp that the magnetic, we set up a magnetic repulsion here, and the Earth's magnetic field naturally just pushes us.
And then if we set up an attraction field here, it's going to pull us that way.
So this is if we were cruising at you know 100 feet, then this would allow us to slowly start landing, right?
You would that's how you would land this critter, is you would magnetically zero in on the Earth while magnetically repelling from the Earth's magnetic sphere, magnetosphere on the back side.
So you're not falling.
This is all guided movement.
Very rapid too.
But you're going to be isolated on the inside.
Because of this isolation at a magnetic level, it's also going to work at an inertial level.
Now, this is a this is an unbasic understanding of a woo ship, and it doesn't matter how big they are.
There are certain engineering issues, obviously, if you're making it the size of you know uh Manhattan Island or something, right?
You got you've got issues if you're moving large mass and a lot of electricity, and you've got a large mass for the fields, the fields become complex, they have a tendency to degrade as you get to certain conditions, you have to put in um uh areas to pump them up.
There's all different kinds of things that have to be done to engineer at that level.
But for the little guys, and even for the large ones, so they are conceptually all working this way.
Uh now I've got um uh third generation night vision goggles, like military, you know, crawl through the jungle kind of night vision goggles, right?
And so uh these have magnifiers on them.
The optics were hand picked for me for absolutely no distortion that could be achieved.
There's still, of course, obviously imperfections.
But nonetheless, um that noted, I have a hundred and forty-five-mile view into the uh atmosphere with these pre-sunset or post or pre-sunrise or post-sunset.
So just before dawn.
Uh so let me just quickly sketch that.
Okay, so yeah, okay.
This is Earth, the sunlight's, let's just say the sunlight's gonna come from this direction, and I'm sitting right here.
As the sunlight comes on up here, just before it the sun gets up high enough relatively, or the earth rotates, is what happens.
Just before we rotate enough to where we can actually get direct sunlight to me, this the sunlight is actually illuminating this area of space up over my position, and that's 145 miles out there.
And so I've got a view of 145 miles out into space just before the sun comes up or just after it's gone down because of the reverse uh effect there.
So uh these goggles are good.
Now I have seen a ship, I've seen a woo ship, I've seen the little floaty triangle things, the whatever the TR3Bs or whatever they call them.
Um, but I've actually seen uh two types of vehicles that I say are are space alien because they didn't move, they were not in any way, shape, or form any like anything that humans have invented so far or demonstrated conceptually so far in movies or any of this kind of stuff.
Um it was just fantastically uh cool to see, and one of them was clearly operating in a mag drive.
And I know this now, I didn't at the time I saw it, which would have been maybe 2012, 2010, something.
No, it would have been 2011 or 12, something like that.
Okay, so I didn't understand at that time.
I hadn't gotten into Boscovich, hadn't read into the understanding of it, didn't have the Tic-Tac UFO footage to examine.
But I now know that the UFO that I saw was operating on a mag drive, because it is predictable that mag drives operating for large vessels will have a tell, okay, and that is that they'll flash, they'll create light as an aspect of this.
Just the same exact way that an LED creates light.
They'll flash it out in these pulses.
And then they'll move vast quantities.
So they'll you have a big one here, it flashes out, you get a flash of light as we look at it.
Next thing we know it's way the hell over here, having crossed a giant arc of space, and then you see it flash light again, and it appears to jump into the light and disappear.
It's not actually quite doing that, but as it creates the field distortion in the ether for the to jump to the next limit point as that occurs, primary light is created.
And that's what I saw with those night vision goggles all those years ago.
Now I understand what they were doing.
Alright, so this is where we're at in concept.
The interior, of course, you're gonna have to deal with all of the interior issues, right?
You know, is it white tile in the kitchen or not?
Also things like oxygen and uh you know, meaningful stuff like keeping yourself warm, you know, when you get there because you're gonna want to explore that sort of thing.
Now we know some of the things about the manufacturing of the skin and how it'll have to be a sandwich.
Uh we also know some of the aspects of the operation of it.
Now, one of the reasons for this particular video today was to offer an opportunity to anybody that watches it.
And I am unfortunately not in a position to demonstrate because I don't have a piece of copper plate.
I wanted to have a chunk of copper plate because I wanted to demonstrate this stuff called magnetic braking or copper braking, okay.
And that's where you have a copper plate, um plate material, and you can take a magnet and you can suspend that magnet on a string from a hook or something, and have that magnet come down to within a small distance of the copper plate.
