529 segments
This video is sponsored by NVIDIA I.
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I'm the biggest skeptic around and what I saw can't happen.
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What I saw is impossible, but I saw it.
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When I was there at this testing, I'm seeing these scientists,
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physicists and engineers, if they're all scratching their heads.
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They've been struggling for a year now to explain what is actually happening.
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He's been developing these technologies using plasma and its frequency-based.
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There had actually been a couple of attempts on his life,
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and he got so freaked out he never went back to his laboratory.
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He came right over to America.
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Man, and you've seen this?
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This is the type of video you'll want to watch until the very end.
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It's astonishing that this isn't making headlines everywhere.
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This is the most Nikola Tesla-like discovery that we've ever had the chance to see an action.
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It's a testimony to how ancient knowledge can be harnessed to literally develop something
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that could change life on our planet.
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Yet here we are, often trapped in the rat race,
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not paying enough attention to what truly matters.
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I bet you're going to like this one.
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It's almost as if there is this proportional template,
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you know, the way it's been described is the ancient master builders
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are attempting to replicate the processes by which God built the universe.
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This is why Freemasons referred to God as the great architect
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because God's geometrises that all of creation has this geometry inherent in it.
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And when you start looking, yeah, it's there.
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You can see it to the point where, no, you cannot dismiss this as coincidence anymore.
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There's some kind of a pattern here.
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I've been really getting into the Sean Ryan show lately.
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Sean has a unique ability to uncover significant insights that are often overlooked.
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Just consider the fact that the government holds all the secrets,
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all the technology, all the advanced knowledge,
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much of which the public rarely hears about.
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It's compelling to realize that even within top levels like the Pentagon,
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there's acknowledgement of ancient technologies.
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You really can't make this stuff up.
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It becomes clear that while these truths are known within government circles,
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mainstream attention often overlooks them.
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The general public, distracted by consumerism,
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misses out on these significant revelations.
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The situation begs the question,
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what other profound knowledge remains hidden in plain sight?
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Let's hear Sean on this.
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I need to introduce you to my friend, Chris Beck.
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He used to work for the, he was a seal and then he worked for the Pentagon.
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He's basically, I mean, in a nutshell, a mad scientist, a brilliant mind,
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but he talks a lot about everything is, his frequency and vibration.
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See, that's exactly the direction I would go.
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I think we're kind of in this space right now where it's essentially trying to reverse engineer
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what these people's long to go or up to with all of this stuff.
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Okay, now let's dive into Plasma,
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a topic that might sound like it's straight out of a sci-fi movie,
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but is very much a part of our universe.
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Plasma isn't just something you find in blood or TVs.
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It's the fourth state of matter, and it's everywhere,
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from the sun to the stunning Aurora Borealis.
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What's fascinating is how plasma behaves
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when free from the bonds that hold together solids, liquids, and gases.
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When electrons and neutrons become disassociated,
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we get this vibrant, electrically charged state
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that can be shaped by magnetic fields.
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But here's where it gets even more interesting.
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Under the right conditions, plasma can organize itself into structures
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that look like something out of a cosmic blueprint.
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Imagine if we could harness this behavior.
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What could we do with a material that self-organizes in response to frequencies and vibrations?
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Well, Randall will tell you exactly that.
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The mind-blowing technology that actually exists today in the world
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but might be suppressed.
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It's a deep dive into how ancient knowledge paired with modern science
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could be unlocking extraordinary technologies that seem like magic to us.
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These technologies, which manipulate the fundamental principles of nature like plasma,
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could revolutionize everything from energy to environmental restoration.
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Now, let's listen to Randall Carlson
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as he unravels these hidden truths and offers us a glimpse
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into what might be one of the most transformative discoveries of our time.
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The sun is plasma, or a borealis, the Northern Lights is plasma.
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It's the fourth state of matter.
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It's what happens when the electrons and the neutrons become completely disassociated.
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Solid liquid gas degrees of freedom between electrons and neutrons, right?
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Even in a gas, they're still bonds.
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But when you get to plasma, they completely break free.
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So now you have electrons, neutrons become ions,
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and because they're electrically charged,
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they can be influenced by magnetic fields.
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They also have this tendency to self-organize under the right conditions
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if you apply the right frequency.
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It's like they spontaneously organize into toroidal forms.
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And then what happens is that, if you look at a torus and cross section,
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it looks like an infinity sign.
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Here's what you visualize a sphere with a North Pole and a South Pole.
