1,005 segments
So are the UFOs time travel?
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Are the UFOs just gravity control machines?
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Is that a false dichotomy?
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Or are the UFOs extraterrestrials?
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Or maybe all of that's a false dichotomy.
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Well, you just went through A, B, and C.
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Don't forget D, which is all the above.
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Yeah, yeah, what do you think?
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I think all the above.
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You think all the above?
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I think all the above.
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My hunch is that if you're able to somehow put yourself
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backward or forward in the space-time continuum,
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you'll be in a different dimension,
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not in the same dimension.
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Well, that recalls a conversation
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between Morgan and Townsend Brown, where Morgan's in his office.
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And Townsend Brown said, what if we had the ability to time travel?
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I believe we're going to be able to do it in our lifetime.
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And we'll have a list of people who will be able to do this.
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And Morgan says, I want to be on that list.
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And Townsend Brown says, I think he will be on that list.
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And he says, what would the first thing you do
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if we had time travel?
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And Morgan says, I'd go back and I'd save my sister.
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Because his sister drowned in a pool accident.
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And that caused his parents and his whole family
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to sort of break up.
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Yeah, his whole family disintegrated around the age.
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In 1929, he wrote a paper.
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It was kind of cutting back.
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But in 1929, he writes a paper about the minor quantum.
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And it never sees the light of day.
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And later, while he's at Martin,
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he writes another paper called The Structure of Space.
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And that is, you can, that's available.
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Why do you think the minor quantum paper,
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and that's right when he gets recruited by the Navy,
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the Navy saw it and then recruited him.
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And that is now classified?
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Because it's impossible to find.
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And you can't find any reference to it.
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Townsend Brown's scientific paper,
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which we do have access to, is called The Structure of Space,
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which he wrote in the early 40s while working at Martin Corporation.
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In the paper, you have two kinds of gravities.
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Gravity wells, which are positively charged and attractive.
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And gravity hills, which are negatively charged and repulsive.
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Most matter is weakly positively charged
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because the protons in an atom outweigh its electrons.
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When you combine a positive and a negative charge,
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so a gravity well and a gravity hill,
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A wave that a craft, like a UFO, could serve.
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You're riding a wave, basically.
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You create a wave and you're on top of the tsunami wave
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and you're riding across space-time.
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Perhaps one of the more bizarre aspects of Townsend Brown's work
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is his lifelong obsession with a concept called sidereal radiation.
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This idea came from the fact that the sun and the moon's positions
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actually had minor effects on his gravitators.
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In other words, there's some form of radiation coming from the solar system
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that actually affects gravity and creates gravitational anomalies.
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He noticed fluctuations in those effects,
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which seemed to have some bearing on the immediate gravitational field,
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the position of the sun or position of the moon,
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and the influence of those gravitational fields.
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And he was very, very interested through the entire course of his life
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in what that radiation, what those signals were.
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One of the things he did was build these devices that he called electrometers,
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and they were receiving maybe neutrinos.
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But every so often, there'd be an anomaly,
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and the anomaly started to show up in patterns.
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And he started to find, well, the patterns correlate to the sidereal calendar,
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sidereal calendar being the calendar by the stars, not the sun.
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But he was doing that electrometer stuff even on Catalina at the end of his life.
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At first, I thought this was the part of Brown's work that you could resoundingly write off.
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It seemed like complete quackery to me.
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And then just a few weeks ago, I had a call with a prominent Harvard physicist.
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This person is a secret fan of Townsend Brown's,
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and is very interested in sidereal radiation,
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but chose to remain anonymous because of Brown's stigma.
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And I'm not talking about Avi Loeb,
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somebody obviously interested in finding extraterrestrial life.
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You can think of me just as a farm boy that is curious.
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Rupert Sheldrake, a British experimentalist who's a little more unconventional,
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also discusses the preponderance of gravitational anomalies,
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and how the gravitational constant isn't all that constant.
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But I said, well, then what about Big G,
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the gravitational constant known in the trade as Big G,
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it's written with a capital G,
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Newton's universal gravitational constant.
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That's varied by more than 1.3% in recent years.
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And it seems to vary from place to place and from time to time.
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And he said, oh, well, those are just errors.
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And unfortunately, there are quite big errors with Big G.
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So I said, well, what if it's really changing?
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I mean, perhaps it is really changing.
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And then I looked at how they do it.
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What happens is they measure it in different labs.
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They get different values on different days.
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And then they average them.
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And then other labs around the world do the same.