Now, this string, when you when you bring the magnet back up here, and you have your string stretched out here, well, it wouldn't be that far.
I'm distorting because of my position.
But anyway, okay, so when you do this, and you bring your magnet up here and you're holding your magnet, and you release your magnet, it's going to swoop down here and it's going to stop.
It's going to stop right here as soon as it gets into the plate enough, depending on the thickness of the plate, it can stop within its own length, right on the edge, if the copper is thick enough.
If it's thin thin copper, it may move a distance.
But it will not rise out to the other side of the copper plate.
This is the magnetic braking effect.
And this is because the the magnets, um, the magnets drag through, drag the magnetic field through the copper, and they actually encounter and generate resistance.
Uh a la Steinmetz and heavy side as they move uh as the magnetic force is literally force lines are literally pulled through the copper plate.
It's like pulling your fingers through sand, okay.
Drive your hand into sand and then pull your fingers through the sand.
That's the effect of magnetic uh lines of force through copper.
The copper interreacts, it provides resistance.
This is also the nature of resistance in electrical wiring itself, um, because of the nature of what happens to the spin of the ether as the magnetic line is drawn through the copper, or the copper is moved through the magnetic field, either way.
Okay, so this is where we're at right at the moment.
We understand this, we know this, all of our devices are basically all of our electronics that we're dealing with here, all work because of this magnetic braking principle, because it allows us to use copper to generate electricity from the dielectric plane inside the magnet as it's as it's doing its work within the copper, it causes the copper to generate electricity over the skin and internally, but mostly over the skin of the copper.
Okay, so um what we're looking for, so myself and two other individuals for their own purposes, not for my woo ships, but for their purposes, but they just happen to coincide.
What we're looking for is, and this is the opportunity to anybody that hears this, is that we're on a discovery in the uh hunt, and if whoever discovers this first will be probably may even get a Nobel prize for all I know, right?
But if you were to discover this first, it's like Niels Bohr, like ancient scientist kind of discovery.
What we're looking for is the reverse, okay?
We're looking for the anti-copper.
And then before you start jumping up and saying, you know, uh rhodium or any of these other things, you gotta have to understand what we're talking about, okay.
Uh steel is not the anti-copper, all right.
Ferrous metals are not the anti-copper.
Um they interact with magnets.
We so here's what we're gonna have to become attracted to magnets.
So we see here that you get, by the way, if you do this experiment with a heavy enough magnet that you actually get can see the breaking effect, you'll get oscillations as it settles in every damn time, as Boscovich is talking about.
Okay, so this breaking effect here with copper means that when you swing this here across copper, it's gonna start slowing down as soon as the magnetic force lines start interacting with the copper, and it'll bring the magnet to a stop.
We want the reverse of this.
So it's my supposition that there are two metals out there that we have yet, we, I mean humans, have yet to uh locate and recognize that they do what I'm gonna describe.
But what we're after is this metal X, okay, X metal.
And X metal is going to have an interesting property because it's going to be the reverse of copper relative to the breaking.
And so we'll say that we're going to be pretty in pink or purple here, and X metal.
In X metal is going to have this effect.
Instead of having the breaking effect when you release it, when it starts hitting the, let me put it over here, when it starts hitting the the edge of the sheet, it's going to speed up.
It's going to be like a slick.
It's going to be like um uh, you know, um cruise in its socks hitting that wax floor.
You know, it's gonna be uh, you know, a dog on a wax floor just scooting right across.
You're gonna go a lot faster as soon as you hit this metal.
Okay, so and we want this metal for particular reason, and but but it has been determined by my conclusion that we'll get this speed up effect, that it will go way the hell up, and then it'll come down and go way the hell back up this way, and then go way the hell up.
It'll gradually oscillate because gravity will ultimately overcome the slickness of metal X. Okay, so it'll it'll gradually oscillate down and stop.
But it will measurably be faster when you do this breaking experiment over it.
Is this a pure metal like copper?
I don't know.
I've tried a number of different metals, and I've found that all different kinds of metals have some level of magnetic effect that I was not prepared to find.
And we know these mag these metals have magnetic effects because they use some of them in like uh computer chips and stuff, right?
And so um uh gallium, gallium arsenide, all right.
So arsenide's the processing base for the gallium in order to create the uh LED process that that we use or the magnetic and electric process that we use to generate light with LEDs.
And gallium is used in that.
Okay, so I I tried gallium.
I've tried tin, I've tried all different kinds of other things.
Tin has some very interesting um compounding effects.
