Tin Foil Hat With Sam Tripoli - #623: Tychosium: Does The Sun Revolve Around Earth with Simon Shack and Patrik Holmqvist

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Starting point is 00:02:31 We have t-shirts, we have social media, we have premium content, all there on Sam Triply.com. And guys, we have a great episode for you today. It is a lot of fire. We get into the basically the Tycos model of our galaxy and guys would you I thought it was a fire episode bro. It's very dense at first and then we get some really great stuff as well but man there's a lot of information to understand basically the heliocentric model is a lie from the Jesuits and it's it's like, man, when it clicks, you get it, dude. You really get what these guys are talking

Starting point is 00:03:11 about. So we really appreciate Simon and Patrick for coming on. Anything else guys? No broken sim, new broken sim just dropped. Checked out. It's a good one. All right guys, enjoy this episode. We go deep, home, boy. Eric, open your mic. Drink. All right, let's get into a very excited for this episode. Please welcome.

Starting point is 00:03:34 Patrick, Homequist. We're going to go deep into his research. He's a researcher. I mean, I'm so excited for this episode. Please welcome. Patrick Homequist. How are you? Hi, I'm fine. Thank you. Good to be here. And the research we're going to talk about it's called the Taikos. And I am not the main researcher here. So and Simon Shack may come into the discussion later. But what this is about is that our solar system, as it is configured today, heliocentric,

Starting point is 00:04:29 with the sun in the middle. That's the meaning of heliocentric, helio sun in the middle. It actually does not work for a number of reasons. So, and that is why also, I mean, we've been into this heliocentrism for the last couple of hundred years. But thousands of years before that, we had the notion that the earth is motion that the earth is motionless. Oh, here we have Simon. Well, there we go.

Starting point is 00:05:13 How cool is this? Yeah. So Simon Shack is the, the main researcher who has done this work and he has written a book called the Tycos. And what he's done is actually he picked up research astronomy that was performed quite some time ago in the 16th century. Then there was, you know, the Reformation, there was a science revolution. People could suddenly do actual astronomical research. Before that, everything was a sin, you know, with the Catholic Church and everything. And what Tukobroi did was, he, decades, observed how the planets and the celestial bodies moved.

Starting point is 00:06:11 And out of that, he devised a model that is called the tyconian model. And I think mostly because of political reasons, because the Catholic church was still a major playback then. And you know, it's precise. So he suggested in that model that the earth was motionless, completely motionless, and that the universe revolved around the entire earth in 24 hours. Super interesting, Simon, are you there?

Starting point is 00:06:54 Are you there? No. He's muted. Simon, you've muted yourself. Can you hear me now? Yes, no, we can hear you. Is it possible to see you on camera, Simon? Are you going to come on? I know I'm afraid no, I'm sorry. Oh, I like it.

Starting point is 00:07:12 I like it. That's dangerous. It's dangerous. I like it. All right. Simon, welcome to the show. Thank you so much for joining us here. We're very excited to talk to you. Patrick's done a great job so far. Would you like to jump in with anything? You've heard some of what he's talked about. Would you like to piggyback on to that? Yeah, well I could maybe just very shortly make a summary of what the Tycos model is about. And I've done, you know, because you asked me, or some of your friends ask me, why don't you give five points to discuss about it?

Starting point is 00:07:55 And so I did this today. And in a nutshell, there are five points, but I won't read through them now. I just still say, the first point is that the the tycus model is of course based on on tycobrohe's original model, which said that the sun is going around, the sun goes around the earth. But tycobroroi was, for most of his life, he thought that the earth. But Tycho Brough I was, for most of his life, he thought that the earth was immobile,

Starting point is 00:08:29 didn't rotate around its axis. But his trusty assistant, Longa Montana's, he then gave Earth a daily rotation. So just for this to be clear, so the ruling model for 100 years was the Tycos, is called a semi-tyconic model. It was done by his assistant, Planga-Montanus, who gave, rightly enough, he gave a daily rotation to Earth. So, but so for them, for their model had the Earth in the middle, the Sun and

Starting point is 00:09:12 going around the Earth and all the planets revolving around the Sun, really. And the only problem was that they had no, they had, they gave no motion to Earth, no translational motion in the sky. They thought the Earth was in the middle and not moving. It was revolving around itself, but not moving. So what I have added to this, you just, this one thing. I have given earth its own orbit In the middle of this dance that's the sun and Mars do around the earth and the sun and Mars in the tycos model are the two binary companions That compose our binary system. What is a binary system? Well, we know today? We know today that practically all the stars are around us, more than 90% and counting, because they keep finding that all the stars have a companion are binary.

Starting point is 00:10:18 So, logically, we should be binary too. I mean, they're telling us that the sun is a very exceptional single star, but why would that be if more than 90% of the stars around us have a companion? So this is how this logically starts. Tycos model is something, it's not something strange. It actually goes, uses logic and statistical probability for its foundation. So if I, maybe I could share my screen later on and show you.

Starting point is 00:10:58 Yeah, you can do right now if you want. Johnny will set you. Yeah, done. Yeah. So I'll do this and see if it works. Can I see my screen now? Yeah, we got you. Okay. But then I have to access.

Starting point is 00:11:19 Is that only fence? What is that? Oh, God. Oh, is that only fence? What is that? Oh my God, please. Oh my God. Okay, here. Here we see the Thai costume, which is, which is the simulator of our solar system, right? And I've just opened it with this.

Starting point is 00:11:43 You can see my mouse here. This is Earth in the middle. Okay. And the moon going around the Earth, okay? And this is his sun. So I start like this. I show you how the sun goes around the Earth. So the Earth is in the middle and the sun is going around now.

Starting point is 00:12:03 I decided to show you like this because we've never showed it gradually like I wish to do it to do it to do to do to do to do to do to do to do the middle. to do to do the middle the middle to do to do the middle the middle the middle.. Like the middle the middle. I, like the middle. I the middle. I the middle. I the middle. I the middle. I the middle. I the middle. I the middle. I the middle. I the middle. I'm the middle. I'm the middle. I the middle. I the middle. I the middle. I the middle. I the middle. I the middle. I the middle. I the middle. I the middle the middle the middle the middle the middle the middle to do to do to do to do to do to do to do to do to do to do to do to do to do to do it to do it to do it to do it the middle. I the middle. I'm the middle. I'm the middle. I'm the middle. I'm the middle. I'm the middle. I'm the middle. I'm the middle. I the middle. I the middle. I the the the the the sun is going around now. I decided to show you like this because we've never showed it gradually like I wish to do it tonight. It's okay so let's see. So what does the sun have around it? Well it has mercury right? So I put on mercury now. See mercury? Yeah. It's very shoppy, Simon. So I put on Mercury now. See Mercury? It's very shoppy, Simon. It's okay, we get it. We get it. Yeah.

Starting point is 00:12:35 No, it's not choppy for me. So it's maybe the. It looks fine on this end and I'm recording it. Okay. Okay, sorry. All right. So look at Mercury. It's going all the time. It's going all the time. It's going. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. It's very. so it should be okay. Okay, okay, sorry. All right. So look at Mercury, it's going all the time in a circle around the sun, right? It's not doing anything strange. It's at all the times it is going around a perfectly uniform circle,

Starting point is 00:12:59 even if it's offset, but that's just the way it is. It is this much offset. It is the same way in the Copernic system. For some reason, it is offset, it is eccentric to the sun. But anyway, if we now put on, we trace what Mercury does, we put on a trace function. We see what Mercury does, we put on a trace function, we see what Mercury does.

Starting point is 00:13:27 What exactly does Mercury do as a trajectory. It does this kind of strange, apparently strange, spiographic motion. But it's nothing strange at all. We just have to get used to it. This is a very important thing to understand before, I mean, at the very start, for comprehending the cyclist model, is that this is just a natural geographic effect.

Starting point is 00:14:02 Mercury is always going around in a circle This coal is going around in a circle, but it will do these loops. So that's when it goes back backwards, that's called the retrograde of Mercury, right? Yeah. Because you may all know, hopefully, that all our planets, they go backwards for a while. Like Mercury goes backwards for a while. Like mercury goes backwards for maybe like 25 days or something. And so now I can shut off Mercury maybe, show you Venus. Yeah. So I put on Venus now? Well, no, I leave Mercury, but I just take off the trace from Mercury. And I take off the trace of Mars because that's disturbing.

Starting point is 00:14:52 So let's see Venus now. I switch on Venus as a planet in the Decosium. Here is Venus. Okay. Venus is the object that comes closest to Earth, you know that, right? Yeah. So see how we, just see how Venus gets close right now, how close it gets to Earth. It gets very close to Earth. So we put on the trace on Venus now and see what happens. Of course, the same thing will happen with Venus. It will also trace loops and we'll go backwards for about 50 days, you know.

Starting point is 00:15:37 Here it goes backwards, backwards from the Earthy observer. For an Earthy observer it will go backwards for a certain number of days. And that's the retrograde motion. But it's nothing magic. It's just a natural geometric effect that will happen for an object that revolves around another revolving objects. So this has to be very clear for the beginner to understand the Tegas model. There's nothing strange in this. It's absolute plain geometry that does this. Okay. That's just the natural process of it because it has to catch up, right, with the planetary

Starting point is 00:16:28 body that it's following, meaning it's looping around it, and if the other, if the body that's following keeps moving forward at some point it has to turn back around to catch up with it? Well, you can describe it like that, but it's much simpler than that. It's just that this is what is going to happen if you have a revolving body, revolving around another revolving body, and you're in the middle. This is what's going to happen. And so look at the beautiful flower that Venus does, you know, in eight years

Starting point is 00:17:01 he will do this five petal flower. That's art. That's great art. It's pretty beautiful. And so we can now put on Mars, if you like. And I will first have to switch on Mars, of course. Oh, I was going on. Okay. I switch on Mars as a planet. Wow. Here I switch it Mars as a planet. Here I switch it on. Now we see Mars. You see also Mars goes around in a circle around the Sun, but over time it will also do these loops.

Starting point is 00:17:34 So now I put a trace on Mars. And look at Mars, what Mars does. The same thing. But the difference with Mars is the only of our inner planets that can come on either side of Earth. We'll set to the Sun. So to explain it's better, I will switch off Venus. Okay, switch off Venus now. Switch off please.

Starting point is 00:18:10 You need to... I take off the trace as well. So now we're looking just at the sun and Mars, going around our Earth. And, um, switch off the trace for a while and start a trace again. From Mars, I go a bit slower now, so we can see it's calmly.

