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Sept. 22, 2024 - Info Warrior - Jason Bermas
53:32
Mars Madness And Not So Secret Space Weapons
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Welcome, ladies and gentlemen, to the Alex Jones Show.
I am your host for the hour, Jason Burmess, and today we're going to be talking about a subject, again, that transcends left and right.
is a reality when it comes to what's really going on in space.
I've got news for everybody.
I know it sounds nice.
I know people want to believe in it, but we're not going to Mars at all.
That's imagination land.
So the first place I'm going to start is here, okay?
We're seeing these headlines everywhere.
Trump is now ludicrously Saying that we're going to go to Mars during his administration.
He's not even talking about human beings.
He's talking about landing a large scale rocket on Mars on the movement to put human beings there.
Now, The reason I'm choosing this as a subject is because we have to realize that the vast majority of our space program is, one, about weapons and communication systems.
It is weaponizing space on a mass level.
That's numero uno, and we're going to show you that in a moment.
Then, we have to also understand it's putting us into the virtual arena, all right?
And when we talk about that virtual arena, we are also talking about transhumanism as well.
These are the three main things that our space program, NASA, SpaceX, and beyond are really about.
We've got to illustrate that.
Now, first of all, we're going to start here, okay?
This is a real plan.
The old muskernuts retweeted this.
Okay, so this is a real announcement.
Within two years, the first uncrewed starships launched to Mars during the next Earth-Mars transfer window to test landing reliability.
Now listen, Just the rocket stuff we have going on here.
What's currently going on in the ISS, we're also going to illustrate that.
These astronauts who were supposed to be there for a couple days are now stuck there until about February.
They're about 250 miles above the planet in low Earth orbit.
That has to be illustrated.
We'll get there and in a reason in a moment.
Four years!
The first crewed flights to Mars!
It's not real!
Guys, let's look at some numbers right now, okay?
First of all, before we get there, I want people to understand that space is obviously not a uniform thing.
Just like we don't always know what's going on around our planet, and I think that NASA has a place that we do need to learn more about our Earth, but that's the thing.
Science is ever-changing.
I mean, this isn't an old headline.
It's from a couple weeks ago.
Okay?
NASA discovers an invisible electric field surrounding the Earth.
Claiming it is as important as gravity.
Now, I want people to understand this.
There's so much going on around us that is invisible to the eye, that even transcends the technology that we have now developed.
Yes, we have created wireless networks of information and beyond, but when you look at the magnetosphere, the ionosphere, the stratosphere, The discovery of even the Van Allen radiation belts, by the way, that came right before the Apollo missions during Gemini.
Okay, so not that long ago.
And, allegedly, human beings, for the first time since the Apollo missions, and for the first time women ever, you'd think that'd be a big story, just went past the Van Allen belts, actually.
So, just so everybody understands that, this Polaris Dawn, which we're going to get into, that just took place, is essential to understand how far we really may be Maybe in putting humans in space.
We got a jam-packed hour for you and you're going to want to pay attention.
Tons of clips, so much important stuff going on.
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I am your guest host, Jason Burmess.
We are talking about the reality behind what's going on in space, the Polaris Dawn spacewalk, and where we've been historically, and where I imagine we are going.
Now, first and foremost, when we talk about these spacewalks, they have a long and storied history, okay?
And again, prior to this spacewalk of Polaris Dawn that was not even a thousand miles, above the Earth, but above the Van Allen radiation belts.
The only time human beings have been beyond that is Apollo.
And by the way, the Russians, they've only been just about under 300 miles officially, even though they were kicking our arnis in the space race.
First spacewalk.
First multi-crewed mission.
First woman in space also.
Uh-oh!
Breaking gender barriers back in the day, Soviet Union style.
Now, I'd encourage people to go read this.
Because look, I think, and here it is.
This is that spacewalk we're talking about via Russia.
We don't want the audio here.
We can do without that.
Let's grab that off.
Okay.
And again, whooping us.