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And now let's say you collapse that sphere
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so that the North Pole and the South Pole meet at the equator.
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So now you've got this indentation in the North and the South.
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What then happens is that you get this electron or ions, or both, stream,
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starts spiraling down at funnel.
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And as it's spiraling down, it's increasing and increasing in rotational velocity.
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Now, in the Northern hemisphere, say it's going clockwise,
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and in the Southern, it's going counterclockwise.
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And they meet at the equatorial plane.
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And that's where something really interesting happens that I don't understand.
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Something happens there that's almost supernatural.
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Before we dive into the actual technology,
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Now, let's return to our discussion.
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The inventor behind this revolutionary plasma technology,
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someone who found a profound connection with Randall's work, reached out to him after a presentation.
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This connection wasn't just fleeting.
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It led to a serious discussion about the implications of this technology.
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A topic Randall even brought up on the Joe Rogan Show.
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And it's all based upon the ancient numbers.
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And they're developing technologies right now, and they have been.
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I was recently contacted and given to go ahead, that I could talk.
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I've been sitting on this for seven years without talking about it,
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because they asked me not to talk about it, until they had their patents in place and their licensing.
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That's all happened since last summer.
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So we're now free to talk about it.
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I'm going to lay this on Graham so he can look at it too,
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because I really want to get Graham's feedback on this.
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I mean, would it be fair to say that there's an element of a rediscovery
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of a large technology from the past?
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And so through somehow, through this technology,
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they're able to move stones or cut stones or all the above.
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And even transport them?
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For about seven years, Randall was in discussions with this inventor,
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piecing together a puzzle that many of us would find hard to believe.
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Now, he's ready to share these insights with the world.
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Interestingly, even major corporations like Mazda are peaking over the fence,
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intrigued by the potential of this technology.
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Let's hear from Randall himself on how it all unfolded.
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Pay close attention when he mentions those ratios.
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I'm sure you'll make the connection.
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When he first called me, he said,
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I've been working on this plasma energy
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and it's based on frequencies and these frequencies
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are connected to these ancient sacred numbers.
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And he said, I watched a podcast and it was you giving a lecture
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and you were talking about ancient numbers
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and the numbers you were mentioning were exactly the numbers
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that I found made this technology work.
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For example, the ratios of the spheres have to be in the ratio four to three to two.
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And if they weren't in those proper ratios, you didn't get the effect.
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Randall introduces an intriguing element to the discussion,
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the significance of certain numbers that appear repeatedly in ancient cultures,
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sacred geometry and natural frequencies.
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These numbers, such as the one often referred to in esoteric circles,
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are believed to hold the key to understanding the universe's very fabric.
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Throughout history, these special numerical sequences
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have been revered not just for their mathematical beauty
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but for their alleged ability to influence the physical and spiritual realms.
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For instance, these numbers are found in the architectural dimensions of ancient structures
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and in the tuning of musical instruments
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believed to resonate with natural energies.
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Randall's exploration isn't just an academic exercise.
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It's about practical application.
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He reveals that the effectiveness of the plasma technology he has been studying
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hinges on these precise ratios and frequencies.
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His discussion brings a scientific rigor
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to what might otherwise seem like mystical assertions,
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connecting these ancient numerical concepts to groundbreaking contemporary technologies.
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But what exactly is this technology?
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Randall isn't just talking theories.
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He has concrete evidence.
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He even shares photographs of a functioning installation outside of London,
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proving the technology works.
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This is an a prototype or a concept.
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It's a real, operational example of how ancient numerical knowledge
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can be applied to modern energy solutions.
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I was reluctant to talk about it.
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You know, I went on Rogan's show with Graham Hancock a year ago last November
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and I had already been in contact with Malcolm,
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one of the preeminent inventors and developers of technological applications of plasmas.
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I hadn't decided yet whether he was for real or not.
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But I'd been talking to him distance for over seven years
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and his story never changed.
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And I took careful note of that and I began looking at some of the things
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that he claimed to sources and they all checked out.
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Going back to Nicola Tesla, coming up through like half a dozen other researchers
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that had worked in some capacity trying to develop technologies
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around this plasma energy, like learning how to contain plasma
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and then extract energy from it.
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He's been developing these technologies into plasma and its frequency-based.
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At this point, I already knew that the thunderstorm generator
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and I'll show you pictures of one now that's been retrofitted
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on a 300 kilowatt generator on a substation outside of London.