Starting point is 00:18:33 OK, so I put on the trace on Mars. This is what Mars will do as a trajectory over time. Sometimes, you see here, it's on the opposite side of the Sun. This will never happen for Venus and Mercury because Venus and Mercury are all the moons of the Sun. They are always, this is Mercury is still on here, you see Mercury is going around here, but this the Mars is different. It's not the third moon of the Sun. Mars is the companion of the Sun because it will come on opposite sides of Earth. Okay? And the amazing thing, I mean, the thing that really caused problems to capital and even to

Starting point is 00:19:14 take a brawl, it was they couldn't figure out why Mars would do different size loops, you know, because Mars can go backwards for 42 days and up to 82 days. So why would these loops be different? Well that's because of the eccentricity, because Mars is all soft-set from the central. So this is why these loops will be different, you see they are different in size? Yes. And that was really hard for them to understand at the time. They didn't have this modern stimulators to understand. That was really head scratcher for them.

Starting point is 00:19:54 And Kepper spent five years, or actually eight years, trying to understand what Mars was doing. Because Kepper was only a mathematician. He was not an observer. He just, he was asked by Tycho Bride to figure out, what was Mars doing? And, and, because Keper was a Copernican, he was convinced that we are going around the sun. So it became even more difficult for him to understand the whole thing. So what did Keper do to explain this? He did some mathematics, as I call it. He said, no, no, the planets are not going around in uniform circular orbits. First of all, they're going around in elliptical orbits.

Starting point is 00:20:44 Secondly, they accelerate and decelerate. They have variable speeds. In that way, he was able to make it kind of agree with observations. But look, in the tycosium, we don't need this. In the tycosium, in the Tycosm model, all of these planets are going at the same speed all the time. And in circular orbits. There's nothing bizarre. I mean, what is an elliptical orbit? What kind of idea was that? Oh, people are not so used to this idea that the orbits are elliptical, so they have just accepted it.

Starting point is 00:21:25 But nature doesn't do elliptical things that I know of. Nature does circles. And then why would planets, you know, go faster and then break and then go faster? Why would they have variable speeds? They explain it because gravity because when planets come closer to the sun, it will accelerate and when it goes further from the sun, it will accelerate. But that's just the way they have made it work. This is completely done away with in the tycos.

Starting point is 00:21:59 No need for that. So the tycos is much simpler, even if it doesn't look at first sight to be simpler, because we have these biographic motions, it is much simpler. And allow me to point out also, Simon, that this model is in agreement with actual observations. Yes. If we look on the positions, every planet is in the position it is supposed to be during that time. So if we can take any date and time and verify it against official records or against Stelarium, the positions will be correct.

Starting point is 00:22:46 And this is sold with circular, uniform motion, which is, as you point out, Simon, much more plausible or even possible, physically plausible, because if something is orbiting, it's doing it in a circle at constant speed. And the helix-centric model requires, for example, Mercury to vary its speed by, I think, it's 34% in its 90-day orbit. So every 90 days, Mercury is accelerating and de-accelerating according to the heliocentric model. And to me, that is absurd.

Starting point is 00:23:44 So he will see... is today. And accelerate. Mars is, guys, this is interesting. Today, Mars is pretty close to being in opposition to the sun. So this is today. I just clicked on today. Okay. See. Mars is here and the sun is here. Practically on the other side, and it will be exactly on the other side, maybe in a few days time, yeah, look.

Starting point is 00:24:11 Yeah, if you can draw a straight line. So now, again, a couple of days, you will be in opposition, which means exactly on the opposite side of the sun. So let's see here on the elongations, yes, 174. If it's 180, it's exactly, if it's 180, it's exactly in opposition. So 174 is pretty close, 177. So on on the 6th of December, Mars will be exactly on the other side of the sun. This will happen in a few days, time.

Starting point is 00:24:52 And what is that? What does the opposition mean? It means that that's when Mars changes direction, you see? If we go back now, I go back a week by week, and I go go back little so we can see what Mars does exactly see now this okay this is what Mars is doing now in these days that we are now living in it is here now I mean this is okay this is 11 okay this is today today is today is 21, yeah, it's 11, 24. Okay, so I have a question for a quick.

Starting point is 00:25:31 He's just about to do, it's just about to do a retrograde's loop in these days. So retrograde is when it goes backwards. It goes backwards. Backwards. So what has backwards mean? Well, well, this is forwards, okay? Here, like this. Yeah. Forward's, forwards. It goes in the same direction of the sun. But then here it goes in the opposite direction of the sun. Does this backwards loop? And that's how retrograding this explained in the tide goes. And why is this retrograde explanation impossible in the Copernican system?

Starting point is 00:26:15 Because that's the important thing that I have put in my book. They reckon that the retrograde effect is caused by, you know, we are in the inside lane and Mars is an outside lane and so when we overtake Mars, it will seem like Mars is going backwards. Okay? Well, that is an interesting idea, but it does not work. It is absolutely the opposite should happen. Why? Because, you see now we do the whole range of the widths of the retrograde loops. So, okay, the thing is, what is observed

Starting point is 00:26:59 with these retrograde motions of Mars is that when Mars is closest here, if you see my mouse here, when Mars gets closest to Earth, the retrograde is smallest, is shortest. Whereas when Mars is retrograde's furthest from Earth, the retrograde is largest. Well, it should be exactly the opposite if it was an optical illusion of us overtaking Mars. It is a violation, direct violation of the loss of perspective, what they say. This could not happen in the Copernic system as they say that yeah it's because we are overtaking Mars. Now I don't have handy another Copernican simulator but you can in time you can check it out for yourselves. You can go to Copernicus simulator and you will

Starting point is 00:27:55 see that it's it should be the other way around. You just have to get familiar with how a perspective works. You can put your finger in front of your nose, look at a tree in the distance, and if your finger is closer to your nose, and if you move your head for left to right, the tree will move much more. If you put your finger further from your nose, the tree will move much less. But what is observed here is the opposite. And this is because the system is this way. The typus tells the truth. But the Copernican cannot explain that. It is impossible.

Starting point is 00:28:37 So this is what, why am I so adamant about pointing this out? Because it's not like the tycos is just another system that works because it works. It works in all, I mean, the accuracy of the tycosm has now, we are now with Patrick, we have reached a really, really high level of accuracy. We can go back hundreds or thousands of years and they will correspond to all observations made by all the best astronomers over the centuries. So let this be very clear. It is very accurate what we're looking at.

Starting point is 00:29:17 Let me ask some real quick. So all all stars have a sister star. Is that what we're here to understand? Yes, we can say, I believe that 100% of the stars have a companion, but the reason why they're saying they only 90, because maybe the remaining 10, has not, they haven't discovered the companion because the companions are very small, often, they're often very, very small.

Starting point is 00:29:45 So let's talk about this exact topic. Serious B, the companion of the Sirius A, the largest, the biggest, the brightest star in our sky, by far, you know, you all know about Sirius, right? Serious is the brightest star in our sky. Yeah. Well, in the very late, very late, they discovered, I mean, late, I mean, very recently, in the 18th century, they discovered that Series had a companion. But because it was so bloody small.

Starting point is 00:30:20 And they called this Series B. It's extremely small. And, um, we can see this in here. Okay, we can see this here in serious in my book. All right, guys, real quick before we go out, I'm going to tell you about our good friend, James McMahon, a copy my crypto. It's crazy times out there investing so you want to check out. Copy my Crypto. It can help you kind of navigate through the crazy world of cryptocurrency. Guys listen the recession is underway, fuel is through the roof and food prices are insane. People are beginning to lose their homes. But there can be a massive positive to this because recessions are the the the the the the the the the the the the the the the the the their their their their their their their their their their their their their their their their their their their their their their their their times. It's times. It's times. It's times. It's times. It's times. It's their their their their their their their their their their their their their their their their their. It's. It's. It's. It's. times. times. th. th. th. It's. th. times. th. times. times. times. times. times. times. times. te. times. times. te. te. times. times. times. times. times. times. times. times. People are beginning to lose their homes.

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Starting point is 00:34:51 than the small one and that is exactly the same with the sun and Mars. The sun is two hundred five times bigger than than Mars. Which is a, wow. Pretty good, really amazing coincidence, right? And we are talking here about the brightest star, by far, the brightest, absolutely brightest, the next brightest star is twice smaller. So series A is extremely important star in our sky, and it just happens that it has a companion which is proportionally identical to Mars in relation to the Sun. Okay so I mean come on

Starting point is 00:35:33 that was that was something that really you know motivated me to go further when I found this out I didn't read this on in the book it was I'm the first who actually noted this I'm't read this on any book. I'm the first who actually noted this. I'm never read it anywhere. So, so serious is very important. So this is, okay, to the left here, this blue, this blue image is taken from Wikipedia, I think, and they show series A and series B, okay? And then there should be series C, C, but we'll talk about it later. So this is how series A and B, these two pairs are viewed from Earth. And so we could very well imagine that if you were standing on series A,

Starting point is 00:36:23 you would see our system like this. The sun and Mars and Earth. Why did I put Earth here? Well because there have been studies that have concluded that there must be also the series C, but that's a longer story. There's a big French study that concluded that yes there must be must be serious. But it's not visible because it's blinded by the glare of the big star. So if you were on serious and looked to our solar system, you wouldn't see Earth because it's too close to the Sun. But Mars is much further. So maybe Mars would be visible from Sirius, but not Earth. And I have gone further with this discussion about Sirius.

Starting point is 00:37:10 And at the end of this chapter 6, I've shown that, you know, this is Series A, how it goes, around, and it is Series B. It looks very much like Typus, doesn't it? Okay. So to the right here we have the typus. We just saw the tycosium similarity right with the sun going around like this and and Mars going around like this. And the closest distance that Mars gets to Earth is one and the fathers is seven, okay, it's seven to one ratio. Well, we have a seven to one ratio in the serious system as well. Get that, get that, guys.

Starting point is 00:37:54 I mean, this is something that I haven't, you know, stolen from anyone. This is my own discovery. I'm the first one who have ever discovered this, you know, it's, I haven't discovered. I've just, you know, noted it. I put my finger on it. So, seven to one, seven to one. And serious A and series B are proportionally identical. So let me ask you something. So you have this with the Earth, the Sun, and Mars, then you have it with Sirius A, Series B, and Series C.

Starting point is 00:38:32 Is there anywhere any of the other planets do any of this? Are there any other sisters and brother planets in our solar system or any other solar system? Well, you know, we have Jupiter and Saturn and etc. Well, we don't know about the other things revolving around the serious system. No, not that I know of. Like, but within our solar system, like, is it just the sun and Mars that we're looking at here? Are there other planets that do this?