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And they come out usually with a rather different average.
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And then the International Committee on Metrology meets every 10 years or so
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and average the ones from labs around the world to come up with the value of Big G.
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But what if G were actually fluctuating?
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There's already evidence, actually, that it changes throughout the day and throughout the year.
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The other thing that Brown's structure of space tries to do is revive the concept of the ether.
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The 19th century concept that empty space is actually full of substance.
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The Michelson-Morley experiments involved a set of optical observations to detect the ether in the 1890s.
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In short, they did not detect the ether.
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But the absence of evidence is not the evidence of absence.
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And even Albert Einstein, who vehemently opposed the ether earlier in his career,
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became open to its compatibility with general relativity.
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When you are trying to come up with this analogy between electromagnetism and general relativity
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to explain some of these effects,
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are you dealing only with the Levit-Javita connection of the metric as Einstein did?
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Or are you considering...
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I'm basically dealing with the metric coefficients
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by postulating a dielectric vacuum.
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whose dielectric constant values for, say, epsilon and mu,
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the permeability and permittivity of the vacuum,
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And once you manipulate those,
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you're manipulating C, which is one of the screw to mu epsilon.
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And so once you begin to manipulate C,
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then you can change effects associated with all of the...
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And so you could, with this polarizable vacuum approach,
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which I published in Physics Journal,
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you can get all of the, quote,
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tests of general relativity and so on.
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So the fact that you might be able to pursue that further
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by taking into account the fact that underlying electromagnetism
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is vacuum fluctuations,
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which have the effect of controlling the value for epsilon and mu.
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So then you say, okay, well, if I want to go over to general relativity,
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maybe I can control the underlying values for the metric coefficients.
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If empty space or the quantum vacuum is filled with a medium,
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the most efficient way to communicate over vast distances
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is to tug on the medium itself,
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not to send a signal through it.
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That's why Townsend Brown's Winterhaven proposal
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doesn't only involve exotic propulsion,
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it involves novel communications.
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We're coming right here to one of the central questions of,
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I guess, all of modern science.
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Or is there something to it?
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And whether or not there are ways to influence
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what we can call the quantum continuum
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or whatever is that space between the nucleus and the electron orbit,
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Descartes called it the plenum.
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Now, when we talk about transmitting sound waves, for example,
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we transmit the sound waves through a medium
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and they travel in a way.
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What Townsend Brown seems to be describing in the structure of space
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is that there is something that may have been dismissed
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in the Michelson-Morley experiment,
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which was unable to detect ether,
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that there is still something of, for lack of a better word,
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substance to empty space.
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And that if you can tug on that empty space,
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that rather than sending a wave through a medium,
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you're tugging on the rope itself.
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And the tug appears on the other end instantaneously.
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And you can do that through really high energy output.
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That's super interesting.
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Finally, the weirdest component of Brown's work is time travel.
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The way this might work would be somewhat like the legendary Der Glock,
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where the bell was described in Nazi Germany.
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An SS officer named Jacob Sporenberg documented magnetic field separation,
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all surrounding a possible anti-gravity machine.
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This bell-shaped machine was also supposed to manipulate time under high voltages.
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Originally, I thought this sounded absolutely nuts,
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and I'm still not sure what to think of it.
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who was a very well-respected physicist at the time,
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and was super interested in anti-gravity,
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apparently worked on the project.
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As did Ernest Graowitz,
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head of the SS Medical Experiments Division,
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under which Joseph Mengele worked.
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There's even a Polish journalist named Igor Witkowski,
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who seems to be very high conviction that the bell did in fact exist,
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and it would make sense that these characters might be involved
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if you're putting actual people in a high-voltage environment
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and trying to make them travel through time.
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In fact, we know from Nikola Tesla
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that as long as the current is low,
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voltages can be very high,
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and the electrical charge can go through the human body
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without doing too much damage.
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And Nick Cook's source, Dan Marcus,
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told him that the Germans had been able to slow time
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within the area of the bell's torsion field,
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the ceramic-lined chamber,
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to one-thousandth the rate at which it was progressing outside.
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If you sat inside the chamber for a year,
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what you've done is slow time down on the inside,
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while on the outside, it progresses at a normal rate.
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Step outside the chamber after a year is ticked by on your calendar,
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and you find yourself a thousand years into the future.
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Again, this concept seems absolutely insane to me,
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but we do know that time slows down
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the closer you get to a gravitational source.