Notice he's tethered there.
Well, later on, you know, when we're supposedly beating these guys, right?
Here's some tethered stuff.
We supposedly go untethered.
Like, don't get me wrong.
I'm pretty skeptical of that as well.
But if you look at what they pitched to you, say 2001 A Space Odyssey style, they basically said that these things were going to be a reality with these little mini boosters on them.
They utilized them in the Gravity movie.
Here's another one of the booster packs, untethered.
Look, If you want to look at what they're telling you is the recorded history of spacewalks, I encourage you to check this article out.
Now, we're talking about human beings.
Let's just get to the moon.
Okay?
Because, supposedly, last year, and this year we were supposed to send humans to the moon again.
Another promise that never came to fruition.
No kidding.
They sent Snoopy to the moon.
No, I'm not kidding.
No, you can't make this up.
But supposedly, they did an unmanned rocket around the moon.
Okay, not landing, but around it.
We're going to get to the distance there.
This Polaris Dawn spacewalk is just under a thousand miles.
The moon, oh sorry, well that's Mars.
We'll get there in a second, is almost 250,000.
Okay, and then you got to come back.
So again, just think about the numbers that you have to meet.
Forget about the possibility of space debris, asteroid fields, encountering things you didn't know about like that invisible magnetic force.
As important as gravity, you're just figuring out that somewhere else, imagine all that.
You're circumventing that 240,000 miles.
And I want to remind people before they landed on the moon on Christmas Eve, They said they did that.
They circumvented it.
Human beings on there.
They said a prayer.
You can go watch that video as well.
We're not even going to bore you there.
Okay?
So now they're telling you Mars.
Some say 140 million.
This is 120 million when I say some.
You can see it right there.
There's 140 million miles.
Allegedly, when the movement is just right and the launch is just right, I think you can get within 40 million.
They're saying a six-month trip for a human being just to get there.
And I want to reiterate, no way of knowing how you would get back.
120 million!
Compared to the spacewalk of under a thousand miles.
Are you starting to grip that?
Are you starting to grasp the reality?
All right.
So now we're gonna have some fun, okay?
We've got NASA administrator after administrator, including their chief scientist, telling you back in 2016, about eight years ago, none of this is real.
I know that's inconvenient, but again, I wanna remind people, We've been weaponizing space since the Reagan administration through the Strategic Defense Initiative program.
We've created an information skin around the planet, also talked about at this conference in 2016, which we're going to illustrate.
And I talked about transhumanism, The metaverse, virtual reality, now you're going to see where it comes into play.
What's real?
What's science fiction?
You're going to hear about nanobots, possible biomimetics, those type of things.
That's the reality.
So let's cut to this clip right here, okay, and you're going to find out right now that You've got Charles Bolden, 2016, telling you what the first things on Mars are going to be.
And it's not human beings, okay?
You've got to be thinking 30, 40, 50 years out.
And Andy is absolutely right.
And I tell people all the time, the very first things on the surface of Mars are going to be robots.
You know, think about what we do for American forces today around the world.
We don't send soldiers, sailors, airmen and marines often into a very hot area first.
We try to get in and make the environment safe for them using robots or whatever.
But we're actually, I imagine there's going to be a fleet of robots, maybe humanoid.
They don't have to look like humans.
They're going to establish the habitat.
They're going to go in because with 3D printing, Uh, we can put a fleet of robots on the surface of Mars.
We may find, based on what we know about the radiation environment, that we want to go underground, rather than, you know, have huts on the surface and get blown away in the wind that doesn't exist.
But that was a critical part.
I tell my wife, it's a movie!
So, just so you know, the guy laughing over there that he's talking about, and we're gonna get to the woman in the middle who's from Rocketdyne.
That's the guy behind The Martian, which is, again, the holly weird perception of Mars with Matt Damon.
And Bolden's pointing out that, you know, we don't even know there's wind or an atmosphere on Mars.
We're not sending human beings to Mars, okay?