Starting point is 00:39:05 Oh, I see. Pluto has Chiron. Pluto, you know, Pluto, a little little planet which has been declassified now. There's a, that's not a planet. They say it's just a minor planet over here. Flut has a companion, which is called Sharon, and it's now defined officially as a binary system, the Pluto-Caron

Starting point is 00:39:26 binary system. Interesting. Very few people know about Sharon. They don't talk about it much. And the thing is also, I mean, there hasn't been any confirmed system, the system, star system that looks the same way as our helicentric model is supposed to look. We don't have a system with a stationary star in the middle. We have never seen something that looks like us. No, no. So, and as we can see when the system that we can study because it's close serious, it has the exact same proportions as the tycos model suggests. So I mean, mean, it makes sense as above so below.

Starting point is 00:40:28 I mean, I find it much more likely that our system is similar to the star systems we can study. So, yeah. Yeah, and yeah, it's more than 90% now. You see, the funny thing is that in the last few years, gentlemen, in the last four or five years, they have discovered that our closest star, Proxima, no, Proxima Centaur, Proxima Centuri. It's supposed to be, it is, it is our closest star. Well, in 2018, or 16, they found that Proxima also had a companion. But that's the closest star we have.

Starting point is 00:41:16 So you can imagine how hard it is to find these companions, you know, even our closest stars. They didn't know it had a companion until 2016. And then in 2018, they found that the Barnard Star, which is also one of the closest stars we have, also had the companion. So we are talking about really recent discoveries of our closest stars that nobody knew until 2016, 18 that they had a companion, they now have companions. So this is a work in progress. You know, we all think that astronomers have already discovered everything.

Starting point is 00:41:56 And no, they're discovering stuff every day. So this is important what I'm saying. As far as I say it because I've been accused of going back backwards in time and taking an old and obsolete model. No, I am actually using much, much of the chapters in my book, talk about very recent discoveries, which are backing up the Tycos. I mean, I could never have been able to do this. to do this. So, to do this. So, so, so, this. This. So, so, so, so, so, this, this, this, this, this, this, this, this, this, this, this, this, this, this, this, this, this, this, th, this, th, th, th, th, th, th, th, th, thi, thi, thi, thi, th, th, th, th, you, you, you, you, you, you, you, you, you, you, you, you, you, you, you, you, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, th, thi, thi, thi, thi, thi, thi, thi, thi, thi, thi, thi, thi, thi, thi, thi, thi, thi, backing up the Tychus. I mean, I could never have been able to do this Tycos book ten years ago. Ten years ago, I would not have done this book, simply.

Starting point is 00:42:38 So this is also important for people, you know, who actually accused me of going back or, you know, being backwards or what do you say in English, you know, old-fashioned. No, okay, it's an old-fashioned idea, the Tycho's model, but it now has come back in full, you know, full logic, in full logic, because Tycho Brava did not know about existence of binary systems in his time, because there was no telescope in his time and no binary system ever been observed. That's important to know as well. He could not. So, yeah.

Starting point is 00:43:23 So, in this model, we are the center of the bar bar a center. Is that what it is? Very center. Everything revolves around us. Well, let's take the main, let's take the main, let's take the main, uh, okay here, this is the main graphic in chapter 4 that shows the whole model, okay? The basic graphic.

Starting point is 00:43:55 So, yes, we are, we are here. Okay, we are here. This is Mars. And this is Sun. This is Sun. This is Sun. And you know what I've, what we have found out, thanks to Patrick. Hold on. That's crazy, dude. Do you know what we have found out thanks to the tycosium that Patrick has done? That's, okay. What is this blue, first of all? What is this blue, blue orbit? That's the orbit orbit that the Earth will do very slowly in 25,000 years. 25,344 years. I explain why I got to this number in the book. So don't think about this blue orbit right now. Don't think about it.

Starting point is 00:44:39 It's something that will, that takes 25,000 years to be completed. So let'sthink of this, of the Earth being here in the middle of the Sun's orbit. So this, the Earth is in the middle of Suns orbit. And Mars, you know, where Mars passes most of the time when it gets closest to, to Earth, exactly in the middle of this orbit, of the PV orbit. It just happens to pass at 56 million kilometers and the orbit here is 113. So it's exactly the middle. Moss, I mean, this was nothing that I could have possibly calculated,

Starting point is 00:45:18 as I started off this research, but he came out once we had the simulator going. Okay, real quick. For those who are listening, because there's a lot of audio, and we've been doing a lot of, like, looking at videos here, I just want you guys to know that what we're seeing here is basically a layout of how our galaxy works, okay? And what I find amazing is, you know, you have the lineup of all the planets as we know them. But their rotations say a different model. Basically, what these gentlemen are presenting is that the way we're presented is that the sun is at the center and everything's going around it.

Starting point is 00:46:03 But this Tychos model is that there are orbits around orbits that orbit around us. Like it's just completely different than I, and I will include if I could find this in the, in the, it's just extraordinary. It's so crazy that they basically, what they did was they took the center from us, moved it to the sun and then made it look like everything was going around the sun, when in reality, according to this model, everything's going around us. And there's some orbits around the sun. I'm trying to break it down so people can understand it. Let me just repeat something that Patrick just, th. T, th. T, th. T, th. T, th. T, th. T, th. T, th. T, th. T, th. T, that, they, that, that, they, they, that, they, they they they they they they they, they, they, they, they basically, they basically, they they, they basically, they, they, they, they, they, they, they basically, they, they, they, they, they, they, they, they, they, they, they, they, they, they, they, they, they, they, they, they, they, they, thi, that, that, that, that, that, that, that, that, that, that, basically, that, basically, basically, basically, basically, basically, basically, basically, basically, basically, basically, basically, basically, basically, basically, basically, basically, basically, basically, basically, basically, basically, they're basically, their the'm trying to break it down so people can understand it.

Starting point is 00:46:45 Let me just repeat something that Patrick just said that we have not we can't we have not seen any star system that is is similar to ours, which means we have not seen any star that is immobile in the middle of various planets. All stars have a small orbit, I call it a local orbit, of their own. Like the Centauri system is another binary system that's the next to close a star. They are two stars revolving around Asia. They all have, and it takes to, I think it t close a star. They are two stars revolving around each other. They all have, and it takes to, I think it takes 79 years for them to go around each other. Then we have the serious system,

Starting point is 00:47:34 it takes 50 years. But there's no star that is fixed in the middle of the surrounding planets. Okay. So I have, you just understand I flung first grade, so I'm trying to be stupid to the, to so that people understand what I'm talking. What I am getting from this is that these planets all have their orbits around the sun and the sun revolves around us. Yeah. And the sweet thing, yeah, the sweet thing with this is that this solves so many problems or things

Starting point is 00:48:18 that we can observe that is hard to explain because if when we have this model the the sun is moving around the earth while the other planets it's moving around the sun then yeah and then the retrograde is a natural consequence of that it just happens I mean the retrogrades we see from Earth and another thing that is so sweet with this as well. Or anyone into Graham Hancock and this, it's a series on Netflix where he looks into old archaeology and concludes they had a lot to do with the stars and no one. Yes, yes, it was fantastic. I watched this.

Starting point is 00:49:09 Yeah, yeah, it's amazing. And it talks a lot about the procession, you know, this slow, slow motion of the stars that it takes 25,344 years according to the Tycos. And the procession, this motion is so elegantly sold in the Tycos model, because that is this slow motion that Earth does, while the sun and the other planets is moving around the Earth. Because a thing with the procession is that we only it's is only the stars that changes it's not you know our relation

Starting point is 00:49:54 to the Sun and the other planets they are not following the procession so it's it's the entire solar system with the earth in the middle that is moving. And again, the official explanation for the procession, you know, that earth is wobbling, it becomes impossible because if the procession is due to motion that only the Earth does, then naturally our relation to the planets and the Sun would have to change as well. But it doesn't. Are you following here? Yes. Now let me ask you something. Is it of your belief that the all of space is revolving around Earth? No, no, no, no, no, no, no, just this galaxy.

Starting point is 00:50:53 No, no, no, it's a solar system. Yeah, the planets within the solar system is, Earth is the central planet. So in another solar systems, does this go on as well? Yeah, I would say so. I mean, we cannot say absolutely sure, but as Simon talked about the serious system, that is the most studied and most similar to our system. It's very likely that we have a serious sea and that would be Earth in our case.

Starting point is 00:51:32 So yeah. So basically space is full of, it's cluttered with similar systems like ours, binary systems. It's all over the place. They all have, you know, their own little positions in universe. And it's not the universe going around this, it's they have their own motions like this one we see here. And we are just like small, you know, villages revolving around each other. And even the galaxies that they think are so far away because they think the stars are so incredibly far away, so they interpret galaxies as galaxies, but they could just be particularly large binary systems. You see, this is maybe we can get on towards, you know, later chapters on my book where... Yeah. Where I talk about the distance to the stars. So, the distance to the stars. So, the distance the the gist. So, the distance the g galaxies the g galaxies the g galaxies, the g galaxies, the g galaxies, the g galaxies, the g galaxies, the g galaxies, the g galaxies, the g galaxies, the g galaxies, the g galaxies, the g galaxies, the g galaxies, the galaxies, the galaxies, the galaxies, the galaxies, the galaxies, the galaxies, to, the galaxies, the galaxies, to to the galaxies, the galaxies, galaxies, the galaxies, galaxies, the galaxies, the galaxies, the galaxies, the galaxies, the galaxies, the galaxies, the galaxies, to to to to to to to to to to to to to to to to to to to to the g galaxies, the g galaxies, the g galaxies, the g galaxies, the g galaxies, the g galaxies, the g galaxies, the g galaxies, and the g galaxies, and the gi, and the gi, and the gi, and the gi, the gi, and galaxies, the galaxies, the galaxies, the galaxies, the galaxies, the galaxies, the galaxies, the galaxies, the galaxies, the gi. And, the gi. And, the on my book where, where I talk about the distance to the stars.

Starting point is 00:52:29 So the distance to the stars is calculated today. You know how they calculate it? They say that, well, they, I wish I had a Copernican model to show you, but anyway, you know that they say that Earth goes around the sun, right? In an orbit which would be 300 million kilometers wide, which is in our system the orbit of the sun, so it's just upside down, you know. It's a sun that has a 300 million kilometer orbit.

