Science & Technology Saturday - Ep1 The Casimir Effect & Casimir Cavities

Video Transcript

# Science & Technology Saturday - Ep1 The Casimir Effect & Casimir Cavities [Music] Infrared eyes scanning the black, tracking the heat, never turning back. Control 22, a coverted gaze. And 33 in the cosmic maze. And rolls in the mix. Secrets untold. Silent washers brave and bold. In the shadows they silently glide, protecting our interests far and wide as fears. Sentinel of the night, watching over with infrared sight, alerting us to threats of guiding our defenses like a guiding star. In the silence of space, they keep their post. Shields unseen yet feared the most. With precision and speed, they warn of danger, keeping us safe from the missiles anger. As Beers, Sentinel of the night, watching over with infrared sight, alerting us to threats afar, guiding our defenses like a guiding star. And in the mix, secrets untold. Silent watchers, brave and bold. In the shadows they silently glide, protecting our interest far and wide as fears of the night, watching over Malaysian 370 contact 12 decimal 970. [Music] Breaking news tonight. A Malaysia Airlines flight with 239 people on board, including four Americans, has gone missing. [Music] [Music] [Applause] [Music] I remembered the line from the Hindu scripture, the Bhagavad Gita. Vishnu is trying to persuade the prince that he should do his duty and to impress him. Takes on his multi-armed form and says, "Now I am become death, the destroyer of worlds." Welcome everybody to the stream. Happy Saturday for everyone. Hope you guys are having a good evening or morning if I guess if you're on the other side of the world. Uh, welcome to the first episode of the fourth different show that I'm doing or fifth different show, however many there are. Now, we've got Malaysian Airlines Monday, we've got Secret Science Wednesday, we've got free energy Friday, and I decided to change the name for Saturday, Science and Technology Saturday, and we have the Hard Truth Podcast as well. Uh, I think there's going to be a hard truth podcast dropping tomorrow. Uh hopefully I can get it edited and and ready to go for tomorrow and then I'm going to start trying to pick them up again. I'm planning on having uh Professor uh Simon Howell uh uh next weekend as well. We're going to talk about plasma orbs and ball lightning. So uh we got some stuff coming down the pipe here, guys. Should be should be sweet. Uh yes, whoever reminded me was that uh Dim Tilman, thank you very much for reminding me about the other opener. Uh I I haven't played that one in so long, honestly. That one's a good one. That's a little bit shorter. So, um, okay. Today we're going to be talking about the Casmir effect. We're going to be talking about dynamic casmir effect and we're going to be talking about kasmir cavities. We have a lot to get through today. Uh, and I'm going to try to do it as fast as we can. Uh, one thing I want to point out, guys, I've been reading so many scientific papers. Uh, it's actually just even mindbending for me as well, uh, in terms of how much I've been reading. And I was reading uh Sakurov uh who was uh who Putoff had uh referenced with respect to the gravity being an explanation from 0 point energy 0 point fluctuations. And apparently Sakurov was a Russian who uh worked on creating hydrogen bomb for the Russians in the 50s or late 40s. And then he ended up becoming a advocate for disarmament of nuclear weapons. And so now I'm pretty much certain that the technology that we're talking about originated from the Manhattan project. And that's when it started to take off when we realized that not only can we split the atom, but we can extract energy directly from the zero point energy field. And then ever since then, we've been advancing it. And I think it's just got to the point now where it's just literally like magic. and it's achieved like breakaway civilization level technology and we've been hiding it for so long we don't know any way to not hide it uh that's my current understanding right now with respect to where it comes from and aliens and all that I don't know I am going to post this paper called ultraterrestrial hypothesis uh that Pudof also wrote that I read earlier today which is really interesting um that kind of tries to take a scientific approach to what would various scenarios of non-human intelligence look Like and one of the things it mentions is that if there was a non-human intelligence on our planet living with us influencing our society, they may tr try to throw us off track by convincing us that aliens are extraterrestrial from another from another solar system um just so that people are confused. And I thought that was really really interesting. Um okay, so we I may post something like that a little bit later tonight, guys. Uh, hey Cipher. Hey my channel, welcome. Welcome. Sassy's here tonight. Ramos is here. Oh, look. We have Hermes here. Been a while, brother. Welcome to the chat. Um, guys, there are a lot of engineers and scientists watching as well, which I think is wild because I'm just I'm a healthcare IT consultant, but I'm out here talking about, you know, quantum mechanics, stuff like that. Um, the papers that we were reading today too are pretty wild. Um, would the plane have to land? I I don't know. It's a good question. Uh, there on Monday, we're going to go over some of the debris that uh JK Philly fan uh somebody else in our Discord found an analysis of the MH370 debris. So, on Monday's stream, we'll probably go over that. Uh, and spoiler alert, JK Philly fam looked through all the pieces of debris and found like at least five different examples where the debris seemed to have been ripped apart instead of uh like broken off. So, it would indicate that potentially if this plane was dismantled, they like literally ripped pieces of the plane off, which does not seem consistent with um uh necessarily the crash scenario. So, pretty interesting. We'll see. Um, yeah. Let's see who else. Anybody else in the chat before we get started here? Have I looked into Steven Wolf's physics project? Uh, I've heard his name, but not quite. Hey, Krypto as well. Uh, also the reason why I didn't stream last night, guys, I had a headache all day yesterday and then I went to get dinner with my dad and I was just too tired after that. So, that was the reason why we pushed free energy Friday. But, we've got some great stuff here that's going to be uh dropping here today. If you guys saw my post about dynamic kasmir effect, we're going to take a look at that right after we talk about the kasmir effect. And then we're going to look at uh Garrett Modal's um kasmir cavities design as well, which seems really similar. Um I'm also being Oh, someone told me there's Oh, there's an ape presentation. I didn't even know that was going on. I probably should have guessed. Um, also guys, it's just it's getting to the point where like I've learned so much already at this point and like I'm I'm starting to understand like what some of the secret sauce is. I want you guys to be able to figure it out yourself. But I am not going to if I ever get to a point where I feel like I'm pushing it too much, I probably will pull back a little bit. What I will say is if anybody gets disappointed by that, I would say that I have shown more than enough for people to figure out some of this stuff. My current opinion right now is that I've got a pretty good handle on how like a magnetic motor can produce energy. Uh I'm 90 to 95% sure I've got gravity manipulation figured out. Um now what I want to be able to do is figure out how we can extract energy using the casmir effect without moving parts. And I want to figure out exactly how to produce high amounts of uh negative energy. Those are the things that I'm pretty much trying to work through right now. And I'm not going to push it all the way to the point where people could figure it out because I I literally think it's an issue of national security and national defense. I think that these weapons are that's the reason why we're hiding it. Like same with um the Manhattan Project. It, you know, this is why they're they're going to do anything to hide this. This is why the white hats and what have you that are out there too are lying about like the video that M370 videos and stuff like that. Because if you're get told that like this is an issue in national security and we could destroy the whole planet, even good people will lie because for the good of the species or whatever, you know. So I hopefully I've given you guys enough information through this that you know you can help figure it out yourself. Now the dynamic hazmir effect, you're going to notice some similarities. We may have to jump back to some other scientific papers while we're talking about that as well, guys. So I'm going to drink a sip of water and then we're going to get started here. Um yeah. Okay. So, we probably do need to start with something simple. Thanks for bringing this up to me, guys. Um so, what is a battery or a capacitor? You know, this is probably the most fundamental important thing to understand. So, anybody who tries to come at me about this stuff being fake, the first question message, do you even know what a capacitor or battery even is? So, if we have like a battery, you have the the positive side on the top. I wish I had a battery, but I I don't have any. Uh, and then we have the negative side on the bottom. So, how do we get charge in in our dipole? So, when we have the charges separated, what happens? The negative charges are trying to get to the positive charge. They're trying to equalize out. When the battery becomes fully equalized out, there's no more energy anymore. That's it. So once we achieve the symmetry where everything's been equalized out, there's no symmetry anymore. So you've got an insulator in there to prevent the electrons from getting to uh the positive charge. So instead, what happens? You connect it to your circuit. And now what's going to happen is the electrons are going to take the long route to try to get to the positive charge. This is how we create our circuit. This is where energy begins to flow. Now, why is that important? Because if we're thinking about how we want to be able to produce free energy, then as Tom Bearden would say or propose is that we need to keep our dipole open. We need to make sure that the positive and negative stay separated. I imagine the reason why we haven't produced free energy right now is the way that we're doing it right now is do you imagine a swing going back and forth. The way we're doing is we're constantly pushing on the swing both ways. Is that efficient? No. When you're pushing a swing, how do you push the swing? Do you constantly push it back and forth? No, you don't. You don't want to do you don't want to work against the the swing coming back at you, right? So, you don't push the swing when the swing's at its highest point in front of you either. That's the worst time to push it. What you want is you want to wait for the swing to come back and then you want to push it and give it a shove. So, we want to come up with a way where we can keep a dipole open where we can give it a little bit of shove here and there. This is the secret in my opinion to free energy, I think, at least with respect to uh a device that has no moving parts. Um, and you're going to find there's a lot of connections between all the science we talking about free energy, negative energy, uh, wormholes, warp drives. The secret is the kasmir effect. So what is the kasmir effect? So now that you guys understand a battery or a dipole, uh it's just realized you've been pushing the swing the wrong way this whole time, chat. Whole time. Uh it was funny because I told my my mom that analogy. I wanted to test it on her and she goes, "Oh, even I can understand this now." Um, and the key is obviously that's not an accurate representation for really a dipole, but what's happening is when we're burning fuel or whatever, what we're doing is we're keeping our dipole open, we're using that to separate our charges. And then that way the power continuously flows out. So when you simplify that, then what does that mean? That means that as long as our dipole is open, as long as our charges are asymmetrical and separated, power is flowing. Power is flowing. When you look at through that lens, that's where you get to where Tom Bearden says, let's go ahead and pull it up, that all the fuel in the world is not added a single watt to to the to the uh to the grid or to the the power lines. It's the dipole being open that's allowing it to happen. So, I'm going to pull that up real quick. Watch a little bit of video here. I wish I should had a video for the Casmir effects, but I don't think I do. Here we go. Streamyard's so annoying. We thought the generator powered the the uh external circuit. It doesn't. It does not power it at all. All it does is we twist the crank on the generator, the shaft to turn the shaft and that forms a magnetic field inside the generator and that energy in that magnetic field dissipates itself upon the internal charges to force the positive charges in one direction and negative charge other than make that dipole and that's all a generator does. Doesn't add one watt to the power line. All the coal, all the oil, all the dams ever built, all the nuclear fuel rods ever consumed, never added one single watt to the power line. All they did was keep rebuilding the dipole that we have designed the silly circuit to destroy faster than we can power the loads. We thought the generator powered the the uh external circuit. It doesn't. It does not power it at all. All it does is we twist the crank on the generator, the shaft to turn the shaft, and that forms a magnetic field inside the generator, and that energy in that magnetic field dissipates itself upon the internal charges to force the positive charges in one direction, the negative charge other make that Okay, I just I just did that twice. Okay, but yeah, that's the part that's important is that it's basically the generator is just pulling the charges apart and it's it making the dipole stay open. So, this is also kind of what I think Deadly Storm here says electromagnetic fields that switch position to push at the proper moment. It's actually pretty simple. It really is. And a lot of this physics, what you find out is part of the reason why I'm like holding back a little bit, isn't because I'm trying to be koi about it and be like, "Oh, I know the secret and no one else does." It's because it's actually really simple when you boil it down. It's it's not this like complex you got to do super complicated differential equations. though for the math you kind of do but to understand it conceptually you generally don't a lot of this stuff is much simpler than what people imagine um whether it be gravity manipulation and free energy or understanding energy in general I mean when you think about it like the way we just described it isn't it kind of straightforward that's why like when I this is another thing real quick as a side note I was talking to my parents yesterday about when I was in high school and what have you I took they called it uh inter international balor at higher level physics and I I never liked physics because I always felt like there was something missing. And part of the reason why I'm so passionate about this is when I started digging into those videos and the science behind them and went, "Holy crap, this this answers all the questions that I didn't cons like intuitively understand before. This is why I didn't intuitive understand them before is that it wasn't it was so much more simple than it was being made out to be." And all the things where we're saying we don't know like we can figure it out pretty straightforward. So uh the other thing I would say is that a magnet a magnet is also a dipole. And the benefit of a magnet is the way that we know we can manipulate the magnet is the magnet doesn't run out. The dipole never equalizes. It stays asymmetrical. That's the beauty of the magnet. You have your north pole and you have your south pole. And those magnetic lines years and years can go by and you're going to still have your magnet. So you can imagine if you can use the magnet to manipulate the uh the dipole to keep the charges separated using either some type of time uh you know um what's the word I'm looking for here? Like a timed pulse that's that time specifically to a specific resonance. Then maybe that's the answer. And this is why magnets to me are definitely the key to free energy. If you want to be able to produce free energy, I think you pretty much have to