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General relativity teaches us that clocks either speed up or slow down,
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based on whether they're near a gravitational source or not,
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1 over r squared over distance.
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You can create a gravitational source in one of two ways,
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through mass or through energy.
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So with high enough energy, maybe you could slow time.
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Another theoretical framework that may explain Brown's work
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is Ferris Williams' 5D dynamic theory.
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Ferris was a colleague of Okie Shannon,
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former manager of special projects at Los Alamos National Labs.
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Shannon is on record saying,
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if we were to build an anti-gravitational device,
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it would be built on the principles involved in Williams' theory.
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And in 1988, the corporation SAIC
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was tasked with studying electric propulsion and anti-gravity
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for Edwards Air Force Base.
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Their paper stated that Dr. James Woodward's work on anti-gravity,
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which is built on Townsend Brown's research on capacitors,
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demonstrated theoretical validity
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and was showing enough progress to warrant further support and funding.
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The paper also said that Ferris Williams was essential to the research,
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and suggested that a five-dimensional framework like Williams has
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could lead to unified field theory and novel propulsion methods,
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which again brings us back to what Nick Cook's pseudonymous source,
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Dan Marcus, told him.
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But here was the truly wild part.
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The vortex, Marcus said,
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wasn't a three-dimensional phenomena,
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or even a four-dimensional one.
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For a torsion field to be able to interact with gravity and electromagnetism,
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it had to be endowed with attributes
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that went beyond the three dimensions of left, right, up, and down,
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and the four-dimensional time field they inhabited,
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something that the theorists, for convenience sake,
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labeled a fifth dimension, hyperspace.
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And just look at what novel propulsion expert,
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physicist, and UFO legend Eric Davis writes
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while attempting to debunk the Byfield-Brown effect
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in his Frontiers of Propulsion Science.
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He concedes that an Air Force study postulated
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that by assuming a five-dimensional continuum,
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an electrogravitic coupling could be derived
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to explain the Byfield-Brown effect.
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Which again begs the question,
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Why would the Air Force continue to be motivated
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to derive a theoretical framework for the Byfield-Brown effect
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if it doesn't work in the first place,
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or if it can just be attributed to ion wind?
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If it's just attributable to ion wind,
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you don't need another framework.
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This brings us to perhaps the most practical,
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but also revolutionary theory around Brown's work,
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one that doesn't involve any unknowable
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transtemporal fifth dimension.
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What this five-dimensional theory appears to do
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is tied together electromagnetism with gravity.
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And if you can do that,
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if you can take advantage of his expanded Maxwell equations,
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then maybe you can build an anti-gravity device.
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Shannon is probably talking about a theory
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called extended electrodynamics,
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a theory I personally learned about
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from a top Navy scientist
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who chose to remain anonymous
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for fear of reprisals from his superiors
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for discussing this topic.
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When you introduce the scalar field,
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you now have the possibility
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of at least three completely new kinds of waves.
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Extended electrodynamics only involves a few tweaks
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to classical electrodynamics,
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but those tweaks actually just represent
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a more faithful adherence
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to the original equations of electromagnetism
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developed by James Clerk Maxwell
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You see, the original set of Maxwell's 20 equations,
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involved one equation
[0:14:14 - 0:14:16] ▶
for each of the three XYZ vector components
[0:14:16 - 0:14:19] ▶
of the electric and magnetic fields.
[0:14:19 - 0:14:21] ▶
But a British physicist named Oliver Heaviside,
[0:14:21 - 0:14:24] ▶
who came right after Maxwell,
[0:14:24 - 0:14:26] ▶
condensed these 20 original equations
[0:14:26 - 0:14:29] ▶
down to four simple vector calculus equations
[0:14:29 - 0:14:31] ▶
in the name of simplicity.
[0:14:31 - 0:14:33] ▶
Heaviside only left room
[0:14:34 - 0:14:36] ▶
for one kind of traveling electromagnetic wave,
[0:14:36 - 0:14:39] ▶
your conventional transverse Hertzian wave.
[0:14:39 - 0:14:41] ▶
This involves electric and magnetic vectors
[0:14:42 - 0:14:44] ▶
perpendicular to each other
[0:14:44 - 0:14:45] ▶
and to the propagation direction of the wave.
[0:14:45 - 0:14:48] ▶
Another physicist named Lorentz
[0:14:49 - 0:14:50] ▶
developed an equation
[0:14:50 - 0:14:52] ▶
that set a constraint
[0:14:52 - 0:14:53] ▶
between the two potential functions,
[0:14:53 - 0:14:55] ▶
scalar and vector potentials.