And he... Think about the fact that he talked about humanoid-type robots first.
How far away from that are we, and who's behind that as well?
Oh!
Oh, that's right, Tesla is building the Optimus robot.
And that's if we're talking about, you know, non-biomimetic robotics, which we'll get to in a moment.
Okay?
Very, very important part.
But it may be that robots dig under, you know, go subterranean and establish the habitat.
Anybody ever do, you know, Build houses for charitable reasons.
You don't go there, and there are no 2x4s on the lot.
There are prefab structures, so you get eaves and walls, and that's what we're gonna do on Mars.
But we're gonna print it, I think.
They're gonna use 3D printing.
Okay.
So now the next clip...
is going to go even further and tell you that these nanobots that they send, not just full-fledged robots, are going to be the first thing.
And they're going to survey Mars.
And then once they send back that data, then you can virtually visit Mars at any point.
Now, this is, again, an interview from 2016.
It's separate from this.
It's an audio interview.
And this person actually brings up Ray Kurzweil first.
in a transhumanist perspective.
And then he actually gets corrected by Dennis Bushnell, former chief scientist of NASA, up until like two years ago, retired a couple years ago.
He was there pre-Apollo, Gemini days.
And he says, no, this is Hans Morvick.
And I believe Lights in the Tunnel is one of his books and publications on not just transhumanism, but essentially post-humanism.
Okay.
So let's, let's play this clip.
And you were talking about robot exploration, and I'd mentioned Ray Kurzweil to you, and you'd said that he'd spoken at NASA.
And to me, the way that you described robots almost as kind of like the children of mankind really stuck with me, and it put what we're doing on Mars right now.
So Kurzweil speaking at NASA.
That's, of course.
I mean, again, there's a NASA-Google partnership.
They've claimed quantum supremacy together.
They work on artificial intelligence together.
But children of man, that's also a Morvick thing.
Get a new perspective for me.
Well, that quote, robots being the children of mankind, is actually from Hans Morvick from Carnegie Mellon.
He has various books on this.
Robot is one of them from the early 00s, as I remember.
And the idea is that we are currently becoming cyborgs at a very fast rate.
The IBM Blue Brain project, which is nanosectioning the neocortex and replicating it, Silicon
has made such good progress that they are claiming in 12 to 15 years they will be able
to market a biomimetic human level machine intelligence.
So again, this is about 2016ish, maybe a little bit later.
maybe even a little bit earlier, but I believe 2016.
So they're talking about that 2030 marker that you hear again and again and again.
The nano-functionalization of robots is continuing to pace very rapidly.
So there's no reason why in the 10, 20 year, well, 15 to 25 year out,
that exploration can't be done very well with robots at a cost which has been estimated
about 1 in 1000 that of sending humans.
So one way to do this exploration of Mars and so forth is three ways.
I mean three stages.
One is to send the nanorobots and instrument the planet and send back the data And the Brits demonstrated five senses, virtual reality, haptic taste, touch, smell, sight and sound recently.
So everyone could explore Mars anytime they wanted to at one one thousandth the cost of sending people.
So there you go.
You know, before any human being steps on Mars, the nanobots are going to survey the planet and they'll give you the virtual Mars arena.
Now, let's turn the music down here.
I want people to also understand the World Economic Forum also partners with NASA and is a very big part of this agenda.
Now, aside from creating technology, NASA tech, That can like hone in on your heartbeat, because that's as significant an individual as your facial recognition, as your finger and thumbprints.
As a surveillance tool, in another video they show you, this is them talking kind of about that virtual Mars.
Okay?
They're looking for people practice living on Mars.
You understand?
So they want to build it.
You heard about 3D printing on Mars?
Well, they want to 3D print a simulator for these people to live in.
Okay.
I mean, think about that.
This is a center out of Houston, Texas.
The module is smaller than a tennis court.
Okay.
And the circumstances it could face on Mars.
Listen, they're building this virtual idea of Mars.