have magnets no matter what you're trying to do. and then how you configure them to keep that dipole open, that electric dipole. Pretty interesting. There's also something else that we're not going to talk about today, but I'll give you guys a quick um little spoiler on something called a where is it? Electret. And an electric is like a meta material that seems to have like a static electric field. that doesn't uh it doesn't break down as quickly. So, I'm going to look into that because I'm wondering if there's something where you can create some type of meta material that also has similar functionality to what we're looking for. Um, I don't know what rockgate is. Sorry, I'm not familiar with all this stuff. I'm still learning a lot, guys, so I don't know everybody. Yep. Um, I don't know what this link says, but if somebody can find out what that link says, I'd be very curious and put it in our Discord. Okay, now let's take a look at Kasmir effect here. I've got couple things here for Casmir effect. Which one's the simple one? Oh, they're both kind of long. So, I don't know. We'll just we'll just do a quick brief look at both of them here. Okay. So, Casmir effect. What is the Kasmir effect for people who are new or they don't know, they haven't been watching or whatever. Um, so Kasmir effect is actually pretty simple. Casemir is one who figured it out back in what the 40s or something like that maybe earlier. Actually, it probably says somewhere in one of these documents, so we'll see. But the basic idea is pretty simple. It proves that there is this vacuum energy. Uh, and the way that proves that is you put two conductive plates very very close together and what will happen is they will squeeze together. And the reason why this is happening is because certain wavelengths cannot fit between the plates. And so if there's less if less wavelengths are able to fit between the planes and more of them on the outside, you're going to have this pressure. You could argue that that's what gravity is. Honestly, in fact, I think that is what gravity is. So, if we have this kasmir effect and if you guys watched our stream last week for free energy Friday last week, you will see that uh in the pudof paper, the pudof and Eric Davis paper on extracting energy from the vacuum. And I think it may be actually one of the durs uh where they talk about it. There's actually both of them are like they borrow from one another. Um, it even mentions that this is proof that we can extract energy from the vacuum. The issue is that it's not perpetual, that you have to pull it apart. And this is why when you see me arguing with some of these other physicists and what have you, they're always, I don't want to say it's dishonest, but they're it's it's ignorant. Uh, is that they intentionally frame the argument in a disingenuous way where they say, "Well, yes, you you can, you know, extract energy, but it's not really extracting energy because you have to pull the plates apart." But we don't have to pull the plates apart. If we had a bunch of plates all next to each other, then we could extract energy from each one and then throw the plates away. So, I forget what the guy's name was, but he was objectively wrong. He never apologized for being wrong. Rarely, these guys are so egotistical. These physicists and stuff, these mainstream normie brain people, they never apologize for being wrong, but he's objectively wrong. You definitely can extract energy. The only issue is can it be perpetually extracted? So it can't be perpetually extracted using two plates. But so what? Now that we know it's possible, now it's an engineering challenge. How do we engineer our experiment so we don't have to use two plates that we have to pull together? We need some kind of situation where we can have the plates automatically pull apart or have an analog, an analogy to the plates pulling apart. Hey Gerald, welcome. Welcome buddy. Appreciate you. And this is the reason why um it's so important the kasmir effect is so important in all of this. Uh kasmir effect shows that we can extract energy and it shows a negative energy pressure differential. Now when we talk about warp drives, when we talk about wormholes, we need negative energy and we don't even understand what this concept of negative energy is. My current understanding is that negative energy is like removing all of the electromagnetic fluctuations in a certain area. You know, if there's this latent energy that's always out there, you want to remove that. And if you remove that, you can imagine this is the zero zero point. If we can go below this and remove all that that energy in a certain area, now you're going to have that negative energy pressure differential scoop on in. So this is why Pudof and Davis have in the wormhole papers they have speculated you need to create a kasmir cavity or a kazmir shell. So actually real quick I think I want to show the pudaf video because he says this specifically just so you guys know what I'm talking about. um that has to do with this background fluctuation. That's right. Having changing the density, I think he says it in this one. You say changing the polarizability of the vacuum is another way of looking at. So you're accelerating through the vacuum, right? Because when you say you're accelerating within this quantum fluctuation, it has an effect on that background field. that that that is certainly the case because it's essentially pushing aside uh the vacuum fluctuation some degree and that's what's caused. You just hear what he just said right there. It's essentially pushing aside the vacuum fluctuation. This is from like this is like 20 years ago. I don't even know how old this is, but this is way before HD. Listen to that one more time what he just says right there. That that is certainly the case because it's essentially pushing aside uh the vacuum fluctuations some degree and that's what's causing the resistance because the vacuum fluctuations are what's causing the resistance. When we move around, what is inertia? Inertia is us flowing through the vacuum fluctuations that are out there. So if you pull away the vacuum fluctuations, what happens? You're going to go flying. Well, that's what that's what the same effect that we would expect from negative energy or negative mass. So, at the end of the day, then pulling aside the vacuum fluctuations is negative energy. So, negative energy then isn't some exotic substance. It's just regular energy. It's just getting rid of the going below the baseline equilibrium of the energy levels that are all around us all the time. This is important because when we're trying to engineer a solution, we need to know what the problem is. I'm going to listen to it one more time for people who weren't who weren't paying attention. That that is certainly the case because it's essentially pushing aside uh the vacuum fluctuation some degree and that's what's causing the resistance we call inertia. But how would you actually um contract space time to do that? I mean what what effect could you put out there to have that? Well, we know from switching over the general relativity side of it that uh you can look at the equations whether you're using standard general relativity or some of the other approaches to general relativistic type effects and very strong fields strong masses the mass of the earth affects the space around it. Uh which thinking in terms of 0 point energy is affecting the distribution of 0 point energy. Uh, so if you go to that equation F= ma where the mass times the acceleration equals the force. Put up's like, "Yeah, I know about F= ma." If you create a force, you can um generate a mass that would have an effect on space. We might generate a force that would move a mass, start to accelerate it. Or I mean what you'd really like to do is just scoop out the energy in front of us and the energy behind us would just shoot us forward. So and that's possible. That's not just a Star Trek. So scoop out the energy in front of us and what will happen? The energy behind us will push us forward. Why is it going to do that? It's going to do that because we've created a negative energy pressure zone in front of us. And this is also important because the way that he phrases it here, I think that Alabi might have gotten it wrong a little bit. We don't need to remove energy in front of us and add energy behind us. If we just remove energy in front of us, we're going to go forward. Why is this important? Because that's what the orbs are doing in the MH370 videos. I don't think the orbs are actually creating an alcoar warp drive, but it's the same exact engineering metric of the vacuum is that they're simply devoiding the energy in front of them. The negative energy laser is simply removing the energy in front of us and they're just falling through it like a well. This is why Salvatore PZ was so excited to talk to me when he because his high frequency gravitational wave generator is basically this device. That's that's exactly what you'd be looking for. Uh, and I can't go too much more onto that because I it's probably pushing the limit there, but that's what I want you guys to be imagining. So, keep in mind, how do you remove all the energy in an area? That's what we want to be thinking about. How do we remove all the energy there? How do we remove all the wavelengths, all the electromagnetic fields inside of a any region of whatever size that we want concept? But you you've seen no we we know I mean small effects all of general relativity for example um is based on these principles and we can calculate well gee if only we had so much energy right uh and then we can make this big effect we can power a spaceship and so on it's just that we don't have the engineering tools uh to do it right now and frankly uh those of us who are working on it think there's still something missing in the theory because it's so hard to too. We don't see that it could ever really be done. And yet, um, you know, maybe there's some evidence that there are spaceships out there that don't belong to us or somebody else. Well, in that case, they must have gotten around it. So, there may be some unexpected factor that could suddenly cause a resonance to occur where with a lot less energy, you could get a big effect. So that's interesting as well because he actually mentions that maybe there's a way to get a big effect with a lot less energy than what we're thinking. I think he's being koi here. I think he already knows when he when he made that video. I think that Hal Pudof is a very very smart guy and I think he's very careful about what he puts out there. So here's the part about the wormhole open up a time space and slip into another part of the universe. That's a possibility. Yeah. the general relativity if the equations are right that's a possibility how does that actually work how can you actually what do you need to do that to open a wormhole in basic layman understand you need this is the part where he's going to mention the kasmir wall get ready a lot of energy yeah that's one thing you need um you need to structure it in a certain way so as to fict the vacuum um you know we can write the equations for it see how it is. It's a little hard to uh describe physically. I mean actually we don't really know how to actually go out and do it physically because there are little few little things like well I'm going to need some negative energy here. Where am I going to get some negative energy? Hold on. Got to play it. Where am I going to get some negative energy? All right then keep your secret. Well, in some sense the casemir effect is actually considered a negative energy thing. So, okay, maybe I want to have to have cashmere walls around my my wormhole. Okay, so right there, chat, what if I make cashmere walls around my wormhole? Okay, you have my attention, good sir. You have my attention. And yes, I think he's being koi. Uh, also, hey, Matt Reynolds, nice to see you. Dom, one for Nate. $10 donation. Thank you very much, brother. Really appreciate it. I also need to shout out a couple people. James, uh, thank you very much for donating yes or Thursday. Appreciate it. Also, Leaf, I hope this wasn't an accidental donation. It's kind of a weird one, but this is a huge $111 donation and 11. Uh, I don't understand the message that was sent with it, so hopefully it was for me and not for somebody else. But thank you very much. Those are some huge donations, guys. Uh James with $25 donation as well. Thank you guys very much. Uh those were on the uh cash app through through Twitter. Really nice of you guys, man. Appreciate it. Okay. Um so I'm going to replay that part about the Casmir wall one more time because where do we get negative energy? Because there are little few little things like, well, I'm going to need some negative energy here. Where am I going to get some negative energy? Well, in some sense the casmir effect is actually considered a negative energy thing. So, okay, maybe I want to have to have casmir walls around my my wormhole. And so, uh we see the mathematics of it uh can predict that if general relativity is right, I mean this is enough to make some people say h general relativity must be wrong if it predicts that. And there are some other models that you know more or less match general relativity. So then so if we have a casual wall and and the part he says right there I I like as well at the end where he says this makes some people think that maybe general relativity is wrong because it's so weird is that general relativity Einstein's equations say that we can bend spaceime and bending space bends time and we can actually make a wormhole. It's a literal mathematical solution to Einstein's general relativity. And this is where people then go like that's weird is that you know can can general relativity be correct if it says that we can make a wormhole. General relativity is correct I think uh you know and so this is where you know I think that the mainstream physicists where they struggle with the concept that we can do some of this because it seems so magical. But that's what spacetime is. It's magical. And I even stuff like time dilation shows us that, you know, general relativity holds up. Okay. And I think there's more than one way to accomplish the the negative energy in general, but the Casmir effect is a very interesting one. So let's go back to this Casmir effect paper or this is just like a news article. Oh, what? That's not it. I'm going to show it like this. What happens if you take two mirrors and arrange them so they're facing each other in empty space? Your first reaction may be nothing at all. In fact, both mirrors are mutually attracted to each other by a simple presence of the vacuum. This startling phenomena was first predicted in 1948 by the Dutch theoretical physicist Hendrickk Casemir. Wally was working on the Philips Research Laboratories in Einhovven of all things on collidal solutions. The phenomenon is now dubbed the casemir effect while the force between the mirrors is known as the Casemir force. So when we're talking about a mirror, generally they're talking about a perfectly conductive surface. And in recent years, they were able to show that you don't need to necessarily have a perfectly conductive surface to be able to pull it off either. Some people have speculated in fact that if you use certain metamaterials or certain materials that you can actually change the properties of the effect so that even it could repulse instead of pulling together. Pretty interesting. Um okay so let's say although the kasmir force is completely counterintuitive is actually well understood in the days of classical mechanics the idea of the vacuum was simple the vacuum was what rem rema remained if you emptied out a container of all of its particles and lowered the temperature to absolute zero. The arrival of quantum mechanics however has completely changed our notion of the vacuum. All fields in particular electromagnetic fields have fluctuations. In other words, at any given moment, their actual value varies around a constant mean value. Even a perfect vacuum at absolute zero has fluctuating fields known as the vacuum fluctuations. These are the zero point fluctuations. The meaning of energy uh the meaning the mean energy of which corresponds to half the energy of a photon. However, the vacuum fluctuations are not some abstraction of a physicist's mind. They have an observable consequences that can be directly visualized in experiments on a microscopic scale. For example, an atom in an excited state will not remain there indefinitely long but will return to its grounded state by simultaneously or spontaneously emitting