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And they're testing the damn thing and it works.
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It does what it's predicted to do, right?
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I mentioned that he was on an island where he'd gone
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because there had actually been a couple of attempts on his life.
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Time and again, revolutionary technologies that could reshape
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a world-based significant resistance, not just from skeptics
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but from powerful corporate and media interests.
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This plasma technology, discussed by Randall Carlson,
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is a prime example, but it's far from the only one.
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Historically, numerous inventions from alternative energy sources
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to medical breakthroughs have languished in obscurity
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or been actively suppressed.
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Considered the case of Nicola Tesla,
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whose pioneering work in wireless energy transmission
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was decades ahead of its time yet struggled to receive the funding
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and supported deserved, or the story of Stanley Meyer,
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who claimed to have developed a water-powered car engine,
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only to be met with lawsuits and claims of pseudoscience.
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The story share a common theme,
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the challenge of introducing technologies
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that disrupt established industries.
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The media often plays a pivotal role,
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not just by ignoring these innovations,
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but occasionally mocking them,
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shaping public perception to view them as impractical or implausible.
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This division can effectively sideline
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even the most promising advancements.
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The inventor of the plasma technology we're discussing
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chose to open source his work,
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hoping to sidestep these barriers.
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By making his designs and data publicly available,
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he aimed to protect his invention from being buried
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by the interests of those who stand to lose from its success.
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It's a bold move, reflective of the struggles many innovators face
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in bringing transformative ideas to the forefront.
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But now, it seems the tide may be turning.
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Masta has shown interest in this plasma technology, as Randall mentioned.
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This could be a sign that the mainstream is finally ready
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to embrace such innovative solutions,
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or it might be an outlier in an otherwise cautious industry.
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Will this interest from a major automotive manufacturer
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pave the way for broader acceptance
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and integration of this technology?
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Let's hear from Randall about the current state of this technology
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and its prospects for mainstream success.
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So I kind of outed the guy inadvertently,
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because he had told me that because of what the history
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of these kind of alternative energies not making it out,
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he decided he was going to use a different strategy.
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He was going to open source everything.
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All of his notes, and he had spent seven years writing up his notes,
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several thousand pages of notes and schematics and diagrams.
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He had patent applications.
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All of this, he was going to open source.
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I also mentioned the car manufacturer Mazda,
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who had expressed interest in the technology.
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Now, I don't think they've gone forward with it,
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but at the time, I didn't realize,
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because I thought he'd given me the green light.
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I'm going to open source it, so I'm going to put it all out there.
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OK, so it turns out that he had a,
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and his small group of potential investors
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had signed a non-disclosure agreement with Mazda.
[0:14:46 - 0:14:49] ▶
And here I am, I'm so broken.
[0:14:49 - 0:14:51] ▶
Mazda, the car manufacturer in Japan,
[0:14:51 - 0:14:54] ▶
is getting ready to do a $25 million testing
[0:14:54 - 0:14:58] ▶
of some of these prototypes.
[0:14:58 - 0:14:59] ▶
Shootin' my big mouth off, you know,
[0:14:59 - 0:15:02] ▶
innocently blabbing away.
[0:15:02 - 0:15:04] ▶
OK, now comes the most important part,
[0:15:04 - 0:15:06] ▶
where Randall Carlson explains in detail
[0:15:06 - 0:15:08] ▶
where he personally witnessed
[0:15:08 - 0:15:10] ▶
and describes the actual workings
[0:15:10 - 0:15:11] ▶
of this mind-blowing technology.
[0:15:11 - 0:15:13] ▶
It's the kind of stuff we often associate
[0:15:13 - 0:15:15] ▶
with visionaries like Nikola Tesla,
[0:15:15 - 0:15:17] ▶
not something you'd expect to find readily embraced
[0:15:17 - 0:15:20] ▶
by today's scientific community.
[0:15:20 - 0:15:22] ▶
This technology, while incredible,
[0:15:22 - 0:15:24] ▶
typically flies under the radar
[0:15:24 - 0:15:26] ▶
due to its unconventional nature
[0:15:26 - 0:15:27] ▶
and the skepticism that surrounds such claims.
[0:15:27 - 0:15:30] ▶
We know these technologies are possible.
[0:15:30 - 0:15:32] ▶
History is littered with accounts of inventions
[0:15:32 - 0:15:34] ▶
that were way ahead of their time.