The reality of sending rockets and human beings to Mars is absolutely, utterly ridiculous.
And you know, we're going to come back to what they're actually doing on space.
And I just want to say, look, I am a dork.
You know, I mean, I've got every time I pick these things up, I'm not one of those people thinks that space is fake.
No, I think there are varying degrees of misinformation, disinformation, and total and complete propaganda that were fed about space and the programs, but what they're doing there is very, very real.
And it's a multitude of things under different guises that are essentially privatized in many respects.
Now, let's start with Scott Kelly here.
Now, Scott Kelly, as you're going to see, this is not Scott, this is another individual.
We're going to pause this because we want to bring up the volume a little bit.
He was on a trip with this gentleman for almost a year, I think they were out there.
It devastates your body.
You can't even walk off the spacecraft, and they're monitoring you forever.
Okay, now, best case scenario, again, six months on the ship there, and then maybe getting back.
Physically, human beings in space is a whole separate problem that almost never gets discussed, especially in long term.
We were both involved in experiments.
To understand better how to keep people alive for longer periods of time.
And by the way, Scott Kelly's brother, Mark Kelly, I believe he's Congress, not a Senator, but he's a twin, and even NASA has done twin programs with him as well.
Okay?
Those type of experimentations.
Space.
You start doing this right when you get out of the capsule.
You know, the idea is to measure your performance right when you get out of the vehicle.
Let's say you landed on Mars.
And just so everybody understands, I just love pumping Mars.
This is in Kazakhstan, okay?
So before Musk started launching astronauts back up into the ISS, Kazakhstan in this program with, of course, Russia, because ISS is International Space Station, that's where the vast majority of this stuff was being launched out of.
You try to understand what your physical capability is.
You walk with your eyes closed, like foot to foot, which is hard even when you haven't been in space for a year, especially on this uneven ground in Kazakhstan.
You get on an airplane, and the airplane flies to Norway, and you do it there.
And then it gets back to Houston, and you do them here again before you even get to go home.
You're doing these tests for weeks.
When do I do this again?
Uh, Wednesday.
What?
Like in two days, Wednesday?
Yes.
Eventually.
So, there you see it.
Again, it takes a while for you to regain your strength.
Your muscle tissue degrades.
Your bone tissue.
Alright?
Space is a very dangerous place.
So, I want to also show you don't just launch rockets whenever you want, if you've got the actual rockets to launch.
And by the way, I want to put this out there.
I have no idea what's going on in black projects with propulsion systems.
We are going to show you some ion propulsion systems, et cetera, some mini jet stuff that doesn't get talked about, but is a reality.
Who knows where we've actually been?
Okay.
Human beings, very far, I'm extremely skeptical of.
Propulsion system-wise, with just rockets, I'm extremely skeptical of that as well.
But, I do believe we have other types of technology that of course would have to be classified, not just because of space exploration, but their weapons potential and use.
That, again, just reality.
So, let's talk about the ISS.
And the fact that you now have people stuck up there possibly till February, they've already been stuck up there months, and they keep easing the situation.
This is a report from a month ago.
Now on day 63 of what was supposed to be a 10-day mission, NASA today said astronauts Butch Wilmore and Sonny Williams may remain in space until February.
Butch and Sonny would remain on station and become part of that increment.
Crew 9 is a SpaceX mission to the station set to launch in late September, returning next year.
For months, NASA has insisted Wilmore and Williams are not stuck in space.
Years behind schedule, Boeing's troubled Starliner launched on a test flight in early June.
But Starliner has remained docked to the space station, with mission managers divided over whether it's safe to bring Wilmore and Williams home.
And by the way, that's another thing people have to understand about Boeing.
They're a large military industrial complex contractor for this type of work.
And SpaceX actually surpassed them.
And another part of this agenda, you know, we often talk about that 2030 agenda of restricting your access to travel to geographical areas.
Well, they want to revamp the entire flying industry, airports, et cetera, and automate them further.