a photon. This phenomenon is a consequence of the vacuum fluctuations. Imagine holding a pencil upright on the end of your finger. It will stay there if your hand is perfectly stable and nothing perturbs the equilibrium. But the slightest pertubation will make the the pencil fall in more or less a stable equilibrium position. Similarly, similarly the vacuum fluctuations cause an excited atom to fall to its grounded state. Okay. Um while the casmir force is too small to be observed for mirrors that are several meters apart, it can be measured if the mirrors are within microns of each other. For example, two mirrors with an area of 1 centimeter separated by distance of one was this millimeter or something I forget have an attractive casmir force of about 10 to the minus 7 roughly the weight of a water droplet that is half a millimeter in diameter. Although this force may appear to be small at distances below a micrometer the casmir force becomes the strongest force between two neutral objects. Indeed, separations of 10 nanometers about 100 times the size of an atom, the kasmir force produces equivalent of one atmosphere of pressure. So even though this force is weak at long distances, the closer they get together, this force becomes extremely powerful, which is why it has a relationship to the Vanderwal's force. The Vanderwal's force would say uh that it's the force between two subatomic particles becomes very powerful. And now this is where we can start to realize that there's an association or connection between gravity and electrostatics. In fact, they may be one and the same thing. Uh what did vertible genius say? We need to figure out transition to a new tech reality without creating a socioeconomic collapse. Yeah. Yeah, you're starting to get a little bit bigger in terms of the thoughts, but yes, you're right. Okay. Um, let's go to actually I think that's probably good enough for this one. Uh, and I think then they talk about like using a pendulum and some other like advances that they took to the Casmir effect. Um, now this one is another longer explanation, but I think there was some parts on here that I wanted to take a look at. Um, oh yeah, here we go. Actually, we may just skip this. Okay. Attractive and repulsive forces are not the only two kinds of forces produced by the kasm effect. In the 1970s, researchers realized that when the materials that make up the plates were optically uh anastropic, they would generate a torque with respect to each other. That's because the total free energy, which normally depends on the separation between the two parallel plates, also depends on the angle that defines their relative orientation. The conceptually obvious way to demonstrate the effect would be to rotate two uh Buyer fringent crystals relative to each other and measure the torque as a function of the distance between the crystals. But the difficulty of keeping two large parallel plates complicates the measurement as does the presence of dust and the surface roughness. Uh Monday's group attacked the problem more cleverly by replacing one of the bif fridge plates with a liquid crystal. Um okay well this this some of this stuff's going to be a little too complicated for me. Oh here we go. Okay. No, we do want to read this. Those experimental and theoretical results are more than just demonstrations. They point to a future with work in which the casmir force can be used to manipulate nanocale objects. In MEMS devices, high surfaceto volume ratios often result in unwanted stiction that could be mitigated with a repulsive casmir interaction. What's more, by producing attractive and repulsive forces and torque at the nanocale, one can create, at least conceptually, a motor tractor beam for moving quantum dots, nanowires, bacteria, viruses, and other minuscule objects. In the dynamic casemir effect CCE, photons are created by a rapid change in a system parameter such as an electromagnetic boundary condition. For example, a mirror in an optical cavity moving at a rapid fre rap rapidly at a frequency f generates pairs of photons with frequency f / two from the vacuum. Moving a a mirror at relativistic speeds is no mean feat and researchers have relied on changing another system parameter such as the index of refraction. Instead, the effect has been seen in superconducting surf circuits, a Josephson metamaterial, a Bose Einstein condensate, and photonic crystal fibers. Now, that you probably want to you want to be paying attention to. How is this related to the static casmir effect? Imagine a mirror moving slowly. The quantum fluctuations can easily keep up with the mirror and their energy stored in the modes of a cavity. Cavity is just an area can give rise to an attractive repulsive forces. If the mirror is accelerated to relativistic speed, the virtual photons that pop into existence get separated from their partners and produce real photon pairs. The dynamic analog is a way to essentially mine the fluctuations by stripping photons from the pairs. In the static casmir effect, the fluctuation produce a force. In the DCE, dynamic casmir effect, they produce photons. So, that's sweet as hell, guys. So, what's going on right there? Uh, imagine this. Okay, so you've got you've got mirrors here and you've got something moving at the speed of light, a photon. It's moving at the speed of light. Let's say it's resonating back and forth at the speed of light. So, you've got two mirrors, so it's just bouncing back and forth. What if the mirrors are moving so fast that it's actually some proportion to the speed of light itself? So fast that by the time this mirror b this photon bounces off this mirror, now the mirror's on the other side when it hits the back of the now it's seeing the same mirror again. If you're actually doing this, it seems like this is a way where you can literally just extract photons from the vacuum. Something from nothing. you can take those virtual photons, you can turn them into real usable photons. That to me is very exciting and that's what the dynamic hazmir effect shows. So that's going to get into our next paper here. Um just want to see if we want to look at this. We might come back to this, but I think now we're going to switch over to the Casmir effect paper. Okay. So now observation of the dynamical casmir effect in a superconducting circuit. Very nice. Oh uh sorry is there hey Billy. Nice to see you brother. For some reason some of these comments are getting messed up in my list here. Okay, so one of the most surprising predictions of modern quantum theory is that the vacuum of space is not empty. In fact, quantum theory predicts that with teams of virtual particles fitting in and out of exist flitting in and out of existence. While initially a curiosity, it was quickly realized these vacuum fluctuations have measurable consequences. For instance, producing a lamb shift of the atomic spectrum and modifying the magnetic moment of the electron. This type of renormalization due to the vacuum fluctuations is now central to our understanding of nature. However, these effects provide indirect evidence for the existence of quantum fluctuations. From early on, it was discussed if it might be possible to more directly observe the virtual particles that compose the quantum the quantum vacuum. 40 years ago, Moore suggested a mirror undergoing relativistic motion could convert virtual photons into direct observable real photons. The effect this effect was later named a dynamical kasmir effect using a superconducting circuit. We have observed the DCE for the first time. The circuit consists of a co-planer transmission line with an electrical length that can be charged at a few% of the speed of light. The length is changed by modulating the inductance of a superconducting quantum interference device squid. That's what they call superconducting quantum interference device squid at high frequency. In addition to observing the creation of real photons, we observe a two- mode squeezing of emitted radiation which is the signature of the quantum character of the uh of the generation process. So I'll pull this up real quick so you can take a look. So this paper is pretty big. Uh, shout out to Andrew K or Cot or Kate. I don't know how you say his last name. Uh, but he got excited when he saw this. I direct messaged him a little bit because I knew he knew about superconductors. And whenever I see superconductors, I get really excited because s the things that keep coming up time and time and time again. Casmir effect, superconductors. So definitely seems really important. Okay. Um, the part that I want to look at here. Sorry, I'm trying to remember which part. Okay. So, basically they say, oh, where's the part where 1 / V? Okay, right here. If we consider a literal experiment of moving a physical mirror near the speed of light, we quickly see that the experiment is not feasible. So trying to move the mirror at the speed we need to is not feasible. So we need another way to do it. So Bragio at all considered the case of moving a typical microwave mirror in an oscillating motion at a frequency of 2 gigahertz with a displacement of 1 nanometer. This produced a velocity ratio of only uh 10 the minus 7. It's very very very small with an expected photon production of approximately just one per day. That's very little. We need something much higher than that. Nevertheless, it requires an input mechanical power of 100 megawws while at the same time the system would need to be cooled to 20 microcalvin. So basically absolute zero to ensure that the electromagnetic field is in its vacuum state. These difficulties have led to a number of alternative proposals for instance utilizing surface acoustic waves nanomechanical resonators or by modulating the electrical properties of the cavities. Here we investigate one such proposal using a superconducting circuit. Uh basically the squid at the frequencies studied here. The squid acts as a parameter inductor whose values can be tuned by applying a magnetic flux through the squid loop. When placed at the end of the transmission line, this squid can then be used to change the line's boundary condition. As it said before, we need to change the boundary conditions. That's the same as having our mirrors rotate around. In previous work, they would show that this tuning can be done on very short time scales. The change in inductance can be described as a change in the electrical length of the transmission line. In fact provides the same time dependent boundary condition as the idealized moving mirror. So basically this is just replacing your moving mirror. In the same way as for the mirror, the boundary condition is enforced by screening currents that flow through the squid. Unlike the mirror, the effective velocity of the boundary defines the rate of change of the electrical length and it can be very large approaching 0.0 05. So compare the two numbers. Up here it was 10 to the minus 7. That means there's seven zeros before the 10. Here there's just one zero before the five. So this is like how many magnitudes? Six orders of magnitudes more powerful for a 10% modulation of the squid inductance. The photon production rate is therefore predicted to be several orders of magnitude larger than other systems. So right here, we're not talking about amplification. We're talking this is a whole new scale of being able to produce photons. The old one was producing one photon per day. I don't know how many photons this would produce, but a shitload compared to that. Shitload. Okay. Uh I don't know enough about lamb shift, but I'm going to have to look into that for sure as well. Okay. Um now this is the other part that I wanted to read. So it's really just the next part. Quantum theory allows us to make more detailed predictions than just photons that will simply produce if the boundary is driven sinocidally at an angular frequency of WD equals 2 pi f to the d f I think is frequency w I'm not sure then it is predicted that photons will be produced in pairs such that their frequencies oh fre that's the frequency uh sum to the drive frequency i.e We expect WD= W1 + W2. Oh, interesting. Huh. This pair wise production implies that the electromagnetic fields at these frequencies symmetric around the frequency the drive frequency divided by two should be correlated. In detail, we can predict that the field should exhibit what is known as a two mode squeezing. These correlations are a signature of the two photon nature of the photon generation process. Okay guys, I I got to switch to another video right now because right now I can't stop thinking about the MH370 video. Why? Cuz look at this video. Is that what's happening here? These these orbs are moving around the plane in a cytoidal pattern. If if they're grafted out, they're moving in a sinocidal pattern. And this is basically saying that if you move them in a cinoscidal pattern, then the drive frequency is the combination of the individual frequencies. And is this squeezing the vacuum exactly the way on a on a macroscopic scale? Is that what this is? Also, there's just it's literally impossible for this video to be fake. Just there unless a PhD physicist with a understanding of quantum mechanics uh made this video somehow, then the video has to be real. science is too accurate to quantum mechanics. There's no random ch no random student accidentally made videos with orbs moving in uh quantum uh dynamic kasmir effect quantum uh mechanical way just no chance. So look at the orbs the way they're spinning right here. And then when they start to converge, this is where, you know, I think it's a combination of the Casmir effect and Kulum's law in terms of the squeezing effect that they're applying on the the vacuum state. So, in my opinion, there's no doubt they're engineering the vacuum right here around the plane. And I think this paper explains it because if you're making a kasmir, some type of cavity or a kazmir wall, then isn't that what this looks like they're doing? They're making a casemir wall around this plane. It's not even an issue of uh editing software or any of that other stuff. It's just literally a matter of the science is too the science is too complex for this to be fake. You can ignore everything else. You can ignore all aspects of you know how much visual effects expertise you'd have. There's not enough people on the entire planet that know what this how this science works. There's not even enough on the entire planet. And the number of them that are actual VFX experts that come up with this, zero. Just zero. Certainly not some student that did this in their backyard in two hours or whatever [ __ ] these morons keep posting. No [ __ ] chance at all. 0.0% chance. Uh this is definitely some type of super weapon that we are hiding from the world. Um based on kasmir effects. And then I'm going to just one other thing I want to show real quick is I want to show the I want to show the squeezing part here again because right here now we have a much better idea of what's going on right here. So what we're seeing right here is we're seeing this squeezing effect of the vacuum. So somehow they're creating some type of casmir wall around the the plane and then that's able to produce I don't even know if you have to produce like a thick wall like just a shell a thin shell of a kasmir cavity can probably displace whatever's inside of it and then that's how you get around the energy requirements when when pudof says you only need a little bit of negative energy and you can use something like the dynamic kazmir effects like look at how to squeeze in like that. That's how they're able to do that. And they just have to keep it open long enough for the plane to go through it. And then relativistically, the plane's going to appear instantly on the other side. I would love to see the other side of this. I would love to see what happens on the other side. I bet it's [ __ ] crazy. Anyway, okay, let's go back. Okay. Um, okay. The rest of this is a lot of math here and the boundary conditions and they show some equations and here's a circuit as well if you want to see it in terms of how it how it works. I'm not my engineering is not quite up to par enough to be able to explain the circuits and stuff for you guys. Yeah, just for the record, there's 0% chance those videos are fake. Literally 0%. If any of making those videos was easy, then there'd already be a dozen people who have remade the videos. You can literally just copy the existing videos. Nobody's even come remotely close to making the videos. Nobody at all has even been able to make the orbs look even remotely realistic compared to the original. Like, not even remotely. Even