[0:14:55 - 0:14:57] ▶
This Lorentz equation is a staple
[0:14:57 - 0:14:59] ▶
in classical electrodynamics.
[0:14:59 - 0:15:01] ▶
He set the equation,
[0:15:01 - 0:15:02] ▶
or the sum of the derivatives
[0:15:02 - 0:15:03] ▶
of the vector and scalar potentials,
[0:15:03 - 0:15:06] ▶
This imposed an artificial and arbitrary constraint
[0:15:07 - 0:15:10] ▶
that limited the range of things
[0:15:10 - 0:15:12] ▶
these equations could describe in nature.
[0:15:12 - 0:15:14] ▶
Things like the Bohm-Eronoff effect,
[0:15:14 - 0:15:16] ▶
which seem pretty anomalous
[0:15:16 - 0:15:18] ▶
in the classical electrodynamics framework,
[0:15:18 - 0:15:20] ▶
where electromagnetic potentials can be present
[0:15:20 - 0:15:23] ▶
without the presence of magnetic or electric fields.
[0:15:23 - 0:15:26] ▶
With the new equations of extended electrodynamics,
[0:15:26 - 0:15:29] ▶
you don't just have magnetic and electric fields.
[0:15:29 - 0:15:32] ▶
You also have what's called a scalar field,
[0:15:32 - 0:15:35] ▶
and this makes possible
[0:15:35 - 0:15:36] ▶
at least three new kinds of waves.
[0:15:36 - 0:15:39] ▶
Scalar, scalar longitudinal, and helicoidal.
[0:15:40 - 0:15:43] ▶
These waves often don't decay
[0:15:43 - 0:15:45] ▶
in the same way traditional Hertzian waves do,
[0:15:45 - 0:15:47] ▶
and they also interact with electrons differently.
[0:15:48 - 0:15:50] ▶
These scalar waves may actually couple with gravity
[0:15:50 - 0:15:53] ▶
more tightly than traditional Hertzian waves,
[0:15:53 - 0:15:56] ▶
explaining the Bifield-Brown effect.
[0:15:56 - 0:15:58] ▶
This may explain a lot of the anomalous effects
[0:15:58 - 0:16:01] ▶
and other high-voltage physicists have gotten over the years.
[0:16:02 - 0:16:05] ▶
According to this Navy scientist,
[0:16:05 - 0:16:07] ▶
these new waves involved in extended electrodynamics
[0:16:07 - 0:16:11] ▶
can unlock novel propulsion,
[0:16:11 - 0:16:12] ▶
better underwater and deep space communication,
[0:16:13 - 0:16:15] ▶
and even help bring about clean and free energy.
[0:16:16 - 0:16:19] ▶
These scalar and vector potentials
[0:16:19 - 0:16:21] ▶
that the quantum field breaks down into
[0:16:21 - 0:16:23] ▶
might have been what Townsend-Brown was describing
[0:16:23 - 0:16:26] ▶
in his last 1929 paper, The Minor Quantum.
[0:16:26 - 0:16:30] ▶
It's impossible to find.
[0:16:30 - 0:16:31] ▶
It is, and you can't find any reference to it.
[0:16:31 - 0:16:34] ▶
And these quantum potentials may even have something to do
[0:16:35 - 0:16:38] ▶
with spooky phenomena like remote viewing.
[0:16:38 - 0:16:40] ▶
Just think about it.
[0:16:40 - 0:16:41] ▶
Information transfer in remote viewing
[0:16:41 - 0:16:43] ▶
seems to transcend space-time
[0:16:43 - 0:16:46] ▶
and not decay like any of the other four forces in physics would.
[0:16:46 - 0:16:49] ▶
Was Townsend-Brown at all connected with remote viewing research
[0:16:50 - 0:16:53] ▶
the CIA was funding at Stanford Research Institute?
[0:16:53 - 0:16:56] ▶
And Linda, who was visiting her father in Atherton at that time,
[0:16:56 - 0:17:00] ▶
remembers seeing a check from the Townsend-Brown Foundation
[0:17:01 - 0:17:05] ▶
to Stanford for $100,000.
[0:17:05 - 0:17:08] ▶
Finally, scalar longitudinal waves
[0:17:09 - 0:17:11] ▶
may also explain the atomic UFO connection.