Starting point is 00:53:02 Sun is a, the sun is just a big ball of fire. So that can, the sun can, to me, it's, it, it, it, it, it, it's, it's, it's, it's, it's, it's, it, it, it, it, it, it, it, it, it, it, it, it, it, it, to me, to to me, it's, to me, to to to me, to to to to to the earth, the earth, it's, the earth, the earth, the earth, the earth, the earth, the earth, the earth, the earth, the earth, the earth, the earth, the earth, the earth, the earth, the earth, the earth, the earth, it, it, it, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, is, is, is, it's, is, is, is, it sun is a, the sun is just a big ball of fire. So that can, the sun can, to me, it's not amazing that the sun goes very fast at 100,000 kilometers an hour because that's what it does. But they say that the Earth is going at 100,000 kilometers an hour around an orbit, which is 300 million kilometers wide. So what do they do? They take a picture of a certain star, like maybe in June, and then they wait until December. Let's see, no, first Mars. Let's say Mars here because this would be Mars, March, March 21.

Starting point is 00:53:43 And then they wait until September 21 and they take another picture of the star and they triangle it, they do a triangulation and simple trigonometric tracolation and so they decide that the stars are really far away because if the baseline of this triangle is this wide, the stars will appear to be very far. But what do we actually do in the Tyco system in six months is a very short displacement of only 7,000 kilometers. And 7,000 kilometers in six months, that is 42,633 times less than 300 million kilometers, which means that this stars are 42,000 times closer than we currently believe.

Starting point is 00:54:34 And I've tested that. You know, it's not just like I've come up with this idea and then I've obviously tested this in many ways and it checks out in so many ways it's too long to explain here. How close do you think they are? They are 42,000 times closer than we believe. So that means that our closest star, the Proxima, is within the distance of Saturn and Jupiter. Just like Tychobrough I was saying, the stars can't be that far away. There can be a completely void space between Saturn and the first star. The closest star must be pretty close to Saturn.

Starting point is 00:55:22 Well, that is exactly what Tychus tells us. The closest star, Proxima is the close to Saturn. Well, that is exactly what the Ticos tells us. The closest star, Proxima, is within, okay, this is Jupiter and this is Saturn, okay? You see my mouse here? Yeah. This is Saturn here. We can go close and look at it. It's beautiful with the rings, you know. And this is Jupiter, okay? Yes. Well, in the

Starting point is 00:55:48 Ticos, I've done another graphic where I show that the closest star we have is is not here, but it is the distance is halfway between the Jupiter and Saturn, but it's not here. It's down here. It's 60 degrees away from our plane. So it's not involved with our system, it's just, but it's almost as close as Saturn. Or, it's just, it's just 6.5 AU. You know, Jupiter is about 6 and Saturn is 8. I mean, it's somewhere between them, but down here, 60 degrees down.

Starting point is 00:56:36 And that's the closest star we have. So all the rest of the stars are pretty much further away. But why not? Why can't we, why can't we accept that our closest star is almost as close as Saturn? Well, the people are saying you're crazy to say that. Well, why? Statistically, we should have some stars being, you know, really close to us. But then all the rest of the stars are of course farther than Saturn, much farther away. Seriously.

Starting point is 00:57:09 Is the sun as far as it is, 90 million? Yeah, yeah, I think they got that right. I think, you know, there are many things that have retained from official. I have not, you know, just taken, you know, just thrown everything in the, in the, what do you say, thrown away the bathwater. I've retained many of the best observations. You know why? And that I have to explain. Because the distances to explain because the distances to the sun and to our planets, that is calculated from, that's calculated by looking from, you know, 12 hours if you are here on the on Earth and then you go 12 hours around,

Starting point is 00:58:01 let's do it. Okay, so I'm here now on Earth, okay, and I'm looking at some some planet up there. So I go 12 hours, one, two, three, four, five, six, seven, 12, and now I'm here. Okay, well, let's do this better. Let's say, okay, I'm here in Italy now, right? Now, click, so I look at a certain, I'm here in Italy now, right? And now, so I look at a certain, I look at the sun, and then I wait for 12 hours, and we know, I think we know very well the size of this, of Earth, 12,700 kilometers in diameter. So these triangulations are correct. but they are only made for our closest planets and around us.

Starting point is 00:58:51 They don't, you can't use the width of the Earth to calculate the distance of the stars because it's too small. So that's why they do, they wait for six months and think that Earth will do a big baseline. So there are many, many correct distances in the official system. The distance to the sun, distance to our planets. They are, my opinion, correct. So yeah, so I mean, the distance calculations to the planets and the Sun is based on Earth's diameter and the distance calculations to the stars is done based on Earth's assumed, assumed, heliocentric orbit, that is 300 million kilometers.

Starting point is 00:59:54 But if, in fact, Earth isn't moving 300 million kilometers sideways every six months, that it's instead only moving a couple of thousand kilometers, you know, in one direction as well. Seven thousand, yeah. Then of course, the calculations will be extremely off and they will point that the stars is absurd very, very far away when they are in fact not that far away. And as Simon said, if you correct those calculations, they will be 42,000 times closer than assumed. Real quick, I want to tell you about one of our longest running sponsors and one of the greatest American companies in the world, Blue Chu!

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Starting point is 01:03:13 free. Visit Bluchu. For more details and important safety information. And we thank Bluchu for being one of our longest running sponsors on TimVol Hat. So now I wish to show our friends here, what is this PV orbit? Why do I call it PV orbit? This is my invention, right? This is my addition. This is my only addition to the big, uh, Ty Cabrala, a astronomer of all times in my view,

Starting point is 01:03:47 but he missed the, I mean, why would Earth not have an orbit? Everybody in our universe has an orbit. So I've just added logically an orbit to Earth, okay? So now we are under PV, we are under Polaris. Our North star up here is Polaris. Okay, we can put a, um, the, um, uh, uh, uh, uh, uh, uh, uh, uh, uh, uh, uh, uh, uh, uh, uh, uh, uh, uh, uh, uh, uh, the, the, the, the, the, the, the, the, the, the, the big, the, the big, the, the, the, the big, the big, the, the, the, the big, the big, the big, the big, the big, the big, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the big, the big, the big, the big, the big, the the the the the the the the the the the the the tie, tie, tie, ty, ty-a, ty-s, ty-s, ty-a.s, ty-a.s, tie-a.s, tiearis. The North Star up here is Polaris, okay? We can put a, we can put a polar line here. This line, this line here points to Polaris now today in our epoch. Okay.

Starting point is 01:04:22 Floris. And what, what all astronomers agree with is that in about 12, 12, thousand years, okay, we'll, okay, sock, okay? Boris. And what all astronomers agree with is that in about 12,000 years, we will be under Vega, which is another big star in our sky. So we now go forward. Every click I do is 1,000 years. One, let's see, oh, well now, it's gonna go slowly because I have to trace on, sorry. If I have the tracing on all the planets, I'm going to have problems with the speed of the tycosium. Oh, wait. Anyway, the Earth will be here in 12,000 years,

Starting point is 01:05:05 we'll be on the other side of this orbit, and we'll be under Vega. We will have Vega as a North Star in 12,000 years, pretty long time. But this is, and then we can go back to Polaris. In 25,000 years, we go back to step to where we are now. So that's why I call it the PVP orbits, Polaris Vega Polaris. Let me ask a question real quick. Yeah. What are

Starting point is 01:05:33 the chances that earth is stationary? Is there any model in which the earth doesn't move? No, no, it's not stationary. It actually moves by at one mile per hour. It moves slowly in the opposite direction of all the other, all our surrounding planets. And mind you, okay, I have to reload it. Mind you, this is, why would Earth and only earth go around in the opposite direction? Well, that's in the atomic world, people who study atoms, they say that the electrons go, they were revolving the opposite direction of the nucleus. So, it's almost like, you know,

Starting point is 01:06:24 the micro and the macro are alike. So I want to show you this now. Earth is here now, okay? Now I put thousand years, every click here is thousand years. One thousand, two thousand, three thousand, four thousand. See, now you can see Earth moving, because I'm going, every click is 1,000 years. And now we'll click 12 times, I'll click 12 times now, or, yeah, okay, here, 12 times. And we'll be on the other side of this PV orbit, which is my invention.

Starting point is 01:07:01 It's something that I've come up with. Exactly. And this is a simple reasonable and plausible explanation for the procession, the PV orbit, because if the Earth is moving like this, then that accounts for the procession that the stars slowly slowly change its relationthe stars slowly, slowly change its relation to us. It's one degree every 72 years, I think, that the stars are observably changing. And that also means that our North Star will change. I mean you have heard of the age of the Pisces and the Aquarius. Yeah, this is the same thing.

Starting point is 01:07:55 So every every 2,000, what is it, Simon, 2,000, yeah, here you have the... 2,1,2, every 2,1, 2, 1, 2, I mean, it's divided as in it. I'm on 2000. Yeah, here you have the. 2112. Every 212 years, I mean, it's divided as in it. This is a 12 slices of a cake. Okay. 12 slices of a cake. So we have to go and to understand this better, I go to the date 2000, March 21, 2000. On March 21, 2000, which was a couple of years ago, the sun was between prices and aquaries.

Starting point is 01:08:40 We are entering now the age of aquaries. Because you know that the spring equinox is considered as the zero of our system. It's been considered for ages as the zero point. And it's funny because in this tycos, the zero point is the only moment in time where this Earth's movement, motion is moving straight towards the only moment in time where this earth's movement, motion, is moving straight towards the sun. And it would always be like that, every, in all epochs. Look, I go forward a thousand years, and then another thousand. Okay, so it's about 2,000 years, we will be in Aquarius for 2,000 years.

Starting point is 01:09:24 And then we will enter Capricon okay sorry my mouse clicks twice sometimes one twice will be Capricola and the next one and 2,000 years we will go through Sagittarius the next 2,000 years we will go through Scorpra. Actually, it's 2,112 years. But I'm going with 2,000 now. So let's see a bit more than that. So this is everything is explained in such a, in such a simple and elegant manner. There is no...

Starting point is 01:10:01 What role does the moon have in all this? What role does the moon have in all this? Absolutely central and that is another thing that in chapter 13 and 14, my book explained very in much detail. The moon, I call it the central drive shaft of our whole system. And how can I do that? How can I call it the central drive shaft of our whole system. And how can I do that? How can I call it the central drive shaft? Well, here we go. I have this text today which I wrote today

Starting point is 01:10:35 ready to go put this bigger. In the Tycos model, can you read this with me? Here? In the Tycos model, our moon turns out to be the central drive-shaft of our entire solar system. As we multiply the moon's true mean synodic periods, which means the time that the moon's returns facing the sun, okay, I call it the TMSP, and that's 29.22 days. If you multiply 29, 22 days by exactly 4, 20 or 25, we obtain the mean synodic periods of Mercury,

Starting point is 01:11:23 Venus and Mars. Exactly Mercury, Venus and Mars. Exactly for 20 and 25. Furthermore, if we multiply the TMSP by 250, we get Jupiter's period, 375 we get Saturn's period, 1,050 we get Uranus period, 1,050 we get Uranus period, 2,062.5, that's a strange one. We get Neptune. And 3,100, we get Pluto's period. So the moon, the periods that the moon employs to go around us and face the sun again.