[0:15:34 - 0:15:36] ▶
Yet, there's always that hint of doubt,
[0:15:36 - 0:15:38] ▶
especially when such innovations
[0:15:38 - 0:15:40] ▶
are ignored by mainstream channels,
[0:15:40 - 0:15:42] ▶
and when friends and family dismiss them
[0:15:42 - 0:15:44] ▶
because they aren't featured in popular media.
[0:15:44 - 0:15:46] ▶
It's this environment of skepticism
[0:15:46 - 0:15:48] ▶
that often stifles the growth and acceptance
[0:15:48 - 0:15:50] ▶
of groundbreaking technologies.
[0:15:50 - 0:15:52] ▶
Here's Randall, ready to share first-hand
[0:15:52 - 0:15:54] ▶
what exactly the technology did in his presence.
[0:15:54 - 0:15:57] ▶
I knew that there was a whole series of testing
[0:15:57 - 0:15:59] ▶
coming up the next summer, which was last summer.
[0:15:59 - 0:16:02] ▶
And I was present at some of these tests
[0:16:02 - 0:16:04] ▶
and saw for myself what was happening.
[0:16:04 - 0:16:07] ▶
But I was there, saw it working.
[0:16:07 - 0:16:09] ▶
Saw two generators, a control generator,
[0:16:09 - 0:16:11] ▶
and one with the technology.
[0:16:11 - 0:16:13] ▶
I watched as they engineers
[0:16:13 - 0:16:15] ▶
and the scientists there calibrated them both.
[0:16:15 - 0:16:17] ▶
And then I was the one who went up
[0:16:17 - 0:16:19] ▶
and started both generators to both two separate rooms.
[0:16:19 - 0:16:23] ▶
So we've got readouts.
[0:16:23 - 0:16:24] ▶
We've got gas analyzers there,
[0:16:24 - 0:16:26] ▶
probes going up into the exhaust of the generators.
[0:16:26 - 0:16:28] ▶
We've got a couple of guys there with mass spectrometers hooked up.
[0:16:28 - 0:16:32] ▶
So we've got multiple ways of determining
[0:16:32 - 0:16:34] ▶
what's coming out of the exhaust pipes of these two generators.
[0:16:34 - 0:16:38] ▶
And we watched, so we got a first read.
[0:16:38 - 0:16:40] ▶
I can show you actually,
[0:16:40 - 0:16:41] ▶
I've got a printout of the readouts.
[0:16:41 - 0:16:43] ▶
Here on my computer.
[0:16:43 - 0:16:44] ▶
And you can see, it was the,
[0:16:46 - 0:16:47] ▶
I think it's called a cane five something
[0:16:47 - 0:16:50] ▶
because it measures five gases.
[0:16:50 - 0:16:52] ▶
Carbon dioxide, carbon monoxide, nitrogen oxide,
[0:16:52 - 0:16:55] ▶
other hydrocarbons, probably like methane
[0:16:55 - 0:16:57] ▶
and whatever else, and oxygen.
[0:16:57 - 0:17:00] ▶
So basically, oxygen is like at a four or five percent
[0:17:00 - 0:17:04] ▶
coming out of the exhaust,
[0:17:04 - 0:17:05] ▶
which is about typical for a generator like that.
[0:17:05 - 0:17:08] ▶
You got, I think like 12% of CO2, CO, et cetera.
[0:17:08 - 0:17:13] ▶
So as you're watching it, here's what happens.
[0:17:13 - 0:17:15] ▶
The carbon dioxide, carbon monoxide,
[0:17:15 - 0:17:18] ▶
hydrocarbons and nitrogen oxides start going down.
[0:17:18 - 0:17:23] ▶
Oxygen starts coming up.
[0:17:23 - 0:17:25] ▶
Carbon monoxide zeroes out.
[0:17:28 - 0:17:30] ▶
The nitrogen oxides go down to just a few parts
[0:17:30 - 0:17:33] ▶
per million, as does the other hydrocarbons.
[0:17:33 - 0:17:35] ▶
Oxygen tops out at over 20,
[0:17:35 - 0:17:38] ▶
I don't remember exactly,
[0:17:38 - 0:17:39] ▶
Which is optimum percentage of oxygen
[0:17:41 - 0:17:44] ▶
for pure unpolluted air.
[0:17:44 - 0:17:46] ▶
So what is now coming out of the generator,
[0:17:46 - 0:17:49] ▶
the generator with the technology is pure unpolluted air.