[0:17:11 - 0:17:14] ▶
Detonate a nuclear weapon,
[0:17:14 - 0:17:16] ▶
and you're probably creating these longitudinal waves,
[0:17:16 - 0:17:19] ▶
sending some sort of signal to UFOs.
[0:17:19 - 0:17:21] ▶
Congressman, do you think that these reverse engineering programs
[0:17:25 - 0:17:29] ▶
have made any progress?
[0:17:29 - 0:17:30] ▶
I just don't think they're going to scrape.
[0:17:31 - 0:17:33] ▶
If they did, we wouldn't.
[0:17:33 - 0:17:34] ▶
We would own the skies if they hadn't.
[0:17:35 - 0:17:37] ▶
Isn't it in their best interest
[0:17:37 - 0:17:39] ▶
to just get immunity for themselves
[0:17:39 - 0:17:40] ▶
and try to refresh the talent pool
[0:17:40 - 0:17:42] ▶
if these people are, you know,
[0:17:42 - 0:17:43] ▶
and it's completely compartmentalized
[0:17:44 - 0:17:46] ▶
and they haven't made, you know,
[0:17:46 - 0:17:47] ▶
They're completely arrogant.
[0:17:48 - 0:17:49] ▶
Completely arrogant.
[0:17:50 - 0:17:51] ▶
They're above the laws.
[0:17:51 - 0:17:52] ▶
Personally, I have no desire
[0:17:52 - 0:17:54] ▶
to gratuitously out American defense projects
[0:17:54 - 0:17:57] ▶
that help keep our population safe.
[0:17:57 - 0:17:59] ▶
as evidenced by the name of my channel,
[0:18:00 - 0:18:02] ▶
and pro-national security.
[0:18:02 - 0:18:03] ▶
And I was actually hesitant
[0:18:04 - 0:18:05] ▶
to make this video because of that.
[0:18:05 - 0:18:07] ▶
But in speaking to people
[0:18:07 - 0:18:08] ▶
closer to the inside than me
[0:18:08 - 0:18:10] ▶
and voicing my own apprehensions
[0:18:10 - 0:18:12] ▶
around these revelations,
[0:18:12 - 0:18:13] ▶
I've gotten absolutely no good reasons
[0:18:14 - 0:18:16] ▶
as to why the broader frameworks
[0:18:16 - 0:18:18] ▶
around Townsend Brown's work
[0:18:18 - 0:18:19] ▶
should not be open source.
[0:18:19 - 0:18:21] ▶
I've been encouraged
[0:18:23 - 0:18:23] ▶
by anonymous people on the inside
[0:18:23 - 0:18:25] ▶
because of the potentially
[0:18:26 - 0:18:27] ▶
very exciting civil side applications
[0:18:27 - 0:18:30] ▶
Brown's work might lead to.
[0:18:30 - 0:18:32] ▶
on some hidden black aviation projects
[0:18:33 - 0:18:35] ▶
from 30 to 40 years ago,
[0:18:35 - 0:18:37] ▶
that have already been speculated on
[0:18:37 - 0:18:39] ▶
ad nauseum by a ton of other people,
[0:18:39 - 0:18:41] ▶
helps garner resources and support
[0:18:42 - 0:18:44] ▶
for these new scientific frameworks,
[0:18:44 - 0:18:45] ▶
it feels like my moral duty
[0:18:46 - 0:18:48] ▶
to shed some more light
[0:18:48 - 0:18:49] ▶
as evidence for the usefulness
[0:18:50 - 0:18:52] ▶
The legacy UFO program
[0:18:53 - 0:18:54] ▶
needs to come forward
[0:18:54 - 0:18:55] ▶
and not leave David Grush
[0:18:55 - 0:18:57] ▶
completely hanging out to dry.
[0:18:57 - 0:18:59] ▶
They need to have some courage
[0:18:59 - 0:19:00] ▶
and stop thinking about
[0:19:00 - 0:19:01] ▶
I should personally disclose
[0:19:03 - 0:19:05] ▶
that most of my money
[0:19:05 - 0:19:06] ▶
is in a chemical combustion rocket company
[0:19:06 - 0:19:08] ▶
with no plans to explore
[0:19:08 - 0:19:10] ▶
exotic electromagnetic propulsion.
[0:19:10 - 0:19:12] ▶
So I'm actually arguing
[0:19:12 - 0:19:13] ▶
against my own interests here,
[0:19:13 - 0:19:15] ▶
but for those of society
[0:19:15 - 0:19:16] ▶
and shining a light on Brown's work,
[0:19:16 - 0:19:18] ▶
it's my hope that people
[0:19:18 - 0:19:19] ▶
in the legacy program
[0:19:19 - 0:19:21] ▶
begin to act similarly.