Starting point is 01:12:03 You see, you understand what a sign of the period is? It's when the moon is in front of the sun, you have to count a few days to see it coming back again, all right? And that's the average, the real average of that periods over time, I've calculated it's 29.22. And you, and that, but that works on in my system because I take it to count also the little motion that Earth does, because the Earth does move a little. So this is the first time this, this calculation has been possible to do. Yeah, so, I mean, what you're saying here someone is that all the, the other planets and the Sun are even multiples

Starting point is 01:12:50 by the moon's action orbit. It's like a gear box of a car. You have a central shaft and the central shaft drives all the cogs and the cogs are exact multiples of the central shaft drives all the cogs and the cogs are exact multiples of the central driver's rotation and the moon is our central drive shaft. Now, how could this be the case if the moon is just a little moon appendage that goes around in the third lane around the sun? I mean, the moon is insignificant in the Copernican system. It's just one, a moon, you know, like many other moons around Jupiter and Saturn. Our moon is not that important in

Starting point is 01:13:32 the mechanical way in the Copernic system. But here, it is, it makes complete, it's total sense. Since it is in the middle of the whole system, it will, it is the drive shaft. It turns out to be the drive shaft. And I think that's maybe one of the most, well, most amazing things of this whole model, that the moon turns out to be the central drive shaft. And what do you mean by central drive shaft? What does that mean? It drives everything? It's, I mean, mathematically it is the central drive shaft. Because one turn on the moon, if you multiply that 29.22 days by four, you get mercuries. Sign of the period, which is 116.88, exactly, it's exactly. 29.22 days by 4, you get mercuries, sign of the period, which is 116.88, exactly 29.22 by 4.

Starting point is 01:14:31 If you multiply it by 20, you get Venus's periods. The time it takes for Venus to return in the same place in front of the sun. And then by 25, you get Mars, andthen under 50 Jupiter, etc. This is not something that you can read in any astronomy. Can I ask what is it about, what is it practically that they've gotten wrong? Is it their understanding of gravity? Why are they persisting with these incorrect versions of reality? Do you get what I'm saying? Can you explain?

Starting point is 01:15:08 That's a great question. Maybe Patrick can answer that. Yeah, well, well, it's interesting. And it's interesting how this heliocentric model has been able to survive for hundreds of years, even though when you start to examine it logically and geometrically it doesn't work. It's not possible. So what we got here I would say is, is a new religion, where we are conditioned to think this is true. And because, I mean, if you want to have a name in astronomy, you can't criticize the helicentric model. It's not possible. You won't have a to have a... you won't have a... you, you won't have a... you, you won't have a... you, you, you want to have a... you, you want to have a... you, you, you, to have to have to have to have to have to have a to have a... to have a... to have a... to have a... to have a... to have a... to have a... to have a... to have a... to have a... to have a... to have a... to have a... to have a... to have a... to have a... to have a... to have a name in astronomy, you can't criticize the helicentric model. It's not possible. You won't have a job.

Starting point is 01:16:12 But I mean, this has happened throughout the aides and because of all the observation and evidence. And it was a big stir around the heliocentric model in the 19th century. But you know, Royal Society, with the astronomers there, they fought hard for the heliocentric model and then also, and we can see this today as well, to confuse the matter, there was a lot of talk about earth being flat, which is completely absurd. But it confuses people, and it's, you know, it's mind control, actually. And this is what's been happening in my opinion that during the

Starting point is 01:17:07 19th to 20th century by the use of mass media and and and controlled science and education there's they've built a new religion and and put more and more dogma into it. It first it was Helicentric model and then you have a very strange mystical on on confirmable physics, you know Einstein's relativity and quantum physics. It's, you can't, you can't confirm it with any reasonable experiment or observation. And then of course, as the icing on the cake, now we have NASA and space, you know, space exploration.

Starting point is 01:18:03 And because they can put their cars on Mars or whatever, as they show us on TV, we can't question these very basic things with the heliocentric model. And conclude, it doesn't work if we examine it using logic and geometry. But we can't do that because, you know, then we have to think that so much in our world is just an illusion, which it is. So what all this is this goes back to conspiracy? Would we say this goes back to the conspiracy if they want us to believe we don't, we're nothing, we're a spec of dust, we're not important because we're not the center?

Starting point is 01:18:53 Yeah. You know, is that, do you think that goes back to that conspiracy? We're not important, we're just a stack of dust that we could just, we're one in a million. Yeah, it does and you know they call earth the pale blue dots, you know, today it's just a little speck of thumb something in the sky. We were so insignificant. And but to go back to what Patrick just said, there's one sentence that really summarizes it very briefly the whole concept is what Sir Francis Bacon said many years ago. Knowledge is power. So they have, they probably, you know, Tycho Brough is expected to have been killed by Kepler, his assistant. Kepler was just a young guy, he was 25 years younger. He was just a kid.

Starting point is 01:19:46 Almost he was 26 years old when he came into his studio and Tychoa asked him to calculate the orbit of Mars. Because he was a good mathematician. Keppler was a good mathematician. But he wasn't an observer. Tychoa had all observations. He had done the big hard work, but he somehow, well, he didn't like Kepler. They always argued all the time, but he hoped that Keppler would solve the problem of Mars. And since Tychobra got so close to the truth, I suspect in my own conspiracy mind, you know, I don't like to talk toouth, I suspect in my own conspiracy mind. You know, I don't like to talk too much about conspiracies in this case because we don't need any conspiracy.

Starting point is 01:20:34 We can we can check this out for ourselves and that's what I've done. Right, real quick though. So when you say, so you agree with the pale blue dot theory that we're just a spec? No. Earth is an incredibly special place. Yeah. We we only know about life and water and nature and trees and fish and people on earth. We have never seen anything like with our best telescopes. There is not no life as far as I know. But maybe, you know, maybe Sirus C is twin-er-right.

Starting point is 01:21:15 Yeah, yeah, exactly. I mean, the reason. Yeah, we can't see it with the best telescopes because it's in the glare of the big star called Sirius A. And that is something which I would love to live another 10,000 years to discover. We will never, I'll never see this in my lifetime, but I suspect that serious C may be the twin of Earth, but they cannot see serious sea with any telescope. Even though serious is one of the closest stars in our universe. Interesting. Interesting.

Starting point is 01:21:54 Can I ask, what does this mean for space travel? What does it mean for the future of the universe? I mean, is it, you said Einstein's models don't really work. So are we actually under threat of expansion of the universe and the universe dying? No, no, no, no. No, it's fan- the expansion of the universe. It's funny enough, it was Edwin Hubble that first came up with this idea, and he's always cited as the one who came up with his idea.

Starting point is 01:22:31 But at the end of his life, ironically enough, he said, he retracted that idea. He said, no, I don't think the university is expanding. But you know why they're saying that the university is expanding? Because since they think the stars are so incredibly, unthinkably far away, they see, they calculate the speeds of the various planets that are rotated around other binary systems as enormously quick. The further you look at, you know, you know, you know, rotated around other binary systems as enormously quick. Now, the further you look at, you know, at a more distant system, the faster the speeds will seem to be.

Starting point is 01:23:17 So they say, oh, look, that galaxy has planets rotating at incredible speeds. But that's because they think they are so far away. But if they were 42,000 times closer, the speeds would be more in a normal, more normal, you see? So it's all, it's all based on the fact that they think that the stars are so bloody far away. And that's why they that the stars are so bloody far away. That's why they think that the universe is expanding. There's no expansion of the universe.

Starting point is 01:23:51 The universe is incredibly placid and stable place. All of these systems like ours are extremely stable. And the only, you know, they've had to come up with chaos theory. I mean, in the late, in the 1990s, they said, oh, Newton's laws don't seem to apply anymore. The solar system is in a chaotic state. Why do they say that? Because there were these little discrepancies caused by the little motion of Earth that I have discovered, humbly, modestly speaking. Earth moves by 14,000 kilometers every year. So it does move. From left to right here, as we look at it now. It does, it does move. It does, it does move from left to right here as we look at it now. It does. It does move a little. Let me show you, I'll put now like a year. We see, we see, oh no, I have to put like 10 years to show it here on graphics. Okay, 10 years. You see that move, Earth moves from left to right?

Starting point is 01:25:04 Right. Does move. It does move. So there is a little motion, but that motion, that motion is that, it, it, it, it, it, it, it, it, that, it, that move, that move, it that move, it that move, it does move, it does move, it does move, it does move, it does move, it does move, it does move, it does move, it does that, it does that, it does that that that that that that move, it does move, it does that that that that th th th th th th th th th th that th that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that's that that's that's that's th does move, it does move, it does move, it does move, it does move, it does move, it does move, it does move, it does move, it does move, it does move, it does move, thi thi thi thi thi thoooooooooooooooooooooooooo, th th th th th that's, Earth moves from left to right, right? It does move. So there is a little motion, but that motion is unknown to all astronomers. Now should your model make space travel less difficult, less challenging, it would seem like it probably would, right? Look, space travel is impossible, I think, because we have an atmosphere, we have an atmosphere. We have an atmosphere around us, which allows us to go up to 100 kilometers of altitude, but then you can't propel any rockets beyond that.

Starting point is 01:25:34 So we never landed on the moon. There are no molecules to push on. NASA says that the rockets don't push on air, but of course the rockets push on air. And they just come up with this idea that the rockets work. T. T. T, that's, their, their, their, their, their, their, their, their, their, their, their, their, their, their, their, their, their, their, thus, which is, which is, which is, their, their, which is, which is, which is their, which is their, which is their, which is their, which is their their, which is their, which is their, which is their, their, their, their, their, their, their, their, their, their, their, their, their, their, their their their, their but of course the rockets push on air and they they just come up with this idea that the rockets work by a recoil effects you know yeah I mean the wild they have this example of throwing out medicine balls from from from a skateboard and then skateboard will go their other side but that's not enough to bring a hundred thousand kilo rockets up in the air. So there's never been any rockets in our dis I mean, just take this idea of mine and

Starting point is 01:26:16 Patrick calls the shares it. Take it as you like. You might say that we are crazy, not cases that say this, but we really believe that no rocket has ever exited the atmosphere. No, I certainly, I mean, we subscribe to that around here. We think the whole NASA is a big money laundering scheme. I'm curious, now what does this mean, your model, what does it mean for the threat of asteroid strike, meteor impacts? Is that threat overblown?