So tin and copper make for an interesting magnetic interaction.
Tin and copper separated by distance and probably some other metal have an even more interesting uh interaction.
I'm certain it's a metal, uh, although it may not be a metallic as we recognize it because it may not be a pure metal.
It may be a metal that is, you know, compounded with some other material to get us to metal X. But this stuff uh is our, if we can get this, then we can achieve huge breakthroughs very rapidly because this particular property that we're after is going to be key in many of our manufacturing process as well as the final woo ship itself.
Because this allows us to isolate in so many different ways.
Anyway, though, so the slickness aspect of this is basically, as you will understand, meaning that the magnet's magnetism is coming in here and getting twisted or repulsed on its own.
It is not interfering with the molecular structure of our metal X. And so, as far as it's concerned, it the metal X is actually like slick like glass.
But is not, but but it's more than just glass or paper or wood or something like that, because this thing will actually accelerate the magnet, because the magnetic field them itself will participate in shoving the magnet across metal uh our metal X as rapidly as it can do so because of the interaction of this down to the metal down here.
There are some suggestions that gold can be used in this process, and we are in the process of exploring that.
But understandably, uh, you know, smacking out a bunch of gold and doing experiments with and burning it up with acids and stuff, it gets to be real expensive and it's messy and um uh I was hoping to actually run across somebody that could do a lot of computer modeling for us and get us close to the Metal X based on some of these uh descriptions that I'm trying to lay out here.
Uh once we get that, we can get so many other devices, and if somebody can find that, the very first thing they need to do is figure out one some way to patent it so that they protect themselves and can benefit from it financially, and then call me or discuss this with me and uh clue me in as to what you what it what it is,
and in return, I will I will share with you uh two um uh aspects of it that you may not have considered that would also be profitable to explore uh that are non-obvious.
So it would benefit, so basically, if you discover it, I can make it worth your while to tell me about it.
And and even if we have to work out a licensing agreement for it so that I can use it, that's fine.
Okay, all my I all I want to do is build woo ships.
I don't want to make money off of Metal X. That's not my goal.
But I will help you do that for finding the Metal X for me.
Um and then we have a couple of other technical issues to overcome, uh, many other materials issues that we're addressing at the moment, but and then there's one uh the other one of the technical issues that we have to overcome.
We we know conceptually many aspects of it, and we also know conceptually enough of enough of its description to be able to begin an effective hunt for it.
So uh we're on our way to our our woo woo ships uh construction.
And basically it'll be really cool when we actually do this, because in order to make the woo-ship, it'll be very much like forming um, you know, like an aluminum pod or something.
We can build anything inside it we want, as long as we don't mess with this outer skin and all the electrical controls and stuff to the skin are fine.
And then it doesn't matter what's on the inside.
We'll have to deal with things like you know, if you're gonna be living in there and you're potentially on a on an area where there's no atmosphere, because once that shield is there, by the way, you can go underwater.
Water would not penetrate this magnetic isolation shield because of the nature of what we're doing with this magnetic field.
Uh it's not that it's going to be water repellent, but the water would just the viscosity would be destroyed on the vibration of the of the uh dynamic uh magnetic field on the outside in terms of isolation.
So it wouldn't matter if you're in air, water, space, you'd be able to just fly anywhere in these things.
And they're gonna be self-protecting.
You could have two of them crash into each other, and the occupants might actually feel that kind of a bump, and these things would be bouncing off each other.
But because it would be magnetic field to magnetic field, the force, no matter how fast they were going or how far they've come with that kind of inertia behind them, would be destroyed almost instantly as the limit points of repulsions were reached.
Uh You'd have to deal with really large magnets to see that effect and feel it personally.
But it is, it's absolutely remarkable.
And then now one quick last thing, and then we can shut this off.
This is for Elon Musk's cars.
Okay, because so what he what Musk wants to do is he wants to have some kind of rocket, isn't my understanding.
Maybe I'm wrong.
Maybe maybe he wasn't thinking rockets at all, and I misunderstood.
But he wanted to have a car that's gonna hover up over a road surface about five or six feet.
And it's a pretty chunky little car.
It's a Jetson kind of car, and there's the doggo sitting in the back seat, and there's George, and he's over here driving.
Okay.
And so then he's got his arm out the window and the dog's leaning out.
Anyway, so they want to hover a certain distance off the road.
Now, of course, we all know about maglev trains.
And maglev trains have magnets that are have repulsion here and magnets that have repulsion there, and they repel each other, and you've got them balanced and they're good and they go.