And I think that they've been using demonized, or I'm sorry, Boeing, to demonize that situation.
I'm not saying they're a good company, but look at this as well.
They're falling apart.
So they're passing the torch.
to other types of really techno-fascistic normalities.
And not only SpaceX, but Blue Origin, which is Bezos' outfit.
Alright?
So, again, we'll even see if these guys get back in February and what their condition is gonna be up.
They're supposed to be there for 10 days, they've been there for months now.
Alright.
So what are some of the technologies that they are utilizing?
Well, let's start with this one.
What do we want to start?
I want to start with the ion propulsion system and 3D printing rockets, right?
We've talked a lot of 3D printing, so let's move on to that right there.
You know, things like solar electric propulsion, another thing I like saying.
So blow our hair back, give us a sense of what you guys are working on, you know, that's really cool and how it fits into all this.
You know, we're working on, like you said, we support government, we support commercial, and we do primarily propulsion, which is engines, big engines, motors, those type of things, as well as power.
The key things, you know, neat things we're working on today, we're doing ion propulsion, which is a form of electric propulsion.
It reduces the mass.
We talk about bringing, you know, bringing the cost down.
Everything we throw off the planet now has to go on a rocket that costs quite a bit of money.
So the smaller you can make it, the cheaper it gets.
So we have solar electric propulsion that we'll be putting on these next missions.
We're working the technology on NASA contracts and internal.
And by the way, this also works into small cube satellites.
This woman is from Rocketdyne.
All right.
And right here is where she's going to move into those 3D printed rockets and also talk about, again, a lot of rocket technology is still classified.
And it'll half or one-tenth the size, depending on how we do that.
So that's one thing.
And it looks just like you see the blue glow from the old Star Trek.
It looks just like that.
And it is like that.
So we're printing rockets now.
We're doing 3D printing of whole rockets.
And a number of people are doing it.
And the hard thing about that.
So does that mean I can illegally download a rocket?
You know, rocket technology is still protected, right?
No, but it gets to that.
You get a model and you can do that.
The really big ones you can't do yet, but you can certainly do the smaller ones.
Again, this is eight years ago, and they're talking about printing in one piece, smaller rockets.
And you know what the bigger ones look like?
I mean, take a look at what is on the bottom of one of these launch vessels via SpaceX.
They're massive.
We talk about the small sats.
We can actually print a whole CubeSat propulsion system in one pass.
And those are things that, you know, bring down not just the cost of the product, they're more efficient, they bring down time, and all of this just continues to feel the cycle like as George was saying it.
So it's really a transformative time.
We're building off the things that we've put in place for the last few decades, but now we can actually take them that next step.
And they are taking that next step because it's not just these type of 3D printing technologies we're hearing about.
You heard about space?
Well, how about 3D printing human organs in space?
That's another big part.
This is why we're talking transhumanism.
We're going to get into biomimetics and other type of technologies, hydrogels as well.
But before we go to break, here you go.
Let's 3D print some organs over on the ISS.
Welcome back.
A Florida company is making history this weekend, launching the first 3D bioprinter into space.
Redwire will attempt to 3D print a human knee meniscus.
This is all part of creating a way to 3D print replacement organs.
So why space?
Well, it's because you can print the organs with gravity turned off so the organs do not collapse.
Joining us now is Rich Bolling.
Thank you so much for being here.
We really appreciate it.
It's great to be with you this morning on the eve of what we hope is a pretty important launch.
Oh, absolutely.
So this project combines science, medicine, and technology.
Can you tell us a little more about it so our viewers get a sense of what it is?
Everyone is just so happy about this.
I'll tell you what it is.
It is them doing this.
And I had Greg Autry, who authored the book Red Moon Rising, with Peter Navarro talking about this technology.
And also Hydrogel is very excited.
When you're printing on Earth, because of gravity, everything wants to be stacked, right?
It wants to be hard.
There is no gravity.