on the best satellite video recreation where they just copied like everything they could possibly copy, they can't even get the orb to come flying in correctly. the very first orbit that comes in, they can't even recreate that, let alone everything else because it's very, very, very difficult to recreate real relativistic motion accurately scaled down. Extremely difficult. A lot of people really, really, really overestimate their abilities. At the end of the day, it's a year later and nobody was able to recreate those videos. Nobody. Not even the corridor crew could recreate them. Corridor Crew couldn't even recreate five seconds of the drone video. They couldn't even recreate one second of the drone video. That should give you some ideas that a major YouTube studio with like six million followers couldn't even recreate one second of the drone video, even with something to copy. So, sorry to burst your bubble, guys. And oh, by the way, the people that hoax the video would have had less than 72 days maximum to make the videos. That's the maximum amount if they started the very moment the plane disappeared. No chance, brothers. No chance. I mean, it's cool if people want to believe and uh that, you know, somehow those videos are fake. I really don't care. But I wouldn't be teaching quantum mechanics right now if those videos were fake. Look at it like that. We're going to be teaching real quantum mechanics if those videos are fake. Uh, okay. So, this goes in the math. You guys can check out some of that if you want. I posted a link to the paper on my Twitter channel. Uh, I'm just going to go to the last part here. It says, "In conclusion, we observe broadband generation of microwave photons in an open transmission line with a periodically modulated boundary condition. The emitted photons exhibit two mode squeezing correlations, which are characteristic of photons generated in correlated pairs. Taken together, we believe these results represent the first experimental observation of the dynamic kasmir effect. Why is this so exciting? This is so exciting for two reasons. One, it shows that the kasmir effect can be engineered. Second, it shows that we can extract something straight out of nothing. And it shows that there must be energy in the vacuum. Show this to me proves the ether is real. The ether is real. There's energy out there. We can extract it. They're talking about literally just pulling photons out of nowhere with this paper. And then the question is, well, can we use stuff like cold fusion to produce elements out of nowhere? Or can we engineer this a step further to be able to just be able to produce elements? Like literally just here's hydrogen out of nowhere. I think the answer is yes. I think that's probably well beyond what we have in the public science right now, but I think it's absolutely possible. We'll see. Okay. Now I want to switch over and I want to go to a video. This video is Garrett Modell and this is him talking about his casmmeir cavities. Now if you look at the design of the dynamic casmir effect compared to Garrett Modell's casemir cavities patent very similar. He is a super or a semiconducting uh plate an insulator and another semiconducting plate and then he has a cavity above that. And the idea is that you're going to trap your electrons to create an energy differential, a pressure differential. At least that's my understanding. But we're going to hear it from his own words and we're going to hear it from him. The reason why I love this is I want something that's solid state that can be micro can be miniaturaturized that we can use to extract energy or to create a negative energy uh effect because all this stuff is connected. We can then use that. We can engineer it to produce energy from the vacuum indefinitely. Uh or we can use it to uh um you know make a negative energy type effect, laser, weapon, whatever the hell we want to call it. Also, one more thing. Where's my other paper? Uh [ __ ] Where's the one by forward I had? Uh [ __ ] Well, there was another paper. Oh, here it is. Okay. Okay, I found it. Okay. Now, I asked some people about this paper here. Apparent endless extraction of the energy from the vacuum by cyclical manipulation of kasmir cavity dimensions. This is by Robert Forward. Now forward is the one who everybody's been referencing in the extraction of energy using the kasmir effect. So this is who Eric Davis how pudof basically everybody has been mentioning this idea of what forward had speculated. Now I talked to some people about this because I was like well how is this not it? Apparently there was some like this caused a big stir when this paper was published. I think it was like 1999 or 2000, somewhere in that range, maybe 2001. And some people did some formal responses to claim that it was conserving energy. So that this was technically not extracting energy. Um, and then I think that part of the reason why people have built on it is because uh, you know, maybe there's ways around those reputations of this, but this is part of the reason why I haven't promoted this as the absolute solution to what we've been looking for. Because I mean, you look at the header here and it's basically boom, there it is. This is on the NASA website by the way guys. So um I'm just going to read the abstract and then we're going to go back to Garrick Modell because this is what Modell is trying to do. He's trying to use CAS casmir cavities for cyclical manipulation extraction of energy of the vacuum. So it seems like Modell saw this and then was like oh I'm going to try to see if I can figure this out. What was uh say old laser printers have good mirrors in them? Huh? uh maybe I think you can't use mirrors for this because there you can't increase the speed high enough to be uh significant percentage of the speed of light takes too much energy. The other thing you notice from the other paper is that you have to cool the semiconductors or the the superconductors or semiconductors whatever and it takes a lot of energy to cool them as well. This is why room temperature superconductor metamaterials will change the game as well because if you get rid of that energy requirement now you can really start to break stuff. So this is part of the reason why in my opinion they're definitely suppressing like LK99 and other uh room temperature seconductor metamaterials because it'll allow us to just be able to engineer crazy stuff without the need for a lot of the excess energy that we have to put in. Okay, the abstract here is in 1893, Amborn and Wolfim produced plots of energy density of the quantum mechanical electromagnetic fluctuations in a volume of vacuum bounded by perfectly conducting walls. So you can imagine a mirror or superconductor in the shape of a rectangular cavity of dimensions A1, a2 and a3 uh as a function of the ratios of a2 / a1 and a3 divided by a1. So I think basically saying the square if I could be if I'm correct. Uh portions of these plots are double valued in that they allow rectangular cavities with the same value of a2 / a1 but different values of a3 divided by a1 to have the same total energy. Using these double valued regions of the plots, I show that it is possible to define a casmir vacuum energy extraction cycle which apparently would allow for endless extraction of energy from the vacuum in a casemir cavity by cyclic manipulation of the casemir cavity dimensions. So I guess what he I think what he was trying to say here is you actually make a rectangle and then you manipulate. You have your rectangle like change like this and that that theoretically would allow for constant extraction. But I think then some people came in and said no this is still going to conserve uh momentum or conserve energy. So therefore you're not getting excess energy out of it. But if there's ways around that then maybe that's maybe there's some there's something there guys. Maybe there's something there. Okay. Um, man, why is my thing? Okay. So, let's listen to my boy here. It's my boy Blue Garrick modal. He's going to describe it in his own words here. And by the way, Garrett Modal, he's a PhD physicist. He's a professor uh I forget where he's a professor at. Professor Emer uh Emmeritus at of photonics and quantum engineering at University of Colorado. So basically we're we're now on the level of uh quantum quantum mechanics PhD professors at this point. Chad, we're going to be talking about zero point energy. And I know it's a phrase that is commonly heard these uh while I'm going to let this play for a second. Hopefully I don't get whatever the YouTube [ __ ] does to me. I'm going to make a quick martini, but I'm still listening in here as well. Oh, what? Ernie says something. I started as an engineer in electrical electronics and mechanical engineering. We can do it. Laser mirrors, crystal filters, electro electritic capacitor walls, filters, and store energy, cool energy, NASA. Yes. Yeah. There's there's other ways to pull it off for sure. And there's also like when we were reading before about like crystals and stuff like that. I just haven't gotten to that part yet, guys. So truth is I I don't claim to be any kind of expert. I'm just trying to catch up as much as I can. Uh I read three scientific papers today. That's about the most I can do in one day. We'll see. Uh okay. I guarantee there's ways to pull this off though. Really what I want to do is I want to inspire the audience here, everybody who's listening and people are watching this later on for you guys to figure out like ways to break it, you know? So I often talk about the magic cards back here. And in Magic Cards, you're not just trying to make a good deck. A good deck is great in Magic Cards. You know, you make a good deck and you win, you know, uh, 55% of your games, that's considered good. When you make a deck that breaks the system, breaks the rules, that back that wins on a a dimension that other people aren't even playing on, that's where you start to get like win rates of like 75 80%. That's what we're looking for. We're looking for the deck that breaks the rules. And there's definitely ways to pull it off. There's probably more than one way to pull it off. So, I want you guys to be imaginative. Use this information about Kazmir and 0 point energy. And I want you guys to be the next Teslas of the world and geniuses that are out there. I don't want to, guys. I don't want to live in a [ __ ] world where we got to live with this [ __ ] that we deal with every day. I want to live in Star Trek world. So, I'm depending on you guys to get us there. Okay. Hey, Amanda. Welcome. Here we go. these days in the culture. But my best guess is that probably 50% of our audience won't know exactly what zero point energy is. So why don't we begin by defining it? So zero point energy is a strange phenomenon that was developed the the concept was developed in the early 20th century first by plank and then by the people who uh uh furthered quantum mechanics and the the idea is that um and it ultimately it comes from the uncertainty principle which says that you cannot measure uh two linked parameters s to absolute precision at the same time. So for example, you can't measure the position and the velocity of a particle to absolute precision at the same time. So if the particle were standing completely still, then that would mean that you did know everything about it. The end result is that nothing can stand still. So everything wiggles. All uh stuff wiggles. Everything's got this ground state energy that wiggles. And not only does uh stuff wiggle, but space itself does too in the sense that there are always electromagnetic uh um oscillations uh electromagnetic fluctuations that come in and out of existence throughout all space. And so this strange phenomenon has been the uh ground state in quantum mechanics. Uh but it's generally considered to be a ground state that's just there. You can't really take away from it or give to it. Uh unless except for a very short period of time, you just borrow and so on. It's just there. You know, it reminds me of a a thought that's been around esoteric literature for a long time that that the universe itself is alive. Ah, okay. I thought you were going to go in in in a different direction. So, yes. I like that guys. I agree. I think the universe is alive. I don't know. That's not the direction I would have taken that conversation, but I agree. I think the universe is alive, chat. No question. Okay, here we go. It is it is uh uh conceptually that everything wiggles, everything is alive. I thought you were going to go into a discussion of the void and nothingness and that uh everything emanates out of and that's a good question is there is no such thing as nothing as well. This is something where I think uh Terren Howard is right about. There's actually a quote uh from Stephen Hawking that I'm probably going to try to post uh in the next few days or whatever. Although I don't know. I always um that he he like kind of rails against uh creationism. I think he might have been wrong on that front because we know the big bang comes from nothing. So if that's the case, then there must be a way for something to come from nothing. And I don't think that there is nothing. I think that it comes from something. And I think that the 0 point fluctuations are where all energy and matter come from. And it doesn't mean that there can't be still some uh constant amount. I mean the universe is huge. It's basically infinite in size. So with all due with respect to the our size relative to everything else, there is an infinite amount of energy out there of nothingness. And that also uh ties in with zero point energy in the vacuum because things are constantly moving in and out of the the void. Is that what you're saying? Yes. And and so as a an engineer, your interest is is this energy if if we were to try and quantify it. Yeah. The wiggling is the zitra bugong. I don't know how to spell it, but I'm going to be digging into the zitribug probably next week. Uh I may be doing some posts on it as well. I'm not really sure. Uh but that is something that I saw referenced in Halpudov's paper. Uh unifying gravity and ZPF that's based on Sakurov. So, and that's like the wiggling that's going on. The zitribu seems very relevant. It it could add up. Oh, also it's a really cool word to something quite significant. It's a huge amount of energy that's there. If one does the calculation, it turns out to be absurdly high. In in a cubic centimeter of of volume, there's enough energy to oil all the oceans. Whoa. What did we just hear right there? Booyah. I think it was Wheeler and Fineman. Am I correct on that? They're the first people that are that are attributed to that. You hear it all the time. Pudof mentions it all the time. This is something that if you guys are promoting this, you need to push it all the time. There's enough energy in just a very small area of space itself of the zero point energy to boil all the earth's oceans. So this is where the reason why that's important is that you understand how much huge amounts of energy are out there. We could we could dip into that energy and we're never going to make a difference for our practical purposes. The amount of energy you use power I'm using right now to power two lights and my computer and everything I've got going on here is infantestimally small. infant testament. It's basically nothing to take to do that. And then we've got basically an infinite reservoir just just in the space between my fingers here. There's enough energy to probably power, you know, this whole city that I'm in right now. Crazy amounts. But uh the question is, can you ever access it? Can you ever remove it? And this of course has been the quest of inventors, I should imagine, for many generations. the idea of a uh oh gosh, what would you call it? Uh I know you have technical terms for it, but there are uh the notion that you can get something out of nothing in in effect is has always defied uh inventions up up until now. I mean, maybe the atomic bomb is something of an example along those lines. Really interesting. He drops the atomic bomb reference right there, chat, because you can see the connection right away. When you think about the atomic bomb, it seems like the explosive energy is coming out of nowhere, but really it's just E= MC². So, in my opinion, I couldn't be more certain that we first figured out this science from the Manhattan project because you have atomic bomb equals MC² on one side and you have zero point energy on the other side. It's like one is energy equals mass times the speed of light squared which is huge amount of energy and the other side is where