[0:19:21 - 0:19:22] ▶
It would even make sense
[0:19:22 - 0:19:24] ▶
from a national security perspective.
[0:19:24 - 0:19:26] ▶
The program should want to out itself.
[0:19:26 - 0:19:28] ▶
Yeah, it's like, yeah,
[0:19:28 - 0:19:30] ▶
protect what could be weaponized,
[0:19:30 - 0:19:32] ▶
but generally allow it
[0:19:32 - 0:19:33] ▶
to be studied openly.
[0:19:33 - 0:19:34] ▶
But there's absolutely like
[0:19:35 - 0:19:37] ▶
that I'm aware of to do so.
[0:19:38 - 0:19:39] ▶
Now this wouldn't be
[0:19:40 - 0:19:41] ▶
an American Alchemy episode
[0:19:41 - 0:19:42] ▶
an insane wild card at you
[0:19:43 - 0:19:45] ▶
at the end of the video.
[0:19:45 - 0:19:45] ▶
an incredible religious studies
[0:19:48 - 0:19:49] ▶
professor at UNC Wilmington,
[0:19:49 - 0:19:51] ▶
writes in her first book,
[0:19:51 - 0:19:53] ▶
of a secret space program
[0:19:54 - 0:19:56] ▶
she codenames Tyler.
[0:19:56 - 0:19:58] ▶
who's still a pseudonym
[0:19:59 - 0:20:00] ▶
is a mission controller
[0:20:01 - 0:20:03] ▶
and works in the Space Force.
[0:20:03 - 0:20:04] ▶
I've personally protected
[0:20:04 - 0:20:06] ▶
isn't about doxing people,
[0:20:10 - 0:20:11] ▶
it's about substantive ideas.
[0:20:11 - 0:20:13] ▶
his name is literally
[0:20:14 - 0:20:14] ▶
all over the internet,
[0:20:14 - 0:20:15] ▶
with close to a million views.
[0:20:16 - 0:20:18] ▶
So I'll just mention it
[0:20:18 - 0:20:19] ▶
maybe the trippiest connection
[0:20:20 - 0:20:21] ▶
in this whole Townsend Brown saga.
[0:20:22 - 0:20:24] ▶
is a NASA mission controller
[0:20:26 - 0:20:27] ▶
named Timothy Taylor.
[0:20:27 - 0:20:28] ▶
Taylor wrote an autobiography
[0:20:30 - 0:20:32] ▶
called Launch Fever.
[0:20:33 - 0:20:34] ▶
Townsend Brown's daughter,
[0:20:39 - 0:20:40] ▶
an engineer's first-hand experience
[0:20:43 - 0:20:45] ▶
to be a part of the space program,
[0:20:46 - 0:20:47] ▶
So what is Tim Taylor's connection
[0:20:51 - 0:20:53] ▶
with Townsend Brown?
[0:20:53 - 0:20:54] ▶
a frequent UFO experiencer,
[0:20:55 - 0:20:57] ▶
had some interesting things
[0:21:00 - 0:21:01] ▶
to say about the topic
[0:21:01 - 0:21:03] ▶
Tim Taylor personally
[0:21:04 - 0:21:05] ▶
he was in an elite group
[0:21:06 - 0:21:08] ▶
called the Nassau Group
[0:21:08 - 0:21:09] ▶
headed up by T. Townsend Brown,
[0:21:09 - 0:21:11] ▶
they had time travel technology.
[0:21:13 - 0:21:14] ▶
So what is Tim Taylor's
[0:21:15 - 0:21:16] ▶
connection with Townsend Brown?
[0:21:16 - 0:21:18] ▶
Was Brown the chief architect
[0:21:18 - 0:21:19] ▶
of a secret parallel space program?
[0:21:19 - 0:21:21] ▶
Townsend Brown had a UFO experience
[0:21:22 - 0:21:24] ▶
in Catalina as a teenager.
[0:21:24 - 0:21:27] ▶
where he was standing.
[0:21:31 - 0:21:33] ▶
I used to ride my horse
[0:21:33 - 0:21:35] ▶
It actually approached him.
