Video Transcript
negative time. I missed talking about this paper from the other day. Let me see if I can find it. The paper proved that negative time is a real thing. And the question that people should ask is what the hell is negative time? What is negative time? And why? How does it exist? And this is one of those things where back in the day, chat, I would be one of those people going on social media and I'd see these physics things and they would have these crazy claims, negative time, all this stuff, and I would just go, "What the hell does that even mean? I'm just a normal guy. I don't know what that means, negative time, any of that stuff. Mumbo jumbo to me." So that's why I'm here, because I can actually explain to you in ways you can understand what negative time actually means. And after we dig in that, I got a few more pretty spicy uh video clips for us. So, where's my negative time video thing here? Oh, yeah. That was from last week. Oh, here it is. Okay, that was easy. So, here was the headline uh from Fly Ether. Shout out to him. He's been a big uh fan of the show, friend of the show. Makes clips for us. Uh, even though I think he just does it out the good of his heart. Actually, let's see. Actually, I'm just going to explain what happens here instead of reading all this. So, basically, we are shooting light at rubidium atoms. We're shooting light at atoms almost like they're a barrier. shoot some lights at some atoms and then we are gonna see they're gonna hit the atoms and then some of the light's gonna go through the atoms and we're gonna have a detector on the other side. Let me make this wide screen. So, we got our laser pew pew machine over here shooting light. We got our atoms over here near my face. Light hits the atoms. Some of the light keeps going and we have a detector over here. Light gets captured on the detector. Very, very simple, right? So if we simplify this, we have a laser beam. We have something in the middle. The laser beam is hitting passing through the middle thing and then it's going to hitt in the other side. Simple. So where's the negative time aspect come into the play? Well, how do you calculate time? Well, velocity speed divided by distance is equal to time, right? Speed divided by the total distance equals time. We know the speed of light. Speed of light's a constant, so we know what that is. So we should be able to calculate the time that it takes for a light photon to go from this laser beam pew pew to hit this detector over here. So you want to know the crazy thing when they did this experiment and they just calculate that calculate the velocity divided by the uh by um the distance and see when this hits the detector. Turns out the light is hitting the detector as if it's passing through the medium without going through it at all. It's getting to the detector faster than should be possible. You say, "Wait, what?" You say, "So you shoot a beam of light at some atoms and then somehow the light comes out the other side before it even entered or it comes out where when we do our calculations suddenly it looks like negative time has passed. Well, that's what they're measuring. That's the answer. So if that explanation was bad, here's my better explanation that I wrote up earlier. A resonant laser pulse hitting a group of atoms causes the light that passes through them to arrive at the detector faster than the speed of light. Thus, negative time. So, what does this mean? How is this actually possible? Who can explain this? I can. You can too. There's only one possible answer to how this is possible. We know how fast a laser beam moves through the air. The only variable here is those atoms in the middle. What this means is whatever we're doing to these atoms is changing the refractive index of those atoms. The refractive index is how fast the speed of light travels through a medium. So what's happening? The refractive index is being changed and the speed of light is being accelerated. That's how you get negative time. That's also how you get teleportation, by the way. So that's the reason why I'm talking about it. If you're not sure why we're talking about this, cuz that's the same physics that now instead of your atoms, instead of your atoms, go back to our high beta forcefree conditions plasmoid that we're creating and you say, "Oh, wait. Are we changing the permitivity of spaceime when we're producing our high beta plasmoid?" And if we're changing the permitivity of spaceime, then does that mean the speed of light in that region no longer? Is what we call the speed of light anymore? There you go, chat. Now you've got it figured out. Now you understand. This is why negative time. So it's not that we're time is going backwards. No, negative time means we've engineered the refractive index of the medium. In this case, the rubidium atoms. We've re-engineered the permitivity to rechange the speed of light. And we did it how? Resonant pulses of a laser. Resonant pulses. Resonant being the key effect. Why? Everybody always thinks just smash something and make it work. But it's not about smashing something. Yeah, I can throw the wine glass on the ground. It's going to shatter into a thousand pieces. But if I just want to make it shatter without touching it, then I can do that with sound. I can hit a resonant pitch with the wine glass and it'll start to vibrate and then it'll shatter. That's why the orbs are