[0:17:49 - 0:17:53] ▶
On top of that, what it's doing,
[0:17:56 - 0:17:59] ▶
it's capturing everything that's coming out,
[0:17:59 - 0:18:02] ▶
and it's feeding it back into the thunderstorm generator.
[0:18:02 - 0:18:05] ▶
So at the initial, in order to get the plasma separation
[0:18:05 - 0:18:10] ▶
to occur, I think you have to get it up
[0:18:10 - 0:18:11] ▶
to like 700 and some degrees.
[0:18:11 - 0:18:13] ▶
But once you do that, it's almost,
[0:18:13 - 0:18:16] ▶
not quite, but almost self-perpetuating.
[0:18:16 - 0:18:18] ▶
And you just have to replenish the water.
[0:18:18 - 0:18:20] ▶
Like I forget, however, a few hundred hours at a run,
[0:18:20 - 0:18:23] ▶
you have to replenish the water.
[0:18:23 - 0:18:25] ▶
Man, did you've seen this?
[0:18:28 - 0:18:30] ▶
Oh yeah, I've seen it.
[0:18:30 - 0:18:32] ▶
And I've known multiple people now that have seen it.
[0:18:32 - 0:18:35] ▶
The Admiral, he took it back to India.
[0:18:35 - 0:18:37] ▶
India is seriously looking at it
[0:18:37 - 0:18:40] ▶
as a retrofit for their Navy.
[0:18:40 - 0:18:43] ▶
The industrial, and I can show you this on the computer too.
[0:18:44 - 0:18:47] ▶
I've got photographs of like the big industrial scale
[0:18:47 - 0:18:50] ▶
application on the 300 kilowatt perkins generator
[0:18:50 - 0:18:53] ▶
on the substation in London.
[0:18:53 - 0:18:55] ▶
I mean, they're testing it.
[0:18:55 - 0:18:57] ▶
And they may start retrofitting all of their channels.
[0:18:57 - 0:19:00] ▶
Because it doubles to triples the efficiency
[0:19:00 - 0:19:02] ▶
And you think that they had this back in ancient times.
[0:19:08 - 0:19:11] ▶
Randall Carlson shared his first-hand experience
[0:19:11 - 0:19:13] ▶
with the groundbreaking technology
[0:19:13 - 0:19:15] ▶
that challenges our current understanding of energy
[0:19:15 - 0:19:17] ▶
and environmental management.
[0:19:17 - 0:19:19] ▶
He described witnessing tests on the technology
[0:19:19 - 0:19:21] ▶
that effectively manipulates and transforms
[0:19:21 - 0:19:24] ▶
exhaust gases in real time.
[0:19:24 - 0:19:26] ▶
Here's to science of what Randall observed.
[0:19:26 - 0:19:28] ▶
Two generators were set up.
[0:19:28 - 0:19:30] ▶
One as a control and the other equipped
[0:19:30 - 0:19:31] ▶
with this revolutionary technology.
[0:19:31 - 0:19:33] ▶
Various instruments, including gas analyzers
[0:19:33 - 0:19:36] ▶
and mass spectrometers, monitored the outputs.
[0:19:36 - 0:19:39] ▶
Initially, typical readings were recorded.
[0:19:39 - 0:19:41] ▶
Oxygen at about 4% to 5%, carbon dioxide around 12%,
[0:19:41 - 0:19:46] ▶
and other gases like carbon monoxide
[0:19:46 - 0:19:48] ▶
and nitrogen oxides present in smaller amounts.
[0:19:48 - 0:19:51] ▶
As the tests progressed, something extraordinary happened.
[0:19:51 - 0:19:54] ▶
The levels of carbon dioxide and carbon monoxide
[0:19:54 - 0:19:57] ▶
began to drastically decrease, eventually zeroing out.
[0:19:57 - 0:20:01] ▶
Nitrogen oxides and other hydrocarbons
[0:20:01 - 0:20:03] ▶
also reduced to just a few parts per million.
[0:20:03 - 0:20:06] ▶
While the oxygen levels significantly increased,
[0:20:06 - 0:20:08] ▶
stabilizing at an optimal 20% to 21%.
[0:20:08 - 0:20:12] ▶
The ideal for unpluted air.
[0:20:12 - 0:20:14] ▶
This technology doesn't just filter.