Starting point is 01:26:48 What do you think of that? Asteroids, I mean, I hope you don't, talking about the last, and has a mission that's a crash into an asteroid. Well, no, no, no, yeah, the dart thing. I mean, I think, I'm, I'm, I'm, I'm, I'm, I'm, I'm, I'm, I'm, I'm, the, the, the, the, the, th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. thi, th. th. th. thi, th. th. th. th. th. th. th. Is, th. Is, is, is, is, is, is, I, I, I, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is, is. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th. th, the dart thing. I mean, I think that's a joke. But, I mean, we've seen, Meteors, meteors, okay. The history of the Earth, you know, it suggests that they have struck Earth. And I'm curious what your model says about the likelihood of that. Some meteors have, maybe, you know, go through the atmosphere, which is really, really, really, it burnss, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, is, is, the, is, the, is, the, is, the, is, the, is, the, the, the, the, the, is, the, is, the, is, is, is, is, is, is, is, is, is, is, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, is, is, is, is, is, is, is, is, is, is................... the, is, is, is, is, is, is, is, is. the, the, the, the, the, the, the, the, the, is. the, the, the, is. the, su. the, sui. the, suggests, suggests, suggests, suggests, suggests, suggests, suggests, suggests, suggests, is. the, is. really, it burns up almost anything that gets into it, okay?

Starting point is 01:27:25 It burns up even big, big rocks. And maybe some meteors have fallen on earth. I don't, I can't believe that. But if we want to go to that part of the discussion, I will just, if I may, I'm not digressing really. I'm talking, you're talking meteors, so I'm telling you about... Meteors, you know, the meteor showers that we have every year in the same locations all over the world. You know, you know about the meteor showers?

Starting point is 01:27:59 You know, you have the Perseids, you have the Orionids, you have all. Okay, they always occur to the same place, geographical location on Earth every year, annually. Year after year. Do you know how they explain this meteor showers? How? Well, they explain that, that is Earth. As it goes fast around the sun, it crashes into the wake of comets that have passed over the years.

Starting point is 01:28:33 But comets don't pass annually, no comets pass annually. Hallettes passes every 76 years. All other comets pass in even, pass in even longer periods of time. So how can there be an annual meteor shower over Rome, where I live, you know, in August, all the time, every time? Why could it be so regular? Well, that is in chapter, what is it, chapter, some chapter in my book. It's called... I feel like I've seen that design somewhere too, right there. You know, like, this universal flower design. Yeah, you have probably seen it within astronomy.

Starting point is 01:29:25 I mean, these are well-known. It's called the flower of Venus. And because in, oh, sorry, astrology. Because in astrology, you always view things or the motions from a geocentric perspective. Yes, that's what it's at. Yeah, so I mean, it's, it's pretty ironic because astrology are actually picturing the motions of the celestial bodies, in our view view in a more correct way than than astronomy.

Starting point is 01:30:08 Yeah. Yeah. Look that. So if you just let me finish the meteor story. You see here, this is this is not my graphic. This is a jiff animation taken from another astronomy website where they show the th-today, this is this is this the, this is GIF animation taken from another astronomy website where they show the two objects, binary, binary stars, will have things revolving around them, you know, and sometimes crashing into each other.

Starting point is 01:30:40 I mean, these dust particles going around these two objects will sometimes crash and send stuff, you know, rift and right. So in our system, since we have the Sun and Mars, the Sun and Mars, revolving around each other, they will, they will intersect in some particular places. And creating the Gemini media shower here, then creating the Perseus shower here. I mean, you need time to look at this. But I'm just showing you this chapter 15 on my book. The Orionite shower will happen because the solar orbit and a Mars orbit will crash here, etc. It's just because, and these these are recurring things, these recur every year, these intersections of the orbit of Mars and the Sun. And I've even shown

Starting point is 01:31:47 it quantitatively. I've even calculated how long would it take for meters to get from here to here. I mean like one A.U. Since we know that these meteor showers occur in these states. And I tell you, if you get, if you, if you put your head into this, this chapter, you will understand it. It's, it looks complicated for you now. But I have done my best to explain that the meteor showers are just the result of the periodic intersections when the, the orbit of the Sun and Mars intersect. And of course the Sun and Mars have dust around them, so they just this dust is crashing and sending it towards everywhere and towards Earth.

Starting point is 01:32:36 So yeah yes to explain so every celestial body here or the Sun and Mars in this case they have a debris field kind of around them you know asteroids. Right. the sun and Mars in this case. They have a debris field kind of around them, you know, asteroids. And they are moving and when they move across each other, this will collide some of the stones and then there will send smaller debris towards Earth. And Earth also has, we know that Earth also has asteroids in orbit around us. They're called near Earth objects. And they are very visible.

Starting point is 01:33:18 If you observe the stars, you will see these moving things. But, you know, todayay they usually call them satellites. So we can confirm that there are satellites because we see a moving star. And that is what we call satellites. So yeah. So you guys, there's a couple questions here that you sent me that I would like to ask you about And I like them why why does mercury and Venus have no moons of their own? Hmm, okay, can I take this? Yeah, of course. It's your? It's your?

Starting point is 01:34:01 Why? Why? Why in fact? Indeed? Why? Why? Why? Why? Why? th, in fact, indeed, why doesn't Mercury or Venus have a moon's? Why don't, they are the only planets that don't have moons, okay? Well, they don't have moons because they are moons. They are the moons of the sun. And, why do we know that they are moons? Because they, okay so now we have to go back to an earlier... Mars is a sister planet of the sun and and mercury and Venus are moons of the sun and Mars also have two small moon Exactly, exactly Mars has two moons. I wanted to show this before but do you know

Starting point is 01:34:53 do you guys know that Mars has two moons as well very very small phobos and damos That's why I try to learn I would like to say yes by be lying here. You can see here Fobos and Amos? Yeah. Well, Mars has two moons, guys, and the sun has two moons. And I am saying that the sun and Mars are like a couple. It's a couple. It's a man and a woman with two kids.

Starting point is 01:35:24 The kids of the sun is, or mercury mercury in Venus and the kids of Mars is Phobos and demons. How many planets are there? How many moons are there? Earlier, right off the top of my head, how many planets? I mean, Jupiter and Saturn have like 70 or 80 moons each you see and they all go they even go in different directions around around the Jupiter and Saturn they have some go in one way some going another do you know that? They don't go in the same direction some go in opposite directions

Starting point is 01:36:02 around so they are very different kinds of moons and stuff but the things they don't go in the same direction. Some go in opposite directions around. So there are really different kinds of moons and stuff, but the thing is that Venus and Mercury have no moons. Venus and Mercury are the only planets, the only moonless planets that we know of. Well, and why, how can we recognize how we define a moon? We can define a moon by saying, but by by verifying that it always shows the same face to its host and that is exactly what Venus and Mercury do. Both Venus and Mercury always show the same face to the Sun, but that doesn't mean they show the same face to us, but this show the same face to the sun. But that doesn't mean they show the same face to us, but they show the same face to the sun. Exactly like our moon shows the same face of itself to us. So that's it. And also,

Starting point is 01:37:00 importantly, very importantly, do you know that the speed of rotation of the moon is very slow, it's like 16 kilometers an hour, 16 kilometers, it's like walking space. The moon rotates around itself and 16 kilometers an hour. And so do Mercury and Venus by 10 and 18 or something or 12? I mean, all this Venus, Mercury and Moon are the only objects we know of in our close vicinity that rotate that slowly. Jupiter rotates at supersonic speeds around its axis and so the Saturn, 30,000 kilometers an hour. The moon is an object that rotates very slowly around its axis, always keeps its same phase towards its host.

Starting point is 01:37:56 That's the definition of a moon. And so do Phobos and Damos. That is officially accepted. Phobos and Dames also are tidily locked. They call it tidily locked. Tidily locked means that they show the same face to the host. All right. You follow here, guys, because you know about the moon, we always see the same side of the moon. And then we have the back side of the moon that we never have seen.

Starting point is 01:38:27 And Venus and Mercury is behaving in exactly the same way. They always show the same side to the sun. But and one thing that confirms this is that each time Venus is closest to the Earth, we are always seeing the same side of Venus. That's a mystery that it's hard for astronomy to explain. That is, because they are claiming it's not tidily locked. So, and what we are seeing then is the backside of Venus, you know, that we would never see if we, if, if, if, if, if, from the sun.

Starting point is 01:39:06 I would like to emphasize this for, for, for, as officially, astronomers are saying that that is a mystery. Why does Venus always show us the same side of it when it passes closest to Earth? That you can go anywhere, you can look it up for yourself, you will see that as we haven't understood this and still why does Venus do that? So and that's just one of many small mysteries that the Tychus resolves. You can go to chapter 31 where I list 37 mysteries which the Tychus modal solves. Please do that. If you're not patient enough to read the whole book, you can just go to page 31, chapter 31, and you will see 37 points that Tychus resolves. So there's 37 mysteries of modern astronomy, which are not resolved.

Starting point is 01:40:08 Well, point by point, step by step, the Ticus model resolves them effectively. Let me ask you, tell me about why Jupiter and Saturn seemingly behave erratically. Mm-hmm. Oh, I see you're reading my text I wrote today. Yeah. Okay, all right. Okay. I'll answer straight away. So that's that has to do with something which is called, which is famously known

Starting point is 01:40:38 as the great inequality, the great inequality, they were calling it in the 19th century or 18th. The great inequality, that's chapter 17. So what was the problem then, and still is for them, they were seeing that Jupiter and Saturn, when they conjuncted with each other, around the earth, they would kind of, they would, it seemed to be erratically conjuncting, they were not always lining up in the same way. I know, this is a bit long to explain, but you can slowly read this chapter when you have time. And they were saying, oh, this is a big problem because the most startling conclusions were drawn from these variations in the planet emotions.

Starting point is 01:41:37 It was known that when the angular velocity of a body increases from normal centrive, hence it was inferred that a solar system would, in the course of ages, lose two of its most prominent members, that Jupiter would fall into the sun, while Saturn would be driven away into the depths of space. That was the big, big problem for them. According to their calculations, since they were not meeting up in regular phases, the Jupiter would fall into the sun sooner or later, and Saturn would be driven out into the desk of space.