spinning around the plane. They're creating a resonance effect and it gets amplified when there's more than one. And this is also why they shoot two plasmoids at each other. Like why would they shoot two plasmoids at each other? Because it amplifies the effect. That's why they're shooting three also for geome geometric purposes. Excuse me. So where was my thing? Oh, I lost it. Oh, I had two up. That's why. Okay. So, what this is is spacetimemetric engineering proven on a macroscopic scale. Spacetime metric engineering is Hal Pud's polarizable vacuum model. If you boil it down, Hal Pudof saying you can manipulate the permitivity of spacetime itself that when you're pushing out those electromagnetic fields, you're also pushing out 0 energy. And when you push out 0 point energy, you change the physical laws of reality as we know it. This is the connection. So when you see stuff about negative time and rubidium atom just realize that's the same exact physics as how Pudos polarizable vacuum. He just said, "Hey, whatever you can do to some rubidium atoms, you can do to spacetime, too." Now, the only question left that you may be wondering, the only piece we don't know about now, assuming that we're correct about this field reverse configuration, is what they're doing when they're spinning around the plane and then reversing the field at the last second, pushing out the electromagnetic fields. The last bit is how do they determine where it goes? I think it really is a beam. I think it really is them shooting an aimed beam and that it really is going westward from this zap. That's why I think Ken shoulders says that works in a normal way. I think that however this works with this extra dimension, it still depends on our 3D 4D reality. You can't just cheat and send it anywhere you want. It may be a situation where you got to clock it and shoot it where you want it to go. I think that's why these orbs spin around the plane is so specifically the way they do right there. But here's the rub. How would this work? I got another physics drop for you. Basically chat there is an extra dimension. There is an extra dimension and the scalar potential allows us to encode the vector that we want into the scalar potential. So essentially what I'm saying is the way the orbs spin around the plane is likely encoding the directional how we're going to shoot that thing through the 5D spaceime how we're going to create our warp drive our hyperspace drive is that the direction is being encoded from the spin of the orbs around the plane that's producing the vector potential. And what did we learn from the Aaronhoff bomb effect? It's the potentials that determine what's real. So what I'm saying is just like in the Aaronhoff bomb effect where they create this solenoid of no there's no fields outside of this thing. They're doing something very similar here where in the aeronov boom effect you shoot the particles past it, you can see them phase shift. So, you know, there's something happening, but there's nothing that should be impacting it. That's what they're doing with the plane with the high beta cusp, but they're doing that with much, much, much higher potential. Enough potential to get it to link to another location and actually reappear somewhere else. Now the last bit which is the part I don't know still is that four orbs. The fourth orb determines where the plane ends up. The fourth orb situation is the closest approximation we have to figure out how it shows up on the other side. Not just where how do they direct it, but like how does it stop right here? Why doesn't it just keep going right past? So, that's the last part that we don't have a full accurate physics understanding of, but we'll get there. Look at how far we've gotten at this point. We've gotten further than basically anybody that hasn't worked at Los Alamos. The only people that even understand this at this point, there's people in the replies saying that this is all, what do they say is word salad. People that don't even understand physics, they're going, "This is word salad." Because what which part you don't understand what high beta means or which part are you struggling with exactly? Which really goes to show how sad the situation has gotten in today's day and age. Now just to show you this isn't me trying to to to you know what this is this is actually Wait, am I showing the wrong one? Oh yeah. What am I pulling up here? I'm pulling up the wrong one here. What's going on? What the heck is going Oh, there it is. That's why this is me trying to flex a little bit. Actually, Dr. Park has seen your work and you're on everyone's radar. Let's just say Helion and TAE are meant to be Nvidia and AMD. We're not allowed to reveal a breakthrough fusion until we say they can. However, your last stream, you're on the money. Okay, now let me just show you how completely surp how how much we have surpassed um standard physics at this point. Where is it? Here this one I read this article. Sabine was posting this article about guys. What if we're wrong about dark matter? Hello, academic physicist. What if we're wrong about dark matter? What if it turns out that dark matter thing doesn't even really exist at all? Well, spoiler alert, chat. Basically, the answer from everybody's perspective if dark matter doesn't really exist is that the ether must be real. That the only other answer is that we have to go back to the ether.