does all energy come from. If you can tap into the source and we have E= MC^2, this is where now you can amplify your nuclear weapons to infinity. You know, this is where you can create a black hole. This is why I think you can create a black hole. It has been around for a while and it's been fodder for inventors and quacks. Yeah. And the problem is it often one speaks about uh bro zero point energy is for quacks then just call me a quack. I'll take it. I'll take it all day long. I'll be in I'd love to be in the company of Hal Pudof and um Eric Davis and uh Sal PZ. If those are people are quacks then call me uh you know simp for the quacks guys. Oh also I think I missed a donation. Dominate again. There's a new Captain Disillusion video. He basically confirms MH37 view is undebunkable at 52 seconds. Watch the first. Really? Captain Dissolusion, guys. Is this real? Okay, guys. Uh, anybody who's watching here, uh, responsibility, if you're in my Discord, find this video, post that video, uh, post that link in my, uh, Discord, guys. Holy crap, that's huge, chat. Holy crap. Thank you for the donation. Holy crap, chat. Wow. I mean, I know the videos are undebunkable, but there you go. That's crazy. Okay, we're not going to watch this whole thing. Don't worry. Free energy systems. So, that is systems which get energy indefinitely out of nowhere and you just continue to obtain as much energy as you want. And at least all the physics that I'm aware of just does not agree with that. you energy must come from somewhere. It doesn't just exist. It just doesn't keep on coming from from nowhere. And so if for and so I believe often this is a misunderstanding of zero point energy even 0 point energy presumably has to come from somewhere perhaps the space itself. People might if they have a religious orientation say it it comes from God. Fair enough. But in other words, we are not able to pinpoint the source other than to say as you did earlier, the void, right? It it exists. It's a fixture of nature. And I know from our previous discussions that Okay. So, we're going to uh do we want to listen to harvesting principles? Uh it's only two minutes. Let's listen to it. In order to tap into this energy or to harvest it, one would need to apparently violate the second law of thermodynamics. So, let's talk about that. Okay, so this is important. This is why I want to listen to this part. Um, yeah, I don't see the link to the video. So, if who is that? So, Dom1 Nate, if you can give us a link, please give us a link, brother. Appreciate those donations. We definitely want to see that. I look to I don't see it on his YouTube channel. Curious though. Okay. Uh, so we're going to listen to the extraction here in the second law of thermodynamics because I've learned that we maybe don't have to violate the second law of thermodynamics. It could be more of a matter how we think about the second law of thermodynamics. That's going to be the problem. So let's see what he says. So the the second law of thermodynamics uh has a lot of different variations in how it's described, but one way of looking at it is that you can't have uh a system that's at a uniform temperature. So say ambient space all around us and continuously extract energy from that. You need a temperature difference to drive the the energy flow. Interesting. And if in fact with 0 point energy you're you're extracting it from the thermal background from just ambient space then yes it would violate the second law. But it's not clear that that's uh where 0 point energy is coming from. In fact, there's been some recent work uh just in the last actually little more than a decade uh uh theoretically and in the last few months experimentally that discusses uh quantum energy transport. So uh according to this just as one can transport information say in a quantum computer. This is really interesting because this connects the idea of quantum teleportation to extracting energy from the vacuum and I think it was hot ta that was uh in 20 early 2000s 2008 maybe that uh mentioned this because if you look up quantum teleportation I think that there's a paper that comes up about this or not a paper but an article. Hey Barry, welcome brother. From one place to another uh through uh nothingness, one can transport energy via the same mechanism. And if you can do this, that means that when we're extracting 0 point energy from one location, it's actually being transported in from somewhere else. So you're not violating any law. So we it's it's really it's just unknown. So it is that simple. You're talking about what people have called the quantum leap where a a particle and electron might move. Nobody calls it the quantum leap, guys. That was that was a TV show from one orbit to another orbit without passing through the intervening space. It is related to that. Yes. Uh it it's it's tunneling which is essent quantum mechanical tunneling is is as you say getting from one place to another without ever having been in between and and so this is yeah so the answer is so what he just said there is huge and I think that uh MF Lutter just kind of listed it is because you have to think of like when people say you're violating the second law the first thing you should say in response is what do you think the second law of thermodynamics is? A lot of people don't even know what the laws of thermodynamics are. They've just been told that you can't violate them. they don't know what they actually are. So what he said there was if you take an area you have uniform heat temperature you can't achieve over unity because you're always going to lose some energy due to the mechanical processes of extracting the energy. But in this case we're not extracting that heat energy. We're getting the energy from somewhere else outside of our system in an open system. So we're not looking at our closed system anymore. The energy is coming from up here out here or over here wherever somewhere outside of this system. And this is also the way around the first law of thermodynamics. The energy can't be created or destroyed. That's fine. We're borrowing it from somewhere else. So when you look at it from that lens, a different lens, then we're not violating the first or second laws anymore. That's really important. So now I'm not going to have to say that we're violating the fir the laws of thermodynamics. Well established principle. But this is why I say we have to at least reimagine the laws of thermodynamics because traditionally you had to say, okay, well then we have to redefine it a little bit, right? quantum physics. Yes, it is. So, what you're suggesting and if I understand it correctly, you've built many many devices that are able to at least at a very small scale harvest energy in this fashion. We we uh my lab has been building quantum tunneling devices for decades, just not for zero point energy. Okay? And uh that's a good So, look at this right here. You can see this is his upper electrode. So it's a semiconductor insulator semiconductor quantum tunneling through an insulator. Energy flow is balanced. Therefore 0 point energy cannot be harvested. So I'm going to switch over because now he's talking about the idea of a kasmir cavity. Uh maybe we'll listen to this. We'll probably will there's another video that we're going to watch here. We'll just skip past the parts we've already explained. We've also in our previous discussions leading up to this interview talked about the importance of the case cavity. Sorry. uh and and I know this is central to your own interest in harvesting 0oint energy. So once again we need to define it for our viewers. Good. So in 1948, Hendrickk Casemir uh thought of story about how they went for a walk together where all the time. If you have two closely spaced mirrors, then those mirror what's happening in a casemir cavity is you've got a restricted number of wavelengths outside. You've got all the same thing. Okay, I'm switching over to the other video. Um, where is the other video? Oh, I have it. Uh, I forgot this is where I have it pulled up here. I downloaded it so we don't get stuck. Problem now is I don't know where the breaking point. Tell you about a scientific journey that my lab and I have been on for the last couple of years in developing. We're going to skip through some of this as well. This is called unlocking zero point energy by Modell. Unlocking 0 energy. It was posted on August 1st, uh, 2021, 3 years ago. Okay. So, that's what we're looking at here. If you want to see it yourself, I'm going to skip through the intro. Uh, I'm going to skip through the background electromagnetic fields. We're going to start about 10 minutes into this. So, let's go about here. Here we go. Right here is where we're going to start. Point energy are very short-lived. They're extremely short-lived. So, how do we get around this? Can we modify the ground state so that it's not uniform everywhere? Well, it turns out that for zero point energy, you actually can. uh and that is that the vacuum state depends upon the structure around it. In other words, it's geometry dependent. Uh so this would be as if you could have an ocean with a flat level and then one region of the ocean would just have a a a dent in it, a well in it. So I love this example that he gives right here because you can imagine spacetime and you imagine just sucking out an area of spaceime. You suck out the area of spaceime and now you're going to move that somewhere else. It's kind of what he's explaining right here, guys. Oh, if that was your birthday, Jessica, happy birthday two days ago. Sorry we missed it. Happy belated birthday. is lower than everywhere else. The wrong video can do this and it's been demonstrated. Oh, and so the other thing too is that Michael Strat says is right when you can detect certain types of free energy devices. Yeah, they can detect them. The reason why they can detect them is because they are producing gravity effects and if you have a high frequency gravitational wave generator, you can detect any type of gravity wave that's being produced even at a very small scale. This is why they can find them. I'm almost 100% sure Antarctica is has a high frequency gravitational wave generator as well with a zero point energy. The way has to do with a a structure called a casemir cavity. So in 1948 uh the physicist Casemir was doing some mathematical analysis on having two closely spaced mirrors and he said if okay I know this is somewhat repetitious but in about 2 minutes he's going to get to the engineering of the kasmir cavity that he's done. By the way he has a patent uh Garrett Moto has a patent for this that's been out there since like 2005. So he's been working on this extraction of energy from the vacuum for a long time. He's not a not a newbie to this. There are two closely spaced mirrors. That means that you'll only be able to have a certain number of modes of wavelengths within this closely spaced casmir cavity. But outside you could have all sorts of wavelengths. So this is think about it like a guitar. So a guitar string. Yes, this is also the reason why these are these crafts can float through the water. Here's something else. Uh this is like in the middle of the stream, but I want to drop this, which is how can these crafts be transmedium because they are just flowing straight through solid matter. They are just going straight through it. Remember in Salvador PZ's uh the interview with him, I asked him, can you go through solid matter with this? and he got real sketch sus about it. Well, because when you're at this level where you're like manipulating gravity and spacetime itself, you're just bending everything around you. You're like making a bubble in spaceime. So everything else is like apart, but it's not really getting pushed apart. There's a smoke ring example that I'm going to probably show with Stan Deo where it looks like when you do this type of effect, like you just go straight through the smoke and nothing is disturbed. This is the reason why in the in the video, why do the clouds not blow away? Why do the clouds not get sucked in or blow away? Because this is a gravitational effect that we're seeing, a manipulation of the engineering of spaceime itself. And when you do that, there is no shock wave. That's not how that works. You just literally are tunneling right through solid matter or in the case of gas. It doesn't matter what it is. It can be gas. It can be water. It can be maybe even solid. Because when you boil it right down and you get to the subatomic level, most stuff is 99% free space. It just looks like we're solid. But if you were to go to the atomic level, you're going to see mostly emptiness. And that's the level gravity is working on. The zitri gong. Neat, huh? Is pegged on both ends. And therefore, it just vibrates. By the way, that's me pushing it as far as I could push it, chat. So hopefully you appreciated that at a fundamental frequency and its harmonics. Same thing with zero point energy uh inside a casmir cavity uh all wavelengths that don't meet the appropriate boundary conditions are suppressed. Another way of looking at it is that it suppresses all long wavelengths. So any wavelength greater than twice the spacing of the cavity ends up being suppressed and other wavelengths are permitted. So Casemir came up with this concept and one of the predictions he made is that uh because there'd be more zero point energy radiation outside the cavity than inside. This is a good point on the smoke trails, but the effect that we're seeing happen on the plane is not necessarily the same effect that the orbs are having happening as well. Two different effects that are closely related. So it doesn't necessarily mean that they wouldn't displace the smoke. Um, it could still be that whatever the orbs are doing with their field around them is not exactly the same as the wormhole. But the wormhole itself, that's the reason why you're not seeing shock wave. That's why you're not seeing a black hole where you're seeing stuff get sucked in is it's fundamentally equivalent to just warping space itself and then space is reverting back to its original form right after that. So, at the end of the day, nothing has actually moved relative to where it was before. Pretty damn weird, honestly. But that's what quantum stuff is. weird. There'd be a radiation pressure that would push the cavity walls together and these two plates would be pulled together. So, he predicted this in 1948 and it wasn't for several decades and really until the end of the 20th century that it was measured accurately and he was right. And so, these kazmir cavities do in fact have plates that are attracted together. This only happens for very very closely spaced plates and it happens only uh it's it's it's a fairly small force. So these plates need to be less than a micron apart a millionth of a meter and the force is tiny. Okay. So uh we now say that yes we can modify the ground state. Okay. So one person says kasmir effects act at such a small distance they can't move an airplane. Well, we just talked about how to engineer them to make them increase significantly. The closer the plates get, the more powerful the effect. So then it simply becomes a matter of how you engineer it to amplify the effect. Again, this is how all stuff works, guys. Like the moment you've proven something is possible, an effect is possible, then the question is how do you engineer it to its full potential? I know for sure that it can be amplified up. So if you're the type of person that says, "Oh, it's it's too small. there's nothing we can possibly do that. That's the same closed-minded mentality that people had when they said that uh voices can't transmit through wires, that telephones are not possible. Like literally, there's direct quotes saying that like only crazy people, and I'm paraphrasing, only crazy people think that voices could be transmitted through wires. We don't even need wires. We don't even need wires to transmit voice. They just happen now. So, if you're sitting out there thinking, "Oh, well, the Casmir effect's cool, but you can't possibly do anything with it." You are literally the same type of brain deadad idiot who thought that we couldn't transmit voice through wires. I just want to put that in perspective for you. 100% this will allow us to create a wormhole. I mean, generally speaking, but then we have the problem of equilibrium and the violation of the second law in trying to harvest zero point energy. So, is there some way around it? Is there something we can do to get around it? Well, by answering the third, the wall, the orbs are not necessarily made of cas. It's not a material that they're made