Video Transcript
This whole presentation's about longitudinal scalar waves. And the first thing that Ferris Williams explains in this is that he shows that we can derive Einstein's equations from first principles assuming just one more dimension. So we look at Einstein's I think this is the field equations or something they call this, this matrix here. And this whole matrix is basically what I was telling you guys, how it matters if you go left first or if you go right first. Like you might say, "Hey, I'm going to go one unit to the right and I'm going to go one unit to the left." Well, on that matrix, one of those is going right first and one of those is going left first and those are two different things on the matrix. That's what that matrix means. Now, but then he says, "But actually, we can add one more dimension to this. And when we do that, now look at our matrix. Now we have a 5 by 5 matrix because now we have said there's one more dimension, one more degree of freedom. I believe that's how you say it, degree of freedom. And now we have the ability to add an additional direction, a scalar potential, a scalar component. So the way this is done is by unifying gravity and electromagnetism. Wow, Tesla was right. Yes. And then what he says here is this, something very interesting. He says, "If this is true, this extra dimension, this unification of electromagnetism and gravity, then we should be able to predict things that classical physics cannot explain. Wow. Guys, can you chat? Can you think of anything that's been in the news related to technology that classical physics could not explain? Oh! Oh! Ghost murmur. We did a whole stream about it. All the physicists are all posting about Ghost murmur's not real. The CIA's lying about how science works. Hm. But, it turns out Taryll Williams can explain how Ghost murmur works. Can predict those exact types of technologies. That exact technology, in fact. And what I'm going to do here is tell you how it actually works. It's not just a unidirectional sensing mechanism. It's a point-to-point sensing mechanism. What they're doing is equivalently producing a connection between two points. And as long as there's a connection between these two points, then we can sense those things over any distance we want. This is how we get around the no communication theorem as well, that says that you can't do faster-than-light communication. We can do it. Because we build a bridge. We build a bridge through the fifth dimension, and it does not violate causality. Now, causality will no longer be violated. We built a physical bridge between two actual points. Just like the four orbs hypothesis in MH370. But, I wanted to show a few more slides where he talks about basically building out these extra dimensions, connecting it to gravity and electromagnetism, and then he thinks he shows the inductive uh relationship between them when you do the math. Explains Einstein's equation and that therefore the last dimension, what is the last dimension? The last dimension is mass density. So, how much the mass is squeezed together compactified is the extra dimension. To be perfectly honest with you, I still don't conceptually understand it. I still just look at it zero-point energy. That's how I look at it. But, uh we'll dig more into that later. He says, "You can look conceptually at the universe from the Einstein perspective of a flat 4D hyper surface. But, you can also look at it as a five-dimensional universe that conserves mass in five dimensions. And either way you look at it you get the exact same answers. This is why it's so difficult to convince people they're wrong about general relativity. Because if you take your 4D classical view where the space is an empty vacuum and there's just particles flying around through it it's fundamentally equivalent or very, very similar to a 5D model where if I disappear some mass over here, it's going to reappear over here. Or if I take it over here, it's got to go back into the ocean or the ocean's got to come out of the ocean. So, this is now motion can be described in two completely different ways. He says, "On Einstein's 4D hypersurface without forces or in the surrounding 5D space with forces and restricting the space by conservation of mass." Then he shows the equation, I think, next, right? And what he's saying here is that we can then now come up with a relationship between gravity and electromagnetism. Yes, electromagnetism is a lot stronger than gravity. That doesn't mean they're not connected. They're just not exactly the same. That's the difference. Gravity is just really weak electromagnetism. That's the simplest way to think about it. But it doesn't have to be. And this equation is the relationship between the two of them. The most notable part the permittivity. The permittivity of the vacuum. That's that permittivity with the naught, that is the secret value that changes everything. That is the permittivity of space-time, the flexibility of space-time. If you can change the speed of light in the vacuum in the medium, the permittivity, then you change this equation. And guess what? We can already do this in solids. We already change that permittivity when we shoot light through a material. The only question is, can we do that to space-time itself? And if we think of space-time is a 5D Ferris Williams theory, then we can do that. So, there is what he would say an inductive coupling. And this cons- conversion factor provides the inductive coupling between the gravitational electromagnetic