Uh assuming that they don't overheat and all these other other conditions.
However, with our particular approach, again, you could isolate this whole thing from the local, which is to say Earth, magnetic influence, and have no intention of ever taking this into space, or have no intention of taking this thing underwater, right?
And the same effect can be achieved six feet up or eight feet up or whatever, and you would still have this anti-collision barrier from the magnets, from the uh magnetism to anything else.
Um I don't know, for instance, if if you know, a small enough high speed uh particle could get through it.
Uh so on these low-level ones, could you shoot the thing?
Maybe.
You know, maybe you can get a bullet to go through the field.
I don't know.
It's gonna depend on the uh the conceptual, because it's not real, conceptual thickness that the field is dialed to.
Because you can make them very thick if you wanted.
And that's that's the key here is that you can make this thing thick enough as a magnetic isolation field that it would actually just in and of that self, without the other parts of the woo ship mag drive, but just within that part itself, it would have a tendency to not want to come back to Earth, just like the beach ball thing, right?
Um, uh because it's gonna be not attracted to other particles.
And you really have to understand, it's not attracted to other uh stuff, other ether manifestations within the ether and within the field that we see as particles.
And um because of that non-attraction to them, it that isolation, it would just sort of sit there.
If there was a big air gust, it could be pushed down because it's gonna be there physically.
Uh, but it's in and of itself, it would it would not really have any tendency to want to come down and rest on the road.
Uh this, in a sense, then you would be walking on magnetic legs that had uh their own level of repulsion to the road itself.
And this is part of Metal X. Once we can get Metal X, then we can do this as well.
And I can explain that in some other video.
Um thanks, guys.
Somebody the other day was the hundred put me over a hundred thousand subscribers.
Uh thanks very much.
Uh live long and prosper to that individual.
Uh I'm sure universe will reward you as as it should.
I'll never know who it was.
Um, and I guess that's about it for woo ships.
There's tons more, obviously, tons more.
And okay, so now one other thing I wanted to get into.
And this is Enerrata, okay, an addendum.
This doesn't relate to woo ships, but it relates to the magnetic electrical generators.
I've contacted two distributors or two manufacturers that say they're in production and setting up distribution uh centers and sites, and I've had no response back.
Uh I've tried many different approaches to get hold of these people because I have money.
I want one of these critters, right?
I want one of them, even if it's only going to work four or five years.
I want to investigate this technology and get involved with it.
Uh it's the ultimate green after all, right?
Even the even the progressives will go for magnetic uh uh home uh electrical units, right?
So I want one of them, and I I've got some crypto money, and there's something I was thinking about.
Crypto people will want to buy these.
I know a lot of people that are outfitting expedition level um RVs.
And so they're going to want a little three or four kilowatt version for their RVs.
And uh I was going to buy it and basically use it and tell people about it, unboxing the whole deal, right?
So if you've got one, if you're actually shipping, get hold of me.
I can boost sales pretty tremendously.
Uh I've got a hundred thousand subscribers here, but I've got far greater reach uh into the crypto world, and crypto people have money now and they want to buy these buggers.
So, you know, if you're if you're producing them, uh tell us what we have to do to get these critters.
And and please contact me.
I've tried several of these companies so far, and nothing has come back.
Um, and that's just to let you know.
As soon as I find out that we've got one of these things operational, I will let you know.
As soon as I've got one in my hands, and I can spark myself with it because it's producing electricity, then I've got plans.
I've got some seriously cool plans, and I'll start doing stuff right away, just because that makes uh the ultimate uh for me uh the ultimate situation doable, and that is a hundred percent off-grid living with your magnetic uh home electrical generator and Starlink.
So you've got space-based Wi-Fi and your an electricity to run it.
And then you can live anywhere and you know, drill a well, get a road in there, or hell, pack it in on a boat and set it up on a beach and cut your own um chunk out of the wilderness, and there you go.
So off grid living anywhere becomes feasible.
And then with my mag drive, hey, you're living out in the middle of you know, Podunk Aleutian Island because you want to go and and study the seals or something, but you want to, you know, clean yourself up, scrape off all the seal gunk and hop into your mag drive and zip into Maxines for some lunch.
You know, Paris is just uh two seconds away in one of these vehicles.
So, anyway, that's where we're headed, guys.
Live long and prosper.
Thanks much, and I'll let you know if we get any of the these magnetic drive guys uh to connect with me.
And it and if not, I'm actually involved with uh people and we're trying to build them.
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