Starting point is 01:42:18 This is from the astronomical journal, 1895. It's not that long ago,'s 1895 you know so what was the problem well it is this explained it here this is this sole only graphic of mine resolves the great inequality this this graphic of mind you have to understand it you have to look at it for a while but the thing is that we as I said weigh thrown this this do this thrown this thus that the thi to thi thi thi thi thi thi the the thi the the thi the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the the theyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyymeeeeeeeeeeeeeeeoooooeeecoe toe toe cune cune. their their their their their their their their their to understand it, you have to look at it for a while, but the thing is that we as I said we do move a little, okay, in 60 years, do you see my mouse here? You see my mouse? In 60 years we move from here to here. Okay, we will do this motion in 60 years time. So let's say we are in the year 1900s here and then 1960s here, okay, so from 1900 to 1960 in 1900 we will see Saturn is slightly ahead of Jupiter okay here in 1900. And in 1960 we would say oh now Jupiter to the same.

Starting point is 01:43:23 In 1960 we would say oh now Jupiter seems to be ahead of Saturn. So Jupiter must have accelerated. You see, because it's just a question of perspective. Yeah, so that was what they concluded. But in reality, they are conjuncting exactly the same place. Then epoch 2. Epoch 2. Now, now they are, this is, you know, Jupiter and Saturn are above the earth here. And now they are below, in another epoch, they will be below, and the opposite will happen.

Starting point is 01:44:01 Jupiter is slightly out of Saturn, says this guy here, here, here, will say, look, Jupiter is slightly ahead of Saturn, prospectively. And then 60 years later, oh, now Saturn seems to be ahead of Jupiter. Saturn must have accelerated. So what's going on? First it was Jupiter it was accelerating, and now it's certainly it's accelerating. But that's just because they don't know about this motion, which I have placed, I have discovered. Wow. Sure. So, I mean, if we assume that Earth is moving in this way, as Simon suggests, you know, very slowly in an orbit so it's on one point, then we don't have a great inequality. You know, it works, because we are moving and then we will see it from a slightly different perspective, so we don't.

Starting point is 01:45:03 You know, this is just one of all the problems in within astronomy that, you know, astronomers rather don't talk about it, but they are there. They have never been satisfactory solved, but... They have not been solved. They have not been solved. They, they,. They have claimed that they've been sold because they made some amazing calculations. And yeah, it's like perturbations by the various planets and gravity perturbations and turbulences that create this. But no, there's no need for that.

Starting point is 01:45:42 It's just simple geometry. We are moving by this much and that will create this little perspective difference, you know, variation. There's nothing, nothing complicated at all. That's why I keep saying the Taikos is much, much simpler than the, the currently accepted Copernican model. It is... Why do you think they want us to accept that? Just to keep power?

Starting point is 01:46:15 Or so we don't know... Yeah. Just don't have the real information and we're all just following a stupid... I think we could... I think we pretty much know now that the people in power really love to keep us in ignorance, don't we? How many of them would you say know about this theory though? How many academics at universities know the details, the real details of what you just laid out?

Starting point is 01:46:44 That's impossible for me to... But I guess at it. Like, I guess at it. Like, I, I, the, the, the, the, the people, the people, the people, the people, the the people, the people, the people, the people, the people, in, in, in, in, in, in, in, in, in the people, in the people, in the people, in the people, in the people in the people in power, in power, in the people in the power, in the power, in the power, in the power in the people in, in the people in, in the people in, in, in the people in, in, in, in, in, in, in, in, in, in, in, in, in, in, in, in, in, in, in, in, in, in, in the people, in the people, the people, the people, the people, the people, the people, the people, the people, the people, the the the the the the the the the the the the the the the the the the power, in power, in power, in power, in power, in the the the the p-in power, in power, in power, in power, in power, in the the, the real details of what you just laid out. That's impossible for me to... But I guess at it. Like, I mean, how many of them, because we're talking then about the difference between dishonesty and ignorance. And I'm curious, and that's a big distinction really, I think, and it's an important distinction. I'm curious what you would weigh that. Look I'm I'm I just tell you frankly I just hope to live long enough to see people realizing that this is the only system possible. It sounds extremely pretentious but that's I'm just waiting

Starting point is 01:47:20 just waiting for people to and there have been already thank God there have been some who have already that's that the that that thus that the to thus. that that that that that that that the the the to to the the to to to to their to to their to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to the the the the the the the their their their their their their their their their their their the their the the the the the the the the the the the the the the the the the the the the the to to to to to to, and there have been already, thank God, there have been some people who have already caught up with this. But how do I know if, you know, somewhere in the deep state people know about this? Well, I've always been, I've always been careful to to think that way but more and more I feel that yes someone must know someone somewhere must know about this. Yeah exactly you know that that was my journey as well you know when I started to to help Simon with this work,

Starting point is 01:48:08 five years ago, I didn't know much about astronomy, but you know, as I went along and developed the tycosium, I learned and I started studying the history, and I rather went from honest mistake to deliberate obfuscation and concealment, you know, because when you read the explanations, especially from royal society, you know, the royals, the astronomers there like Bradley, when, you know, they did, they measured parallax to try to find a way to confirm the heliocentric model, but they couldn't find a reasonable oscillation, you know, in six months because, you know, if, if, if Earth is moving around the sun in a 300 million kilometers wider orbit, then, you know, this motion, I wanted to confirm it,

Starting point is 01:49:15 but by seeing the stars move a little, but they didn't get six months, they get four months and nine months, I think it was Simon. Yeah. Yeah. And it's it's all detail in Simon's book. And then Bradley come up with a super weird explanation. Well, you know, if you see flag on a flagpole and it's waving, yada, yada, then this is, you know, so they always put on this stellar, you know, to keep things. is, you know, so they always put on this, you know, stellar, stellar, to keep things. And actually, guys, it's the same thing with Einstein, because in the late 18th, 19th century, the heliocentric model was in big trouble. Why? Because a couple of scientists called Michelson Morley, they developed an experiment where they wanted to confirm Earth's motion around the sun in 100 kilometers per hour. 100,000. Thank you000, thank you.

Starting point is 01:50:25 And back in then, they had a reasonable theory around electromagnetism that there was an ether that magnetism and light propagates through. So, and they, and you can confirm Earth's rotation, daily rotation, using an experiment like this. They have a special device that measures the polarization of light. It's a bit complicated, but so they can, they could confirm Earth's rotation. But they weren't able to confirm the much higher speed around the Sun. Which is called this technology.

Starting point is 01:51:13 Translational motion of Earth. Translational means the speed it has in space. It could never, it has never been measured. This 107,000 kilometers speed has never been measured in any experimental way. It is always failed. Yeah. Yeah, so, what's your thoughts on Einstein? Yeah, where I was going was that because of this, because this experiment, and they

Starting point is 01:51:44 couldn't explain it away, you know, and there was a guy Dayton Miller. You can read all the details about that in Simon's book as well. He did thousands of these experiments. And they couldn't confirm any motion of 100,000 kilometers per hours around the earth. So there was a big problem here, you know, or around the sun of earth. And but then Einstein came along and he said, you know, there is no ether. Light is made of little particles that can, can, you know, affect the time itself. So that was a way to explain physics in another way,

Starting point is 01:52:34 so you could explain away this experiment that compromised the heliosentric model. Are you following here? I have to, I have to add to, since you mentioned Dayton Miller, Patrick, I have to say that there is even more that I discovered that Data Millers, thousands of experiments did actually find some kind of motion. And when you, when you divide the motion that he's, to put it simply, you know, it's, it's a bit hard. It's a bit hard. It's, you know, it's, you, you. It's, you. It's, it's, it's a, it's a the, it's a the, it's a the, it's a the, it's a the, it's a the, it's a they. It's a they. It's a they. when you divide the motion that he's to put it simply, you know, it's a bit hard to explain like this over a year, but very basically,

Starting point is 01:53:15 the speed that he saw that he found in his experiments, he was trying to find the speed of Earth around the sun. If you divide it by 42,633, which is my reduction, that is found in his experiments, he was trying to find the speed of Earth around the Sun. If you divide it by 42,633, which is my reduction factor, that distorts are that much closer, that becomes 1.6 kilometers an hour, which is a speed that I'm saying that Earth is doing. And it's in this chapter 24. You will have to read it very carefully. So I talk about 8 kilometers an hour because that's the half, that's half 1.6. And he found 0.8 kilometers an hour, which is, you know, the average of, you know, the two sides of, how to explain this.

Starting point is 01:54:07 Yeah, well, we don't need have to go into everything, but I mean, what he did find. He did find something. That's what I wanted to say, Patrick. Sorry. Yeah. I just wanted to say he did find something because it's very important to say this. He didn't find nothing. He found something. And if I, the the the the th. the the th. th. th. th. th. th. th. thi. thi. thi. thi. the thi. thi. thi. thi. to find to find to find to find to find the to find toe. toe. too. too. too. too. too. too. too. too. too. too. too. too. too. too. too. too. too. toe. toe. toe. toe. toe. He was. He was. He was. He was. He was. He was. He was. He was. He was. He was. He was. He was. He was. He was. He was. He was. He was. He was. He was. He was. He didn't. He didn't. He didn't. He didn't. He didn't. He. He didn't. He didn't. He didn't. He did. He did. He did. He did. He did. He did. He did. He did. He didn't. He didn't. He didn't to say this. He didn't find nothing. He found something and if I

Starting point is 01:54:25 divided by my reduction factor it gets it it confirms my number of 1.6 kilometers an hour. Exactly these these experiments of the earth. These thousands of experiments done in the early 20th century actually confirms your suggested PV orbit. We find yet another confirmation in those experiments. Quantitively, quantitatively, it's hard word I even quantitatively show that data Miller's experiments confirm that speed that I'm saying. So it's really quite exciting, guys. And I was, this is pretty much, no, deep into my book, Data Miller. What I really wanted to show you earlier was this, that Kepler, at one stage Kepler did, he actually did this, you see this graphic, the white

Starting point is 01:55:42 graphic here, is called Del Motibus Stella Martis, which means in Latin, of the motion of the star Mars. This is his own drawing, Kepler. And if you see, it's very small here, but it says, here is Mars in 1580, and here is Mars in 1596. So this should be a 16 year motion of Mars. Well, if you go to our tycosium, our Patricus and I, the tacosium, similar that we have done,

Starting point is 01:56:18 it is exactly the same. Our taxioio shows this drawing that Keper made. But he threw it away in a dustbin because he couldn't figure out why would Mars do these strange things? Probably. He couldn't understand why would Mars do these strange spy graphs? This is amazing. You know, we have, you can go to the technology and verify this for yourselves.