fields that predicts a magnetic moment for the spinning Earth. But, look at this last sentence. Read the last sentence. Northrop Grumman has completed an experimental series that confirms this predictive inductive coupling. So, as predicted, if there is this 5D, this means there's supposed to be scalar waves. And this means we should be able to engineer our electromagnetic waves in such a way where we can manipulate gravity. In such a way where we can shoot a force through the fifth dimension. We should be able to interact with that fifth dimension if this is true. And we can. That fifth dimension is how we manipulate gravity. Here we go. Ferris Williams, my goat. Take it away. We're going to listen to this pretty fast cuz it's hard to hear anyway. I'll just kind of playback what I what's important. >> device. And yet, we couldn't see this. Uh Even then, with any technology available at Los Alamos in the early 1980s, we did not have the physics accuracy effectively measure that gravitational effect on >> So, here's the biggest problem. A lot of people would say, "Ashton, show me. Where is the experiments?" He said, "Los Alamos, even in the '80s or whenever the '50s, I don't remember when he said this, they didn't have the exper- that the testing apparatus to even test this at a sensitive enough level." That's how difficult this is to test. This is a very, very, very weak interaction that we're testing here. >> But, the other thing is you have no system of waves. I have a long transfer for following beings. Two of the components belong to tuna. But I can't just say that to the longitudinal waves because associated with those two components is gravitational scalar. And a scalar is not a vector so it's either transverse or longitudinal. So I have to phrase these waves as non-transverse waves. So just to further complicate the thing, we no longer have a simple addition relation between three of those suckers. And it depends upon how your propagation medium behaves. The dizzy is not a number. It's a number. I'm going to go to the next Just click the mouse if you want to go. There you go. So, where do we get the non-communication from? >> [clears throat] >> Well, the transverse electromagnetic a little story. When Ben Rich was designing and building the stealth fighter, he contracted a native designer and asked him some stealth antenna stuff. The reason is that everybody was making transverse waves. I made a [snorts] shape that needed to be put in the middle of it. But why do you need to communicate with something that will not let you communicate? Well, it will not. That's right. Why do you need to communicate? Well, signals that will not transverse better make a change. That is the good So I tried to bring >> So, let's get caught up in case you couldn't hear what he was saying. He's saying his theory predicts these scalar waves through this extra dimension. And if this is true, there should be a way to engineer these waves. And if there is a way to engineer these waves, there should be a way to communicate. We should have a way to be able to communicate between two distant points using these scalar electromagnetic waves through the extra dimension, kind of like how a wormhole would. It's directly analogous to how the MH370 videos literally teleport the plane. >> to design antennas for the non-transverse. I failed. Some years later, I discovered my error. I was designing antennas the way we were taught in my physics class is designed antennas. That is you have a receiving antenna you wave the electron and then it makes it feel good. The receiving antenna is a response of the electron to the signal. But now if you talk about transverse electric component and we will talk about the longitudinal speed of light. So what my error was is I started to design a particle field antenna when I should have been thinking about a field field antenna because only fields can follow fields with that version. So how we going to do that? What is a field field antenna? >> Interestingly enough, Ferris Williams says he tried to develop one of these devices and it didn't work. And the reason why it didn't work when he tried to develop is cuz he was trying to develop it in the model of classical physics where you're shooting a particle. You're shooting a particle to a receiver. But that doesn't work because in any scenario in which you're doing that that requires an EM wave. So if it's not going to be a particle interaction then it's going to be a field field interaction. >> transmission reflection coefficient. You go at an angle and you find that polarization and magnetization and all that kind of stuff like when you try to account for the boundary conditions at the boundary between two media. What you got to do that to apply the physics here so you you've got gravitational polarization, susceptibility, and induction. So here's what this is and what it would look like. You have a medium which has a a different index of refraction than what we currently do. >> He just said the way this works, the way this would look, his first reference is you have a medium with a different index of refraction. Whoa, hello there. Uh index of refraction? You mean like we're going to change the permittivity of the of the medium? Remember that permittivity we were just looking at? Change that permittivity change the speed of light? Yeah, that's like changing the refractive index. That is changing the refractive index. So, when he's looking at this, why has he got these weird shapes on here? Cuz