[0:21:38 - 0:21:40] ▶
with that ball of light
[0:21:45 - 0:21:47] ▶
that was the beginning
[0:22:04 - 0:22:05] ▶
that he ever learned
[0:22:09 - 0:22:11] ▶
any forward progress
[0:22:20 - 0:22:22] ▶
over the last 50 years.
[0:22:22 - 0:22:23] ▶
are finally waking up
[0:22:25 - 0:22:27] ▶
of their abstract math.
[0:22:27 - 0:22:29] ▶
a bunch of really smart physicists
[0:22:36 - 0:22:38] ▶
like sheep to slaughter
[0:22:39 - 0:22:40] ▶
into the wrong frameworks.
[0:22:40 - 0:22:41] ▶
Academic institutions
[0:22:45 - 0:22:46] ▶
in a massive brain drain.
[0:22:48 - 0:22:50] ▶
on the dumbest problems.
[0:22:52 - 0:22:54] ▶
we've only been able
[0:22:55 - 0:22:56] ▶
If we can manipulate
[0:23:02 - 0:23:03] ▶
a world of possibilities
[0:23:06 - 0:23:07] ▶
interstellar travel,
[0:23:08 - 0:23:09] ▶
rocketry will accomplish,
[0:23:12 - 0:23:13] ▶
combustion propulsion,
[0:23:16 - 0:23:17] ▶
to get to the nearest
[0:23:18 - 0:23:19] ▶
is a little ridiculous
[0:23:36 - 0:23:37] ▶
these little objects
[0:23:45 - 0:23:46] ▶
in a Saturn V rocket
[0:23:48 - 0:23:49] ▶
120 to 200 ton rocket,
[0:24:05 - 0:24:07] ▶
just to get to the moon,
[0:24:09 - 0:24:10] ▶
so because of the tonnage,
[0:24:11 - 0:24:12] ▶
which is a wild amount of,
[0:24:12 - 0:24:14] ▶
that's unprecedented
[0:24:14 - 0:24:15] ▶
into low Earth orbit.
[0:24:21 - 0:24:22] ▶
It burns nine-tenths
[0:24:22 - 0:24:23] ▶
and then it's floating
[0:24:25 - 0:24:26] ▶
around in low Earth orbit
[0:24:26 - 0:24:27] ▶
Then you have to get
[0:24:29 - 0:24:30] ▶
up into low Earth orbit.
[0:24:30 - 0:24:32] ▶
It does butt-to-butt
[0:24:32 - 0:24:33] ▶
you end up with two-tenths
[0:24:35 - 0:24:37] ▶
butt-to-butt refuelings,
[0:24:45 - 0:24:47] ▶
which, God help you,
[0:24:47 - 0:24:48] ▶
just to get to the moon.
[0:24:51 - 0:24:53] ▶
And then I think about
[0:24:53 - 0:24:54] ▶
bizarre geomagnetic anomalies
[0:24:57 - 0:24:59] ▶
where you have these,
[0:24:59 - 0:25:00] ▶
almost it seems like,
[0:25:00 - 0:25:01] ▶
where maybe you don't,
[0:25:03 - 0:25:04] ▶
maybe you don't have
[0:25:04 - 0:25:05] ▶
floating through space model,
[0:25:06 - 0:25:08] ▶
the substance itself.
[0:25:15 - 0:25:16] ▶
On the substance of space.
[0:25:16 - 0:25:17] ▶
And maybe it's all the
[0:25:19 - 0:25:20] ▶
towns and Brown stuff
[0:25:20 - 0:25:21] ▶
And if you even look
[0:25:23 - 0:25:24] ▶
interesting space program.
[0:25:38 - 0:25:40] ▶
Brown's work is definitely
[0:25:40 - 0:25:41] ▶
not the current state
[0:25:41 - 0:25:43] ▶
smarter people than me
[0:25:45 - 0:25:46] ▶
Alcubierre warp drive,
[0:25:50 - 0:25:52] ▶
microwave beam propulsion,
[0:25:52 - 0:25:53] ▶
exotic propulsion mechanisms
[0:25:55 - 0:25:57] ▶
almost a hundred years
[0:26:02 - 0:26:03] ▶
after he discovered it,
[0:26:03 - 0:26:04] ▶
that at the very least,
[0:26:05 - 0:26:07] ▶
and better understood
[0:26:08 - 0:26:10] ▶
science and engineering
[0:26:10 - 0:26:11] ▶
All the physical world
[0:26:13 - 0:26:14] ▶
stuff we were promised
[0:26:14 - 0:26:15] ▶
travel and colonization.