Starting point is 01:56:48 Now, can I ask? I was here in 1580 and it was here in 1586. It is the photocopy of Catrus calculations. Can I ask now, does your model, are you able to make predictions like eclipses or yes, comets recurring? What kind of accuracy are we looking at the? All, all, hundreds of years backwards and forwards. I mean, forwards is using, you know, NASA tables that they are predicting, but backwards, it is absolutely amazing. I can go back to, you know, 3, you know, 3, you know, the tha that they are predicting, but backwards it is absolutely amazing. I can go back to 396 BC and where was Marsden, it was there. It was observed to be there. But when did Hallies Comet pass in 100 whatever see, it was there. Because, I mean, excuse me, because Halley's comets,

Starting point is 01:57:50 it's very special because the, the heliocentric model and the current astronomy has a very hard time of being able to explain the passages of Hallys. And if you go and look at observed dates of Halleys, they don't agree with actually with the models of Hallis that exist today. And the big problem with Hallis is that, according to Tychosium, the Hallis comet is actually passing Earth several times. Yeah, it's moving it. So you can see Hallies several times,

Starting point is 01:58:41 sometimes, depending on where the sun is, when it passes. But that is impossible in the current explanation where you have this high elliptical curve. Let me explain this better. Yeah, sure. Go ahead. Hallis can be seen in more than one year because it does loops around us. So, they think that Hallis does this. Okay, you see this graphic? This is the official graphic.

Starting point is 01:59:11 So officially is doing a cigar-shaped orbit. All the comments, according to officialdom, are doing cigar-shaped orbits. And the reason why they came to this conclusion is described in this longest chapter in my book. The Hellas Comments Chapter, Chapter 30 is the longest. I spent three years on this. And I show that this is absurd. I mean, why would anybody in our system do a cigar-shaped orbit? Okay? When asteroids do circles. Asteroids are the same size as comets, more or less, but the only commas do cigar-shaped orbits. Well, no, this is what the tycosm shows.

Starting point is 02:00:02 Halis goes around like this in 76 years it comes back it does a 76 year circle and always comes back up to the 76 years, 75.66. And so what happens since it does this new loop it can be seen a year before or a year after or even two years before or two years after. So you can, you have a time span of three or four years in which you could see Alice, you know. And what do you know? They have seen so many, they have, there are so many observations of comments that came just one year before Alice came, or just one year after Alice came, and I've listed them all here. Every single time that Alice has been recorded to pass in the last 300 years, there was an anonymous comet that passed before one year before or

Starting point is 02:01:07 one year after but it was always Alice so this is yeah do you follow it's a always haile's comments they're trying to tell you another comment yeah exactly because Hallis is not the comment they see is is not moving as Halis is supposed to do. So then they automatically assume, well, this is another comet. Well, if you, if we postulate the motion Halis does in tycosium, well, then you can demonstrate it is indeed Halle's comet. If we accept that it moves in tycosium, well, then you can demonstrate it is indeed Halle's comet. If we accept that it moves in this way. And therefore it can be seen two years before or two years after.

Starting point is 02:01:54 It actually passes closest to Earth because, yeah, sometimes it passes really close to Earth. But that's why they have been so confused and they made tables for Halleys which are completely crazy. You know what they say, officially, that Hallis is chaotic. It doesn't come back every 706 years. Sometimes it comes back in 73 years and sometimes it comes back in the 73 years. And sometimes it comes back in 79 years. Six years of difference. For some reason it would kind of slow down and accelerate for six years. That's what they are saying guys. They are saying that Alice is completely chaotic. No. it's not chaotic. It always comes back in 76 years.

Starting point is 02:02:47 And 75.66. And so this is all here very much, this is the longest chapter in my book. This is, I mean, this will take you a week to read. But I can assure you, it is fascinating. What is all this that I've written? I've taken all the observations collected over the.......... It, I, the, the, the, the, the, the, the, the, the the the the the the the the the the the the the the the the the the the the, the, they, they, they, they're, they, they're they're they're they're they're they're they're they're they're they're they're they're they, they, they, and 75. And, and 75. And, and 75. And, and 75. And, and 75. And, and 75. And, th. And, th. And, th. And, th. And, the. And, the same, the same, the same, the same, the same, I, I, it is fascinating. What is all this that I've written? I've taken all the observations collected over the centuries, you know, from books all

Starting point is 02:03:11 over the place. I read books in five languages. I found French books. They found English, Swedish books. And I put it together and shown that it was always hellious that was seen. And sometimes they called a certain passage of a comet, another name, the great daylight comets. They never thought it was hellious comet because she was going the wrong way and so forth. This is incredible. Yeah. This is amazing guys.

Starting point is 02:03:45 Well, this has been an eye opening episode. I've learned a lot. It's just like I just trust the science. Nah, no, question everything. I got one quick question. I got one quick question. We got a flat earthers that listen. Is there a lot of flat earthers becausethat listen. Is there a lot of flat earthers

Starting point is 02:04:06 because the hillcentric system is wrong and they can't fit, nothing works. Because sometimes you watch a YouTube flat earth video, you're like, okay. Obviously what they're telling isn't true, is all this misinformation, the reason there's so many of them. Yeah, can I also this one also also also also also also also also also also also also also this one also this one also this one, Simon? Sure. Yeah, I mean, it's, I think it's psychology and propaganda.

Starting point is 02:04:30 You know, there is a saying, the art of infamy is to have lies fighting each other. Or the devil's best trick is to have two lies fighting each other. So, actually, the heliocentric model doesn't work. It's a lie, but it's a bit hard to figure that out. But since it's getting, being questioned now, and since NASA is being questioned, which also is a lie. They prop up another lie that is a bit more frankly absurd. And that is that Earth is a pancake. And then they try to focus attention on that.

Starting point is 02:05:19 And some people start believing in it, but most people, you know, they just look, okay, so they say NASA is fake. Who is saying it? Well, it's people who thinks the earth is flat. Well, then I can go on, you know, not thinking there is anything to this, that it's just a conspiracy. So it's, you know, it's mind control. Many, several years ago, I think it was in 2015, 16, I wrote an article on my forum, which is called the DBA, flat earth operation. DBA means discredit by association. I think it's, it's not itself that has promoted flat earth.

Starting point is 02:06:03 Because Nosa has been, you know, they've been worried about so many people waking up to their shenanigans. So they've had to inject, you know, a viral idea that the earth is flat. So anyone who says that the earth is flat, as you probably have seen on all these YouTube videos of young guys who say that earth is flat, they always invariably say that NASA is fake.

Starting point is 02:06:37 So they associate people who doubt NASA with flat earthers, which makes it less credible for the general public. And the general public will, you know, we look at these young people, you know, looking, you know, trying to find the truth and say, oh, who are these guys who say that NASA doesn't go into space? Oh, they are the flat earthers. Oh, well, then I can completely dismiss the idea. So it's NASA, it's a NASA operation. The NASA propaganda division has diffused the flat earth meme. That's my, that's my conviction. I've been... Crazy times. The comment section is gonna be fire.

Starting point is 02:07:25 Guys, I love it. Thank you guys so much for coming out. What a wonderful episode. I'll make sure to include all the links to your book, to your website. So people can check it out. And well, I'm sure there's gonna be some flat earthers to have some very interesting comments. But I appreciate you, Simon. I appreciate you, Patrick, for coming on. And we'll make sure to include the website, the link to your website so people can check out your system. Thanks for coming on the show, man.

Starting point is 02:07:55 We really do appreciate it. It was a great episode. All right. Thank you. It was a pleasure. Thank you. I appreciate you guys. We got one more episode this week, but we want you to have a great Thanksgiving and we

Starting point is 02:08:08 really appreciate you guys coming on and we love you and we appreciate you sporting a show. We will talk to you soon. Enjoy your ta. ta. ta. Thank you. Thank you, Simon. Thank you, Patrick. Pure fire. Guys, if you want to follow us th, th, th, th, to to to to to to to to to to to to to to to to to to to thi, to have to have to have thi, to have to have thi, to have to have to have to have to have to have thi, thi, to have to have to have to have to have to have to have to have to have to have to have to have thi, thi, thi, thi, thi, thi, thi, thi, thi, thi, th. We th. We th. We th. We th. We th. We th. We thi. We thi. We thi. thi. Thank you, thi. thi. Thank you, thi. thi. thi. thi. Thank you, thi. thi. Thank you, toea. Thank you, toean. Thank you, toean. Thank you, toean. Thank you toean. thi. Thank you, thi. thank you Simon. Thank you Patrick great episode purefire Purifier guys if you want to follow us on social media

Starting point is 02:08:28 Please check out our social media my social media is on Instagram is at Sam Tripoli and then on Twitter is official Tripoli and then I if I had a Tick-Tock and I don't think I'm going to, but right now I have real Sam Tripoli. Johnny, what are your social media? I'm at Johnny Woodard on Twitter, at Johnny A. Woodard on Instagram. And X. She marks a spot, X. You marks a spot, next social media. And Sam, should we start a Tick Tock for TinFlo? Or is that a no-no? Oh, we have one. We have one have one I'll give you the password. Yeah we do yeah yeah we had it we had a conversation about it months ago and you said make one I put it on my social media phone but then I don't want China hacking my shit guy I'll give you guys a password yeah weigna the tasks. Yeah we do it's at 10 full hat I think something like that okay if you're at 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 at to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to to t. I t. I t. I tip. I tip. I tip. tip. tip. tip. tip. tip. tip. tip. tip. tip. tip. tip. tip. tip. tip. tip. I, go to Sam Tripoli.com. Everything you need is in fact there.

Starting point is 02:09:26 Okay, if you go to Sam Triply.com, all of our dates are there and our premium content. Rockfin.com has everything you need. There's a lot of stuff going on at Rockfin. For $10, you get everybody's content. I'm putting up to my best of my ability, six episodes a week just by myself, okay, Tim Fall Hat, two episodes, zero, my spiritual podcast, two episodes and conspiracy social club of Brian Count, two episodes. We give you first look at Broken Sim, and we don't smoke the same is on there as well.

Starting point is 02:10:05 Cash Daddies is a Patreon that I do with Johnny and Howie Doey is an investment Patreon. A lot of great stuff going on over there for $20 a month. You get regular. We go deep home boys. Eric. Open your mind. Drink from the fountain of knowledge.

Starting point is 02:10:27 There's lizard people everywhere. That's some interdimensional shit. Wake up, Aaron. This is only the beginning. You just blew my mind.

Tin Foil Hat With Sam Tripoli - #623: Tychosium: Does The Sun Revolve Around Earth with Simon Shack and Patrik Holmqvist

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