he's saying, when you change the refractive index, it's going to change the way the electromagnetic waves propagate. Oh. What are our orbs doing spinning around our MH370? They're polarizing the vacuum. They're changing the refractive index. They're doing exactly what Ferris wheel was talking about. They're doing it up on a scaled-up version using plasmas their electromagnetic source. Instead of just a tiny little laser. >> Well, how's the scalar electromagnetic effect? I had one of my material students make me 27 different types of glasses with different indexes of refraction. I had an optical spin. Did a bunch of calculations. Now, you can imagine these calculations that we're we're talking about not having any generators for these non-transverse waves. Except this kind of generator. So, you got to make a generator before you can make a receiver. And then how much of this energy is going into the compared to how much energy is actually coming out. They'd say, "Well, I don't have anything." So, what we did was index of refraction and uh stuff. So, we had at least uh something that we could measure with today's technology. Cuz all we had was we made transverse waves. Hold on. Hold on a sec. All right. Hold on. Let's carry it. Marvels of transverse waves. I never thought that they could have utility out of it like this. So, we can make and receive transverse waves. Hold on. So, we make start out with a transverse wave and we hit a angle or an angle. And then we put it in the medium at an angle. And we polarize this transverse wave a certain way. So, that in the medium, there are two waves. You can only satisfy the boundary condition. You now have a little bit of the energy in the non-transverse wave. So, then when you come out of that back into the air, you now have two waves. The transverse wave and over here there's an index of refraction behind the wave that that carries the majority of the energy. But, you have a small non-transverse wave. >> This is the part where he loses me a little bit because I'm just not an engineer. But, he's clearly talking about engineering a region to change the speed of light. And he's saying like when you pop out of this, you're going to have a different index of refraction, and now you're going to see a bend in the light. And he's saying that if this is either analogous, if not equivalent to manipulating space-time, to making a bridge between two points in space-time. But maybe we have to essentially turn that up to its maximum level in order to create a space-time effect distortion that's that powerful. But on these small scales, we can use this this mechanism, quantum entanglement, we could call it, to connect two points. And there at the end there, he's talking about how much of the relative energy in the wave goes into the transverse component versus how much of the energy of the wave goes into the scalar component. Why is this big? Because I think that what we see in the MH370 videos is a transduction, a conversion of energy from this rotational kinetic energy or electromagnetic energy into a scalar wave that's being produced through the extra dimension. A conversion of energy that's only possible because there's a fifth dimension that allows for that propagation to exist. Whereas normally from a classical physics perspective, it looks like the plane just vanishes, but in reality, there was a scalar and vector potential that was as it was encoded into that to determine the direction of travel. That's why the orbs spin around the plane in the precise motion and way that they do. >> Uh pointing vector, right? I seem to recall reading that any component of a traveling wave that was not transverse has an actually zero pointing vector, which means that it cannot transfer energy at all from A to B. So, how do you propose to communicate such a wave? >> If you look at Feynman's equation, you find that it's not possible. >> Boom. Boom. He says pointing vector is zero, meaning it cannot transfer energy. This is why they say, "Hey, if you make your toroid, your donut, and the pointing vector is zero, that can't transfer energy anywhere." Why? Because in their view, space is empty. So, the only thing that's happening is there's a field free condition for them. Is that true though? In a 5D reality, you are transferring energy. In a 5D reality, that toroid isn't going to nowhere. That toroid's going somewhere else in space-time. And this is huge because this is what Ken Shoulders was saying about the teleportation of EVO's. He was saying it works normally. What does normal mean? Normal means I'm just going to shoot it and it's going to go that way. But why is it normal if there's an extra dimension? Because this is the rub. The physics isn't just magic. The physics isn't just I just teleport here and I just appear over here. The physics is there's a matrix. The physics is we live in a literal matrix. And yes, there's an extra dimension, but there's still a matrix structure of that dimension. And those rules of that matrix structure matter. Those matter a lot. So this is crazy because this gives us practical teleportation. Not beam me up, Scotty. Which should beg the question, this must be quantum entanglement. When we say, "Why does quantum entanglement work?" It clearly must be because there's a fifth dimension. And that's why you're seeing these bridges of space-time that we're calling quantum entanglement, connections between two points. It's actually because of electromagnetic potentials that are non-zero in the fifth dimension.