[0:26:23 - 0:26:24] ▶
this sci-fi at the time
[0:26:25 - 0:26:27] ▶
that was aspirational,
[0:26:27 - 0:26:28] ▶
where the future ended.
[0:26:33 - 0:26:34] ▶
dropping some breadcrumbs
[0:26:45 - 0:26:46] ▶
and naming the wacky
[0:26:46 - 0:26:47] ▶
scientist in the movie
[0:26:47 - 0:26:48] ▶
that's noticed that.
[0:26:50 - 0:26:51] ▶
So I congratulate you.
[0:26:52 - 0:26:53] ▶
makes time travel possible
[0:26:55 - 0:26:56] ▶
takes place in 1985,
[0:27:01 - 0:27:02] ▶
Townsend Brown's death.
[0:27:03 - 0:27:05] ▶
not super educated inventor
[0:27:07 - 0:27:09] ▶
who made real breakthroughs.
[0:27:09 - 0:27:11] ▶
the Bifield-Brown effect
[0:27:17 - 0:27:18] ▶
under two conditions.
[0:27:18 - 0:27:20] ▶
the person has to conduct
[0:27:21 - 0:27:22] ▶
isn't due to ion wind.
[0:27:26 - 0:27:28] ▶
you have to let us film it.
[0:27:29 - 0:27:30] ▶
if you're interested
[0:27:34 - 0:27:35] ▶
lead with any experience
[0:27:37 - 0:27:38] ▶
you have doing experiments
[0:27:38 - 0:27:39] ▶
the Bifield-Brown effect
[0:27:47 - 0:27:48] ▶
That would kind of blow,
[0:27:51 - 0:27:51] ▶
whether Brown's experiments
[0:28:01 - 0:28:02] ▶
into deep black aerospace
[0:28:03 - 0:28:04] ▶
exotic ionic propulsion
[0:28:05 - 0:28:06] ▶
gravity manipulation.
[0:28:08 - 0:28:09] ▶
makes him dramatically
[0:28:10 - 0:28:12] ▶
manipulated Wikipedia page.
[0:28:13 - 0:28:15] ▶
And both would probably
[0:28:15 - 0:28:17] ▶
lay better foundations
[0:28:17 - 0:28:18] ▶
for an alternative lineage
[0:28:18 - 0:28:19] ▶
a better future path
[0:28:22 - 0:28:24] ▶
to interplanetary travel.
[0:28:24 - 0:28:25] ▶
the science embargo.
[0:28:26 - 0:28:27] ▶
Our desperately declining
[0:28:28 - 0:28:29] ▶
Townsend Brown and Morgan
[0:28:35 - 0:28:36] ▶
know how to time travel?
[0:28:36 - 0:28:38] ▶
And what do you think
[0:28:43 - 0:28:44] ▶
Townsend Brown's goal
[0:28:44 - 0:28:45] ▶
Maybe the end result
[0:28:47 - 0:28:49] ▶
that the human species
[0:28:52 - 0:28:53] ▶
I said more crazy shit
[0:28:57 - 0:29:01] ▶
final question for you,
[0:29:06 - 0:29:07] ▶
was maybe a time traveler,
[0:29:09 - 0:29:12] ▶
he's up to right now?
[0:29:13 - 0:29:14] ▶
If there's something
[0:29:22 - 0:29:23] ▶
that's truly dangerous,
[0:29:24 - 0:29:26] ▶
in the middle of it.
[0:29:29 - 0:29:30] ▶
If someone was trying
[0:29:32 - 0:29:35] ▶
rearranging their figures
[0:29:42 - 0:29:44] ▶
so they wouldn't come up
[0:29:44 - 0:29:47] ▶
with what they thought.
[0:29:47 - 0:29:48] ▶
that keeps your team
[0:30:03 - 0:30:04] ▶
If you've ever tried
[0:30:07 - 0:30:08] ▶
to schedule a meeting
[0:30:08 - 0:30:09] ▶
across five time zones
[0:30:09 - 0:30:10] ▶
you know the absolute
[0:30:12 - 0:30:13] ▶
horror of losing people
[0:30:13 - 0:30:15] ▶
It's a single streamlined
[0:30:15 - 0:30:17] ▶
even caffeine levels.
[0:30:34 - 0:30:35] ▶
your first six months
[0:30:39 - 0:30:40] ▶
quo.com slash Jesse.
[0:30:41 - 0:30:43] ▶
No missed customers.
[0:30:50 - 0:30:51] ▶