[0:20:14 - 0:20:15] ▶
It appears to catalyze a reaction where harmful pollutants
[0:20:17 - 0:20:20] ▶
are not just captured but converted, likely
[0:20:20 - 0:20:22] ▶
into less harmful substances, with oxygen being one
[0:20:22 - 0:20:25] ▶
This suggests a form of plasma-induced reaction
[0:20:26 - 0:20:29] ▶
where high temperatures achieved in the generator
[0:20:29 - 0:20:32] ▶
cause a breakdown of chemical bonds, allowing new formations.
[0:20:32 - 0:20:36] ▶
This is supported by the need to reach temperatures
[0:20:36 - 0:20:38] ▶
around 700 degrees to initiate the process.
[0:20:38 - 0:20:41] ▶
The implications of this are staggering.
[0:20:41 - 0:20:43] ▶
The technology is essentially turning pollutants
[0:20:43 - 0:20:46] ▶
into breathable air.
[0:20:46 - 0:20:47] ▶
And it's doing so in a self-sustaining cycle.
[0:20:47 - 0:20:50] ▶
Only requiring periodic water replenishment.
[0:20:50 - 0:20:52] ▶
Observers, including seasoned scientists and engineers,
[0:20:52 - 0:20:56] ▶
Even Randall, with all his experience,
[0:20:57 - 0:20:59] ▶
described the effects as nearly impossible.
[0:20:59 - 0:21:01] ▶
A sentiment echoed by others who could only verify
[0:21:01 - 0:21:04] ▶
the results repeatedly, without fully grasping
[0:21:04 - 0:21:06] ▶
the underlying mechanics.
[0:21:06 - 0:21:08] ▶
Moreover, the potential applications extend
[0:21:08 - 0:21:10] ▶
beyond simple pollution control.
[0:21:10 - 0:21:12] ▶
Discussions have explored how this technology could be
[0:21:12 - 0:21:14] ▶
adapted for space travel, submarines,
[0:21:14 - 0:21:17] ▶
and even converting hydrocarbon pollution
[0:21:17 - 0:21:19] ▶
in oceans into useful proteins.
[0:21:19 - 0:21:21] ▶
The transformative nature of this technology
[0:21:21 - 0:21:23] ▶
could revolutionize how we manage environmental challenges.
[0:21:23 - 0:21:27] ▶
It's important to remember the significance
[0:21:27 - 0:21:29] ▶
of what's being claimed here.
[0:21:29 - 0:21:30] ▶
A system that cleans air, conserves itself,
[0:21:30 - 0:21:33] ▶
and adapts across various applications
[0:21:33 - 0:21:35] ▶
isn't just innovative, it's revolutionary.
[0:21:35 - 0:21:38] ▶
Apex, a broader discussion on how such technologies are developed,
[0:21:38 - 0:21:42] ▶
tested, and ultimately accepted or rejected
[0:21:42 - 0:21:44] ▶
by industries and regulators.
[0:21:44 - 0:21:46] ▶
Now, revisiting Sean's question,
[0:21:46 - 0:21:48] ▶
and you think that they have this back in ancient times.
[0:21:48 - 0:21:52] ▶
Consider how mind-blowing this technology is today.
[0:21:52 - 0:21:54] ▶
Imagine what might have been possible in ancient times,
[0:21:54 - 0:21:57] ▶
when they built the pyramids and other wonders
[0:21:57 - 0:21:59] ▶
of the world that still mystify us
[0:21:59 - 0:22:01] ▶
in terms of their construction, purpose,
[0:22:01 - 0:22:03] ▶
and the technologies they used.
[0:22:03 - 0:22:05] ▶
It really makes you think.
[0:22:05 - 0:22:07] ▶
But Randall doesn't stop there.
[0:22:07 - 0:22:08] ▶
He notes that even the scientists present at the testing
[0:22:08 - 0:22:11] ▶
are scratching their heads.
[0:22:11 - 0:22:12] ▶
They're at a loss to fully explain
[0:22:12 - 0:22:14] ▶
how this technology works.
[0:22:14 - 0:22:15] ▶
When I was there at this testing,
[0:22:15 - 0:22:19] ▶
I'm seeing these scientists, physicists, and engineers
[0:22:19 - 0:22:21] ▶
that they're all scratching their heads, going,
[0:22:21 - 0:22:24] ▶
OK, we see this, but they've been struggling for a year
[0:22:24 - 0:22:29] ▶
now to explain what is actually happening.
[0:22:29 - 0:22:33] ▶
He says, I'm the biggest skeptic around.