of. That's not how we're what we're trying to do is we're trying to get the effect. The effect is a negative energy pressure differential effect. So if we can create this effect using some type of superconducting mechanism, superconductor is a movement of electrons freely, a macroscopic quantum effect. Then perhaps we can make a bubble. All we need to be able to do is make a bubble. And if that bubble is of negative energy, then what's going to happen? It's going to get shot off somewhere. This the way I imagine is you make an extremely thin soap bubble that has its own eddiurrens of a superconducting effect and you create inside of that a casemir void or maybe you create a shell where you have two thin layer bubbles and then you have a very very very tiny area between them that creates your kasmir effect. That could be another way to potentially pull it off. Not entirely sure because I don't know how to exactly engineer a wormhole, but that's what I'm imagining here. But it's not a situation where it's a hard material because with the orbs, what we see is they're creating a field, a field, electromagnetic field. Now, what did Hal Pudof say early on in the beginning of this stream? He said if you remove the electromagnetic uh 0 point fluctuations, what will happen? You will get pushed because the fluctuations behind will push you forward. So, this is where you want to think of the turkey baster. Okay, you got I wish I had a turkey baster. Maybe I'll get one for my parents. You have your turkey baster. You squeeze the turkey baster. The water shoots out, the turkey juice shoots out, the air shoots out. Same idea as the plane, instantaneous transmission, teleportation, wormhole. Third objection, maybe we'll find a way. So that has to do with extremely short-lived fluctuations. Um, so before I go there, I want to tell you about, and real quick, shout out to JK Philly. JK Philly is probably he's been on this journey with me since like the beginning. I think JK Philly got involved like a month into the investigation back in like September of last year. And I think out of everybody out there, not including the people that already understood a lot of this, he probably understands it even more than I do to some cases, but he is like way up there as well in terms of like going from where we were before to like where we are now. JK Philly fan and I have gone through like transformation. So good work JK Philly fan. Appreciate you, brother. Uh equilibrium and detail balance. So equilibrium means that everything is in harmony and there's no net motion anywhere. But there can be motion and there can be uh particles and energy moving. So for example, if we have a system that has three parts here I'm naming them labeling them A, B and C. There can be energy flow from A to B, but there is a detailed balance in which the energy flow from A to D B is exactly balanced by the energy flow from B to A. And the same thing between all the other parts of the of the uh of this system in equilibrium. And if this weren't true, what would happen? If it weren't true, then uh we might have uh a net flow. For example, if 0 point energy everywhere were absorbed by a leaf, and a leaf is a nonlinear material. And so the leaf is going to take these zero point energy fluctuations and downcon convert it into heat. And so we'd see hot spots all over the place on leaves and every other sort of nonlinear uh material within uh our universe. But we don't. Why do we not? Because there's a detail balance. In other words, whatever might be producing heat uh the the reaction also goes in the other direction and we don't. Can we break that detailed balance? And so here we come back to these extremely short-lived fluctuations. Um so this gets into the notion of again the uncertainty principle but the delta E deltaT uh that is uncertainty in energy and uncertainty in time and uh there has been proposed by a physicist Larry Ford that there's a quantum inequality and the quantum inequality says that an energy delta E may be borrowed from the quantum vacuum for a time deltat t then it has to be repaid and it has to be repaid with interest. So how long can you borrow the energy and how much energy? Well, if it obeys the uncertainty principle and it's not clear it does exactly but so this is really interesting because the idea here is is there a way around borrowing the energy and the way is actually pretty straightforward. We're borrowing it from the source. So technically we are extracting that energy and we're not really giving it back but it's so infantestimally small that there's no negative consequence. But if it does that would mean we could borrow say a photon a red light photon's worth of energy for a tenth of a fmptoc. Now fmptocond is extremely small. It's a 0. He's about to get to the good stuff. 15 zeros one6. That's an extremely short time. But during that time, we can violate the second the first law of thermodynamics. Okay, that was really interesting. We said is that they're there for a fto second. Why is that important guys? Why is phentoc so important? Well, how about because somebody just won a Nobel Prize last year for coming up with an atosc laser, which is 10 to the minus 18. Because if we can make a laser that's faster than how quick we need to be to extract the energy from the vacuum, then perhaps that's our mechanism for being able to pull photons pull energy directly from the vacuum and not give it back because we can go faster than how long those photon those virtual particles have fluctuated into existence. Hm. Very interesting. And maybe that's the secret too to how fast we have to spin our mirrors or our dynamic casmir effect in order to extract the energy. Uh here's the paper that uh the piece I was talking about earlier. Jessica pulled it out. Scientists use quantum mechanics to pull energy out of nothing. This is the one that mentions quantum teleportation as well. So take a look at that one if you guys want. Um like all this science is pretty much new, too. Notice the dates on some of this. Like 2023. Remember the MH370 videos were made in 2014. Most of the science didn't exist back then. Traversible wormholes didn't exist back then either. So, whoever made those videos knew more about the science than people even do now in 2024. At least lay men. That is, we can actually get energy out of nothing and we can see it, but then it's got to be returned. Yeah. I feel bad that a lot of people come from Danny Jones because that was one of the worst podcasts that I was on. Like Danny Jones literally was trying to debunk me, which was just super shitty of him in general. Uh especially because he didn't like tell me ahead of time. Uh but I do get a lot of people that come from Danny Jones because he's very popular out there. Uh so if you did come from him, what I first would recommend was check out the Redacted podcast with Clayton Morris. Uh that will get you much more up to speed. Now, if you want to know more about the science, like I've come a super long way. So I did Danny Jones before I knew anything about any of the science. That was back in October uh or early November and I knew nothing about the science. So, if you want to know more about the science, check out my most recent interview with Jim Peters. I just posted it today. That one goes way more into the science of all of this as well. Or you can check out the one I did with uh Mike Adams, the health ranger. That's another good one if you want to dig into the science. Okay. Well, if we can borrow it, could we be sneaky and could we borrow it and capture it very quickly? And if we could borrow it and capture it very quickly, then could we skirt detailed balance? And this was was what I was thinking about as I was trying to come up with a way to harvest zero point energy. And the way that I thought we should try involves uh metal insulator metal diode. So let's talk about that metal insulator diodes. So he literally is just describing the exact same thing that the dynamic kasmir effect used. Kasmir effect also used semiconductor insulator semiconductor. Interesting. Um, if you have a metal insulator, metal diode, so you've got a piece of metal, a very thin insulator, and this is going to be a couple of one. I'm just going to Jackie, I just I want to address Jackie for a second because I've seen Jackie spamming my um my YouTube comments with like 10 comments each. I get the impression that Jackie is relatively smart when it comes to mainstream uh physics. Unfortunately, when it comes to understanding zero point energy, you're essentially the equivalent of a 5-year-old. Um, we are not accelerating the plane. The fact that you don't even understand that we're not accelerating the object itself shows that you don't even understand the fundamentals of what we're discussing. We're talking about engineering the vacuum itself. So if you're confused about this, I suggest checking out what Einstein Rosen wormhole bridge Einstein Rosen bridge is because it doesn't have to do with moving the specific object. All you need to do is engineer the vacuum, not the object, the vacuum. You need to be thinking about it correctly. This is the reason why all your questions are wrong, why all your interpretations are incorrect, is because you don't understand the fundamentals. And until you understand the fundamentals, you'll never be able to understand what we're talking about here. And I'm not trying to say that to be rude. It's just a fact of the situation. So you can keep commenting on my post. I haven't removed any of your stuff. I haven't removed any of your comments. Uh but I want you to understand why you're wrong so that you can hopefully try to look at the situation in the in the correct light. And then you'll see how this all ends up working out. If not, you know, you're welcome to sit out there and be a tractor, too. I don't really care. Nanometers thick. That means about 10 interatomic distances or so thick. and then another metal you can uh excite electrons on one side and those elect so this is probably the most important part that we probably need to understand from this because this is how he's creating the energy differential or the pressure differential and I I actually don't sure I fully understand myself so I'm going to rewind like about 30 seconds here I want to listen to it again insulator metal diode so let's talk about that um if You have a metal insulator metal diode. So you've got a piece of metal a very thin insulator and this is going to be a couple of nanometers thick. That means about 10 interatomic distances or so thick. And then another metal you can uh excite electrons on one side and those electrons tunnel through uh this forbidden region of the barrier or the instrument. Okay. To get captured on the other side. I get it. First of all, thank you to Matt. Appreciate it, wherever you're at. I don't know where that donation's at, brother. There it is. So, thank you very much on the on the Matt on that donation. So, I just understood what it is. Now, this is how we're trapping them. We're exciting the electrons on one side on this side, and then they're able to jump the gap through the insulator. They jump the gap through the insulator, and now they're trapped on the other side because they're no longer in their excited state. So therefore, they can't get back over to the other side. That's pretty cool. I love that idea. And once they're captured on the other side, it's very unlikely that they'll be able to go back again. And so in this way, we might be able to very quickly capture zero point energy because this tunneling process takes place on uh takes about a phentoc or so uh to occur. And so we might be able to absorb some of that zero point energy. So I thought, okay, there's another good video we're going to look at related to the smoke ring thing because it does help to understand this. Smoke rings are much weirder than I thought. How are we going to do that? Well, let's take a look here at Okay, now it's getting spicy. Chad, here we go. Hope you're watching. This is really good. The vacuum works by unaccounted magic then. Uh, which you're not explaining. I literally explained it in my last stream. can go to the Wednesday stream. Uh Jackie, it's called 0 point fluctuations is an explanation for gravity. Explained it. If you don't understand it after that, well then you're on your own, but uh done a pretty good job of explaining it. Whether or not you can comprehend it is a different thing. The first thing you need to understand is space is not empty. We've been talking about here as well. So what happens if you make space truly empty? Think about it. Anyway, I've explained it more than more than enough. The the reality of a lot of this and this is what I've been told by the very smart and people and contacts that I have is that there are the reason why we haven't figured a lot of this out is because many people are so brainwashed by what they were taught and what they think is possible or not possible. They don't see the physics in the right light. Even very smart people don't see the physics correctly. And if you don't see the physics correctly, then you can never understand why it's possible. This is part of the reason why it's not a matter of getting the information out there. It's not a matter of saying here's the device because if people don't see the physics correctly, you can show them a working device and they will never believe it to be real because they don't understand how it's possible. Simple as that. So, it's a matter of trying to change people's perceptions of reality, so to speak, away from the way that they were incorrectly taught in school that doesn't teach any of this and change it so that they can see the way the fundamental fabric of reality really functions. 0 point fluctuations all around us all the time. Energy doesn't come from nowhere. Energy comes from the vacuum. The energy that we're seeing around us here is also not coming from the coal that's being burnt. It's coming from the fact that we've created an asymmetrical diode and that is allowing energy to be extracted from the vacuum. All energy is a negative entropy effect. um the the concept. So, we've got a base metal, thin insulator, and an upper electrode. And this upper electrode is very thin. It's so thin that if a radiation, any sort of radiation is absorbed, light is absorbed, it creates hot carriers. And these hot carriers or hot charge carriers of electrons then can uh travel through this thin upper metal electrode before they're absorbed. And then they can tunnel through or uh go over the barrier uh that that's between the upper metal electrode and the lower metal electrode. Now, if this metal insulator metal diode is just sitting out in free space, there's also going to be the opposite uh current because there'll be internally generated uh hot electrons from the same sort of 0 point energy or whatever is producing it out here and they'll cause a current to go the other direction and there'll be no net flow of current. Ah, but what happens if we do something? Now what happens if we add um to this a casmir cavity? So we're adding to this a casemir cavity on top and we Okay, so this is interesting. So we've got our semiconductor, we've got our plate and then we've got another conductor here. the electrons or what have you are being excited in the upper electrode which allows them to jump the gap and then you have a current because you have a back because now you have this gain of excess electrons. So as the buildup increases they're going to start jumping back as well is the way I understand this. And now we add a mirror at the top as well which is just another perfectly conductive surface. I guess that could be a superconductor as well. know, we just found out that a casemir cavity reduces the allowed wavelengths in this casmir cavity between these two mirrors so that there's less energy here than there would have been in free space because it restricts uh the vibrations on the guitar string if you like. And so therefore, we're now going to have less radiation coming in. we'll reduce the current going this way but perhaps the current going the other way will remain the same and in that way we might get a net flow of current from the base electrode to the upper electrode. So the actual device that we built is depicted here. That's pretty interesting man. That's really really interesting. And so the squeezing is happening because you've created your casmir cavity. So certain wavelengths can't fit in there. So you're getting a net pressure differential towards the cavity. And I guess what he's saying there is then that what that increases. I want to listen to that one more time just to make sure I understood that correctly. Is that what he's saying when you look at this here then is that you're going to get some net current bouncing back. net current meaning the the big arrow minus the small arrow lengths in this chasemir cavity between these two mirrors so that there's less energy here than there would have been in free space because it restricts uh the vibrations on the guitar string if you like and so therefore we're now going to have less radiation coming in will reduce the current going this way but perhaps the current going the other way will remain remained the same and in that way we might get a net flow of current from the base electrode to the upper electrode. So the actual device that we built that's pretty spicy. That sounds like that could be producing infinite energy. Action is like the main dude in Foundation sci-fi that starts a colony. I have no idea what that means. Hari Seldon. I didn't I didn't see that but sounds [ __ ] sounds funny. Is Foundation a TV show? I don't know. Just the fact that we've already come this far uh that we have like we're looking at a possible way to extract unlimited energy with no moving parts. Uh tells me like there there's something here guys. It's only the year 2024. If you give uh Garrett Modell here another 10 years, he's going to have it figured out and probably made it a lot more efficient as well. This is pretty this is pretty awesome. This really really excites me guys is depicted here. So this is our uh metal insulator metal device uh using nickel palladium transparent uh dialectric. It's it's too hard to make this up. So let's see if we can understand this. We only have like another five minutes of this presentation here and then we'll probably call it for tonight after that. We got through a lot of this stuff. Um and there may be other ways to engineer it too. Like this is just one way to use a casma cavity. Basically, Garrett Modell has figured out a way to break the Magikard deck. He said, "Okay, well, we're not going to use two plates. We're going to figure out another way to engineer this like using at a very small scale." Because if you look at this as well, how big does this have to be? This could be tiny. Like, could we make a microchip out of this? I think we could. Like, the insulator here, I think he's talking about being like one atomic layer thick. So, we're talking about a device that's going to be like as big as my my fingernail or smaller. A vacuum. So, we use either a polymer or a a glass as our transparent material. Oh, the cavity itself doesn't need to be air. The cav the the cavity itself can be a meta material. What if we use one of those materials that was like the ones that causes optical phase conjugation? What if we use one of those materials here? That's just an idea I just had off the top of my head. You guys remember the video about Yeah, thank you for not pandering, guys. I don't do engagement farming and pandering or any [ __ ] like that at all. I don't at all. I also don't care about how much money I make on YouTube or Twitter or any of that [ __ ] either. Makes no difference to me. The only reason why I try to increase my production quality is because I want to look nice for you guys. That's it. Anyway, I literally been thinking about stopping streaming as well because like I've learned way too much and I hate when I have to like not say exactly what I think and what I feel. Um but anyway, yeah, there you go. Um yeah, this is interesting. So I I you guys remember the video? Um, I wonder if I still have it. I kind of want to post it because I want to know what that was. Um, optical phase uh, [ __ ] I don't know. It's called optical phase conjugation, but in the optical phase conjugation video. Oh, maybe it's called phase conjugation. I don't know what the file name is. Oh, yeah. Here we go. I think it's this one. Yeah, here we go. I don't know if this is going to make a difference, but what if the material that was used in the cavity was the material they use here? What would that do? So, they cover it up with a lens, right? And then ordinary mirror, nothing happens. Now, I'm starting to see why optical phase conjugation. There's it is crystal BIO3. That's what I wanted to know. BA TiO3. Look at what BAA TIO3 does to this this um experiment here. So they covered that up with a shot glass. The the image goes away. The image is now not backwards anymore. It's just correct. Now this is a phase conjugate like type of I don't know if it's a meta material or what you call it. It's got some kind of weird refractive index or something like that. Now watch what happens when they cover it up with the shot glass. He's covering it up with the shot glass. It's covered up right now with the shot glass. There's nothing there. Wait for it. Time is going by. You can imagine the beams of light bouncing through the shot glass. What the hell? The image just appeared. Phase conjugation. This is optical phase conjugation. What you just saw right there with whatever this material is B A TIO3 just now allows it takes like how long did that take? 20 almost 20 seconds and then all of a sudden the image just appears even with the shot glass covering it up. The shot glass is not even like a perfect cylinder or anything. The image just appears. What if we use that then in this? What if that's what was in the optical cavity? What would that do? Chad, I kind of want to engineer some crazy [ __ ] now, chat. If somebody knows if I'm even on the right. Oh, Ryan probably [ __ ] knows. Ryan knows, guys. The martini is kicking in, guys. My swearing's increasing. I want Ryan to tell me what would happen. Numerous UFO narratives say that barium is constantly uh is commonly used in the craft. Yeah. Right. Yeah. Okay, you guys are starting to see the woe, right? You guys are starting to get it. Yeah, I'm glad you guys are starting to get it. Okay, good. Yeah, the barerium titanate. Now I'm sitting here wondering. Yeah, the [ __ ] I should probably post that that optical phase conjugation video again. It's the weirdest [ __ ] ever because one of the things that Dave Rossi taught us was phase conjugation is very important. And even Terrence Howard talks about phase conjugation. But what is phase conjugation and why is it so important? The optical phase conjugation is very interesting because it seems like there wouldn't be a connection to like holograms, but for some reason optical phase conjugation is used in holograms and holograms have a connection to teleportation and all this stuff we're talking about. And they use like the same experimental setups. Like it's that you look at the schematics of the experimental setups and they're like identical. And so there's some kind of connection here. ed with a a mirror. And in this way, we're making our devices and our measurement circuit uh probes current flowing between the base electrode and the upper electrode. Phase conjugate gravitation beam is a thing in Star Trek. Guys, Star Trek is apparently just a documentary. So, if it was in Star Trek, we should probably just read it like it's a manual guide at this point. Like she I'm not even [ __ ] kidding anymore. Like imagine I wonder if that's a secret here. I wonder if you put a phase conjugate type transparent thing in here if that's going to make this thing just blast off to the next level. This is a scanning electron microscope image of uh our device. They're very small. They're about a tenth of a micron on one side and a little over two ten of a micron on the other side. Oh, and no offense to Terren Howard, but we are way beyond Terren Howard when it comes to quantum mechanics. Way beyond him. He I think he's a pretty smart guy. I think he's got 50% of the stuff right. 50% of the stuff. He went too far in the woo. Uh but we're way way beyond him at this point. No offense to him. So, um this was the concept I came up with and I was working on. So convexing the lens isn't quite the same. Like phase conjugation is [ __ ] weird. Phase conjugation instead of convexing the lens. Phase conjugation is like if you look in a phase conjugate mirror, no matter where you look in the mirror, all you see is your eyeballs. It's a perfect bounce reflection directly back at the source. So therefore, no matter what you look at, even if you're trying to look at your feet, you're only going to see your eyeballs. That's why it's super weird. That's why I wonder like what if you just like cuz it's like what I imagine like breaking the Magikar deck. It's like what if you put something that breaks the system in here into this thing that we've got going on. Very weird. Holograms. I don't know about holograms moving, but holograms are neat because holograms take a two-dimensional picture and they turn into a three-dimensional environment. It's a higher order effect, second order effect. Um barerium titanates uh ceramics show an aging effect during which the dialectric constant and electromagnetical coupling factor decrease while the elastic contact and Q increase. I don't know what that means but that sounds awesome. That sounds really cool. Yo, you not you guys noticed that Ryan went real quiet chat. Ryan went real quiet. Oh, we missed it. We want to know if if this barerium titan 8's going to break this thing. Tell us the truth, Ryan. We know you know the truth. Also, dude, Project Blue Beam is definitely going to come and they're going to pull some [ __ ] alien thing. I guarantee you guys at this point. I guarantee you. Sorry, I'm way behind on the message. You guys are spamming the chat. I'm trying to catch up. Ryan, oh well, let's just listen. for quite a while and my lab tried it fertively. We were doing other projects so we really couldn't spend a lot of time with this and it looked like maybe it was working but it really wasn't very convincing. And uh finally my uh technician who's been with me for now about three decades uh Dave Daskki and he said look Garrett you really have got to give this a good try. let's dig in and really do it right. And so he and a great posttock in my lab, Ayandra Wiraody, uh worked together and tried this and they tried it with a number of different devices and they tried it with a number of different configurations and lo and behold, it actually seems to work. Let's go. Uh, so we actually got power from the vacuum. So, let me show you uh the way that we measure this. And this Do the Tootsie Roll. Do the Tootsie Roll, chat. That's what I wanted to hear. Actually extracts vac energy from the vacuum. Let's go. Let's go. Okay. Let's try to understand some graphs, chat. I'm not good with the graphs, but we're going to try measuring the current as a function of voltage. So, this is the current and this is the voltage. And we're getting out chat, teach me current and voltage real quick. Which one is this? Is this good? Is this good, chat? What does this mean? What does this mean, chat? Presumably, one of these quadrants is good. I don't know. Maybe the top right one or the top left one. Uh I don't know what this means. Chat, tell me which quadrant is good. Chat about uh in this case about 75 nanoas and it's at a a voltage of a few tenths of a millolt and or almost a tenth of a millolt. And uh the way that we can tell that we're getting power is this is the sort of current voltage measurement that's also done for solar cells. And there are four quadrants in the curve. So if your curve falls in this quadrant, as in up here, you're using power. Oh, here we go. Here we go. There it is. Right there. Uh side note, guys. Got to We got to make a side quest. Hold on. Hold on. Wait for Oh [ __ ] Wait for it. Wait for it. We're doing the Tootsie Roll chat. All in this quadrant, the second quadrant or the fourth quadrant, then you're actually producing power. And this one is using power. And in fact, our devices put out about 70 watts per square meter, which is actually not bad for little test devices. uh that's close to what a solar cell puts out which is perhaps 200 watts per square meter and uh we then did this for different cavity thicknesses. Now you know that the thinner the cavity is, the more uh modes it suppresses because the thinner the cavity is, the more the it suppresses all wavelengths that are longer than the cavity than ha than twice the cavity width. And so we're suppressing more and more wavelengths as we make narrower cavities. Ah, interesting. So we can actually So now you're starting to see the real magic here, right? is that we can engineer it to a point where it's like how do we how much do we squeeze the cavity. So if the cavity's thickness now this is a graph of the cavity's thickness. Um oh and they're using different materials here I think. So this is silicon oxide right whatever Pmama is. Oh so what if we use our berium titanate. Wonder what that would do. Too bad he never figured that out. I would love to see, hey, use the weird [ __ ] berium titan [ __ ] in here and then what does that do? I want to know how that manipulates it. And that's just what we saw. What if berium titanate just like makes the energy go up? That would be crazy. As we made narrower cavities either from the polymer or from the uh the SiO2, we found that the narrower cavities gave us more current. So you say, well maybe this is just some sort of electrochemical reaction or there's some sort of a degradation mechanism that's just producing this the current. It's like a little battery. So if you calculate that we have um h how many uh atoms we have in the insulator, it turns out that if one charge were trapped at every insulator molecule, uh the current we're seeing 20 nanoamps would take about 3.2 micros for deplete for it to deplete. But we see this current continuously. Here's a plot showing the current as a function of hours. And actually, we've done this for longer times. The current comes out and it just keeps coming out. Then as another sanity check, uh we to see for example uh does it scale with area? So this was a different set of devices and we made so basically he's just checking to make sure like is it really working or are they uh from seeing some kind of weird up to about 100 microns and yes the current does scale with area and we ended up taking more time in trying to disprove ourselves than uh we initially took to build these devices simply because the result is so unbelievable. And we went through eight magnetic pickup that were pic. Okay. Testing for experimental artifacts to about and basically we already know it's not experimental artifacts. Like the moment you know how the ether works like you don't give a [ __ ] about the experimental artifacts. We already know it can work. I don't need convincing that it's not some artifact. This is for the what Jackie O's or whatever in the chat. That's what this part's for. We don't care about that. We want to get to the good stuff. It's not it's not coming from solar nutrinos or temperature differences or whatever [ __ ] people are trying to come up with. Um, okay. Here's the applications. Uh, so squeeze cas this. Oh yeah. Okay. This is the part that I wanted to get to. Here we go. Are respected. This is the probably this is my favorite part of the whole video. Get ready. And uh so what has the response of the scientific community been? What are they saying? This video is three years old, chat. Three-year-old video. And he just showed experimentally this Casemir cavity experiment that he has a patent for. Patents out there. There's a scientific paper. I'm going to show you the scientific paper before we log off for tonight. Shows it's producing energy. They did all these tests to show it's not an artifact. This is just literally extracting energy from the vacuum. What does the scientific community think, guys? What do you guys think the scientific community thinks is going to say? You nailed it. No. given that this potential for something really radical has been described. Um, none. There's been essentially total benign neglect. We've heard nothing from them. So, there you go, chat. Not a zero. Nothing from the scientific community. You can show them an evidence, an experiment that's done scientifically. It's got a patent. It's got scientific paper. He's got a hourong video here explaining how it works. What does the scientific community do? Ignores it completely. Ignores it completely. Even explains how it's it's possible. It doesn't matter. So when people come at me and say, "All you have to do is show it to me and people will believe it." I say, "Fuck you. [ __ ] you." You know how many times people have tried to show people and they just get ignored? This is a PhD professor who works in quantum mechanics at University of Colorado who's used a Casemir