[0:22:33 - 0:22:37] ▶
And what I saw can't happen.
[0:22:37 - 0:22:41] ▶
What I saw is impossible, but I saw it.
[0:22:41 - 0:22:44] ▶
He's with his, he had a thermal analyzer.
[0:22:44 - 0:22:48] ▶
And we've got videos of him hand in their testing
[0:22:48 - 0:22:53] ▶
as this stream of stuff is moving through these cylinders
[0:22:53 - 0:22:56] ▶
and pipes and stuff.
[0:22:56 - 0:22:58] ▶
And literally, with four inches, the temperature
[0:22:58 - 0:23:01] ▶
can change by over 100 degrees Fahrenheit.
[0:23:01 - 0:23:04] ▶
And he says, this is impossible.
[0:23:04 - 0:23:06] ▶
He says, I kept testing and testing and testing
[0:23:06 - 0:23:10] ▶
with my thermal analyzer.
[0:23:10 - 0:23:13] ▶
And it came up the same every time.
[0:23:13 - 0:23:16] ▶
He says, I'm not sure what.
[0:23:16 - 0:23:18] ▶
He says, we're just at the beginning
[0:23:18 - 0:23:19] ▶
of trying to figure out what the hell is happening here.
[0:23:19 - 0:23:23] ▶
But then he went in to discuss the potential applications of it.
[0:23:23 - 0:23:27] ▶
Now, one of the big questions is, is, OK,
[0:23:27 - 0:23:31] ▶
when you do look at these readouts, OK, carbon dioxide,
[0:23:31 - 0:23:35] ▶
carbon dioxide, the other things go down.
[0:23:35 - 0:23:38] ▶
In some cases, zero out.
[0:23:38 - 0:23:40] ▶
In other cases, it doesn't zero out entirely,
[0:23:40 - 0:23:42] ▶
but it's only a small fraction of what it had been.
[0:23:42 - 0:23:46] ▶
Meanwhile, the oxygen's gone up.
[0:23:46 - 0:23:48] ▶
So then the question, OK, where did the carbon dioxide go?
[0:23:48 - 0:23:52] ▶
Where did the carbon monoxide go?
[0:23:52 - 0:23:55] ▶
Well, it looks like it somehow got
[0:23:55 - 0:23:58] ▶
transmuted on the atomic level into oxygen.
[0:23:58 - 0:24:04] ▶
And how bizarre that the concentration of oxygen coming out,
[0:24:04 - 0:24:12] ▶
of the exhaust pipes, is the optimum oxygen
[0:24:12 - 0:24:18] ▶
that we would want for unpoluted breathable air.
[0:24:18 - 0:24:22] ▶
And that's what's coming out.
[0:24:22 - 0:24:24] ▶
But there's other applications that
[0:24:24 - 0:24:26] ▶
look like they could be, I mean, some of the stuff
[0:24:26 - 0:24:30] ▶
that I've seen some of these guys talking about is space travel,
[0:24:30 - 0:24:34] ▶
submarines, possibly even the conversion
[0:24:34 - 0:24:38] ▶
of hydrocarbon-based pollution and oceans
[0:24:38 - 0:24:41] ▶
into protein, which could be very interesting.
[0:24:41 - 0:24:47] ▶
And I don't know much about that,
[0:24:47 - 0:24:48] ▶
but that's one of the potential applications
[0:24:48 - 0:24:53] ▶
that's already been demonstrated to be possible.
[0:24:53 - 0:24:56] ▶
What do you really think?
[0:24:56 - 0:24:57] ▶
Will we hear more about this technology?
[0:24:58 - 0:25:01] ▶
Or will it be suppressed?
[0:25:01 - 0:25:02] ▶
As I said at the beginning of this video,
[0:25:02 - 0:25:04] ▶
the Sean Ryan show is quickly becoming my favorite.
[0:25:04 - 0:25:07] ▶
And for good reason, if you haven't checked it out yet,
[0:25:07 - 0:25:10] ▶
I urge you to visit his page.
[0:25:10 - 0:25:11] ▶
Sean is one of the realist interviewers out there.
[0:25:11 - 0:25:14] ▶
And his conversations are nothing short of amazing.
[0:25:14 - 0:25:16] ▶
You'll find all the links in the description below.
[0:25:16 - 0:25:19] ▶
Believe me, you'll be amazed by his interviews.
[0:25:19 - 0:25:21] ▶