cavity with a literal experiment using semiconductors to show that he's actually producing energy excess net energy. Community doesn't give a [ __ ] about it. Hasn't looked at it for three years. Won't even look at his work. This is why academia is [ __ ] Mainstream scientists and physicists are absolute morons. We've achieved the level of idiocracy where we are too stupid for free energy and for any type of advanced physics. We just are stuck in this box where no one will look outside of it. And unless the media tells somebody that something's possible, no one pays any attention. Simple as that. That's why people ask me, "Why haven't you showed a video of your free energy device?" Well, here's exhibit A because my man right here has all the credentials in the world. He's got the experiment lined up. Anybody could watch this and look at it themselves. Who pays attention? Do you see Neil Degrasse Tyson reviewing this? You see Sabrine Hosenfelder reviewing this? No, none of them are. And even if they did, they would just look at it and go, "Yeah, well, it needs more experimental recreations and uh blah blah blah blah blah." It's like, god damn it, we were so [ __ ] stupid. And you know in in the meantime my lab has published other papers. We published another paper on something a lot less important uh in a in a journal um uh what is it? Nature communications. We got all sorts of press coverage interviews and so on. But for this nothing. Why you hear that? For his other stuff he gets tons of press, tons of interviews. for this. Nothing. Maybe I should reach out to Garrett Modal and get him on hard truce. What do you guys think? Should we get Garrett Moal on hard truce? Talk about free energy with my man here. I'm gonna probably email him later tonight. I'm going to write it down just so I don't forget. I got to go eat after this. Oh man, it's just it's crazy how powerful brainwashing is. And and brainwashing is really what this comes down to. We've been brainwashed into thinking this is not possible. this is how they've been able to keep it secret from us. And then somebody comes up with something and they just go, "Well, I've been brainwashed to think it's not possible, so I'm not even going to look at it. Not even going to look." This is why when I show people the M370 videos, they have this knee-jerk reflexive action because they've been brainwashed into thinking stuff like that's not possible. So, it's literally their programming that's preventing them from even looking with their eyes. I suppose people just don't know what to make of it. They just don't believe it. So, exactly. He just explained they just don't believe it. Does this sound familiar? This is exactly what we deal with with the MH370 videos. We've got more evidence than any murder case in the history of man. Uh we've got, you know, basically proof that the official story is a lie. We know 100% the United States government knows what happened to plane. And it doesn't matter because people just don't believe it. They just don't believe it. And the fact that you don't believe it means it doesn't matter how much evidence there is for something being real. If they don't believe it, they have basically zero evidence that it's fake, mountain of evidence that it's real. Doesn't matter. They're not going to believe it. It's not a situation of informing people. It's the human condition that is the problem. We really have uh met with some scientific challenges. So the the challenge you know that we talked about first is the second law of thermodynamics. So the second law, so I think that's it for that. Um because then he starts talking about the same stuff that we talked about before. We get around the first law and the second law of thermodynamics. How? Because we have this source that is not being incorporated into the law of thermodynamics right now. And if we can extract energy from that source, we're not violating the first law of thermodynamics. Energy is not being created. We're borrowing that energy from an existing source. From the second law of thermodynamics, we're opening our system up to outside of our box. We've got our closed system here and we open our system up and say, "Oh, well, we have this other location where we can get energy from." That means that we're not actually violating the second law of thermodynamics. So, welcome to Costco. I love you. It really is. We literally do live in idiocracy. Like, we are in idiocracy. We are in it. Uh, Emperor has no clothes. That's another one I think about all the time is that like you're just brainwashed into thinking that the emperor has clothes, but the emperor literally is naked sitting out there and all we have to do is wake people up. It's crazy. So, yatsi as well. That's also another way to say the emperor has no clothes. I appreciate it, guys. Also, shout out to Michael Boyd as well. I saw him in the chat up here somewhere. I don't know where he's at. Uh, shout out to you, man. Uh, I do think that you're on it as well. Uh, I'm not pretending to be an expert on all of this stuff. The reason why I push back on the idea of uh, gravity shielding. This is as far as I'll push it. What I'll say is we shouldn't think of it as anti-gravity. Although you could argue that it is anti-gravitational effect because it counters the force of gravity. We want to think of it as gravity manipulation or gravity modulation. And the reason for that is because we're manipulating the vacuum. And what that's doing is causing a gravitational effect that counteracts the gravity that you would normally be feeling. It can also lead to inertial mass reduction. Your mass reaches to zero locally and you're not going to feel any gravitational effects as well. If this is still controversial, read the last few paragraphs of Hal Pudof's 1989 paper on gravity as a zero point fluctuation source or explained is that if you if you still don't understand it after the last few paragraphs of that paper, then we can talk about it offline. But um I think that's really what helps to get the right mindset for it. That's as far as I can say. Okay. Um, I forgot what else I was going to say, guys. Sorry. Let me just take a look at any last questions before we log off for tonight. Yeah, show the patents. Patents don't mean anything. Literally, we had somebody say this. We say, "Here's the patents for it," and they go, "Patents don't mean it has to work." And then somebody literally links to Electroboom, uh, Medi links directly to them. Patents must work. Like, people are just brainwashed. They're just brainwashed. Like Medi Sal Latazar, whatever his name is, Electroboom guy, 7.5 million subscribers on YouTube doesn't know how energy works. Doesn't know how energy works. Like, you can't make this [ __ ] up. Thinks that just because a patent exists that it it doesn't have to work. Proves that it does have to work. Goalpost move again. Like, this is how the craziness is, right? It's uh my science influencer doesn't think it's real, so therefore it's wrong. Show a working device. Oh, it's an old video. Literally people said that I showed people a working over Unity device magnetic motor. What was their response? Oh well it's 14 years old. What? That's your response? I showed meters. There's meters showing coefficient of performance of greater than two. Doesn't matter. They must be cheating somehow. Like even if you show people in person, they're going to not believe. This is why I've had probably a dozen people message me, DM me, whatever. Text message me, say, "Let me see this ND or I'll sign the NDA, show me the device." It doesn't matter if you're somebody that believes that it's possible. Me showing it to you isn't going to move the needle because you come out, you say, "I reviewed Ashton's device and it works." People are just going to say, "So what? You know, Ashton, you're a liar." Blah, blah, blah. Like, you've got to really look at it from the perspective of disinformation. The people that I need to convince are the people that have 7.5 million subscribers who don't know how energy works who think that free energy is not possible. Those are the people like the Medi Salatazars, whatever his last name is, Electroboom guy. Those are the people that I want to sign the NDA. Those are the people that if I can show them that they're wrong, that they don't know how energy works, just like Veritassium did when he showed them that energy isn't flowing through wires, then he can come out and say, "Hey, I'm an idiot. There might be a way to produce free energy." If he does that, that will change that will move the needle. That will move the needle. Somebody who already knows free energy is possible reviewing the device isn't going to do anything. They're going to immediately come out and say, "You are a plant. You're a liar. Whatever. You're a crack. You're a crankpot. This is the part where like people need to incorporate the fact of the disinformation into all of this and the suppression like with Garrett Modal. Why is the media not knocking on his door to review his Casemir cavity device? Because they're told not to. So suppression isn't just about lying. It's about ignoring information that's real, not letting the media report on it. the same way that uh the media has talked to this kid in in Vegas who saw aliens in his backyard. Like every single media station talked to this kid. Nobody will talk to me about the MH370 videos. Why? Because I would convince people that they're real. They can't have that. You can't have that. So, there you go, guys. Okay. I'm probably going to reach out to Garrett Modal and try to talk to him, guys. Um, I also think that Professor David Greer, he's got this anti or this tractor beam. I think that whatever he's got with his tractor beam is probably very similar concept. So, the last thing I want to say for tonight guys is all this technology is irrefutably linked together. If you're wondering why is Ashton talking about free energy, it's because free energy is tied to gravity manipulation technology which is then uh tied to space-time manipulation. So if we can even So the benefit of this is that even if we show that EM drive the ability to just have an electromagnetic drive has no propellant if that's possible everything else is possible. Free energy is possible. Um warp drives are possible. wormholes are possible. All of it becomes possible. And this is where I always said this for almost a year. It's a Pandora's box. The moment that box is open, everything is coming out. This is why they have to suppress every aspect of it. They also have to suppress LK99 as well. All these technologies must be suppressed. The moment any of these technologies come out, physicists are going to go, "Wait a minute. Wait, what? If this is real, does that mean that's real? And does that mean that's real?" And then they're going to question, wait, does that mean everything I've been taught is a lie? And that's what can't be allowed to happen. We've reached a point where the lies have stacked up so high where like there's no easy way out. Somebody's going to have to take the fall for this. Somebody's got to take the blame for why we've been getting lied about physics and science for a hundred years and why the government and the government's come out saying, "Well, we were hiding it for your best interest because this is a weapon of mass destruction." Okay, great. Well, there's going to be some people at the bottom as well who are going to have to take the fall for this. Shy Keenan, hello. Thank you for joining in late. Shy Keenan, big shout out to you. Shy Kenan was one of the first VFX experts that came out and said, "Man, these videos would be really hard to recreate." Where everybody else was going, "That would be really easy. I could do that in my two hours in my free time." And then you go, "Okay, go ahead and do it." And they go, "Well, no, I'm not going to do that. Would be too expensive. I don't want to waste my time to do that." So, anyway, thank you guys. Okay, guys. Uh, just looking for any last questions before we drop off. Which camera or webcam do you use? That's a brand new question. That is an uh Sony a6600. So, one of the first things I did with my very first social media and YouTube money was I bought a nice camera. It was like $1,500 with the lens. I got like a default lens, but as you can tell, it looks really good and I've loved using it for this last year that I've been streaming. you you if you are serious about streaming, you have to have a good camera. You have to uh just makes all the difference in the world. Makes your production quality so much better. The best thing you can do is get a decent camera. You don't need a lens that's got like, you know, a million different settings. You just need one that's like whatever distance it's at. That's perfect, you know, just like this is. So, there you go. Good question on that. Yeah. And and it is just a dumbing down of society, guys. So just as a review of what we talked about, we discussed the Casmir effect. Casemir effect is related to every single one of the technologies we've talked about. Free energy, negative energy, warp drives, manipulation of extra dimensions, excuse me, and wormholes. And we talked about the dynamic Casmir effect, which dynamic casmir effect is really, really interesting, producing photons out of nowhere. And then we looked at Kazmir cavities which I think that Garrett modal has has done a great job but I think they can move it even further. I have a feeling I just have a hunch my intuition tells me that we can make it even better than that and that potentially we can produce huge amounts of photons and if we can produce huge amount of photons it's gonna that's going to break people's minds for sure. That's a Nobel Prize for sure guys. Okay guys uh okay I think we're gonna stop now. You guys have a great night. Thank you guys very much. Uh I will talk to you guys on Monday. Monday we're going to go over the debris. We're gonna have a Malaysian Airlines Monday. I'll do a question and answer. I'll ask answer any questions on the MH370 case. We'll do an update on what's been going on with respect to that and then we'll get back into science on Wednesday. Guys, have a great weekend. Love you guys. MH370X. Peace, guys. I'm gonna play us out with a different song tonight, I think. Um actually, no. I think we're going to play a song with the same song. I think we'll do that. Oh, you know what? We're going to go back to the Tootsie Roll. I'm going do a little Tootsie Roll dance and then we'll get we'll get into that. Okay, here we go. Where is it? Okay, I love you guys. Have a great night everybody. Peace. [Music] Out in the fields where the skies are wide, talking about a journey through the cosmic ride. Einstein and Thorn, they set the stage for a trip through time across the space age. Wormholes connect distant points in space. Traversible paths to a far off place. No black holes pull, no crushing weight, just a cosmic tunnel to a distant gate. Talking wormholes, stargates, negative energy travel through the cosmos. It's our destiny. MH370. Where did it go? Bowling trip 7 through a wormhole. But we're talking wormhole. Sargates. Negative energy. Travel through the cosmos. It's our destiny. MH370. Where did it go? Boing trip 7 through a wormhole flow. [Music] [Applause] [Music] Exotic matter, negative energy is the key to stabilize the wormhole for you and me. Quantum vacuums squeeze so tight, creating conditions for this wondrous flight. Static fields and lasers in the lab they play, generating forces in a new kind of way. Gravitational squeezing chasm is force negative zones. We need to stay the course. Stalking wormholes, stargates, negative energy. Travel through the cosmos. It's our destiny. MH370. Where did it go? Bowling trip 7 through a wormhole flow. Thin shell formalism plate so fine. Spherical geometry. We realign energy conditions that we must defy for a stable wormhole. Let's give it a try. [Music] Cool. Forces balancing the plates, creating the throat. Open the gates from Earth to the stars in a single bound. A shortcut through space. Profound. Engineers and dreamers hold the key to future worlds and what we could be. With science in hand, we forge ahead through the cosmic paths that we now tread. [Music] We're talking wormholes, stargates, negative energy. Travel through the cosmos, sitting star destiny. MH370, where did it go? Blowing triple 7 through a wormhole flow. From the fields to the stars, we break the chains. Understanding the universe, we make the gains. Lil Hula Crunk shines, bringing truth to light. Through his music, we'll explore the night with wormholes and stargates. Our path is clear.