So, the way our organs often work, it is in a 3D manner where they're not necessarily on top of each other, and that technology allows this to be a better version, possibly, because we really don't know, and we don't really know, If a general public is going to be able to partake in these technologies.
I can tell you this, you can partake in InfoWarsStore.com.
Go get the great products, the books, the videos and beyond.
This is the Alex Jones Show and we'll be back with more after this.
We are back.
It is the Alex Jones Show.
I am Jason Bermas, and we are talking about the realities regarding space travel, experimentation, NASA, SpaceX, et cetera, and beyond.
Because they've really partnered together a long time ago, and we're going to show you some clips of that as well.
But I promised you hydrogels, so you are going to get hydrogels.
Now, At least in the, I would say, alternative media arena, a lot of people began to question the hydrogel technology during the COVID-1984 nightmare because they began to realize with mRNA and other bio-nano technologies, there were certain types of distribution systems that they were already looking into.
Well, guess what?
NASA, a very large part of those types of technologies and distribution systems.
Meet Elaine, one of the co-founders of Tympanogen, a medical device startup based in Virginia.
Her company is developing a gel patch that can serve as a replacement for eardrum repair surgery.
That could have huge benefits here on earth, but launch that gel to space and the opportunities for use grow even more.
First, we have to back up a few steps.
Putting your life's work on top of a rocket may seem like a daunting task, but there's a system in place to help scientists who know nothing about spaceflight get their research into orbit.
You see, NASA and its international partners aren't the only source of science aboard the space station.
The ISS U.S.
National Laboratory creates pathways to space for companies, universities, and even young students.
So again, when you talk about the Companies, especially, and the universities.
These are the same systems that you saw in play, and I'm going to make this comparison, with things like MKUltra.
Okay?
Just different avenues and methods of medicine command control technology.
Just pointing that out.
If you're starting a journey into the unknown, it helps to have an expert at your side to navigate the way.
The National Lab connects researchers with implementation partners who provide resources and guidance for taking an experiment from Earth to microgravity.
Elaine and her team are working with NanoRacks.
They have the plate reader on the space station that's going to be used for our project and they're coordinating the launch and getting all the materials together for us.
We're glad that we're working with them because we're glad that somebody has done this before and can help us along with the process.
And I'm just going to say this, you know, again, I watch a lot of the old school stuff and I watch a lot of the new school stuff.
In fact, NASA had its own television network.
They've, I think, moved it all the way online.
When you go there, it tells you to go to this URL, but you notice the young, attractive women.
You're seeing that all over in NASA.
It's a rebranding of everything along with these same SDGs and the climate agenda,
which these guys are a huge part of as well.
So we're gonna get into that in a moment, but I wanna talk about this really quickly.
And this is them using auto bioluminescent nanotechnology.
And again, I just wanna throw a little something out there from the COVID 1984 nightmare.
Remember that whole thing Lucifer race where they had this bioluminescence in some of these hate and lies shots just I know conspiracy theories look into it it was admitted and by the way the amount put in there a little bit sketchy but when you're talking about genetically modified organisms and bioluminescence it's been going on publicly for decades in fact on this very network
2008-2009 I was talking about the bioluminescent pigs that they had genetically created.
They had infused them with a type of jellyfish DNA and that literally made them glow in the dark and be neon pigs.
Okay?
So here we are again when I talk about these companies.
They're in it to win it, and they're utilizing that technology on the ISS.
Bioluminescence itself has been around for a very, very long time.
Our technology, which we call auto-bioluminescence, that allows cells to basically talk to us and tell us about their level of health.
So when they're happy and healthy, they make a ton of light.
And when they start to get sick, that light gets dim.
People like drug development companies, academic researchers, scientists across the world spend lots of money and they use lots of crazy different materials in order to encourage cells to grow in three-dimensional structures.
The International Space Station allows cells to do this with no external materials required.
We want to be able to demonstrate that we can use microgravity to improve drug development.
Think about that.
490 biotech.
And all this stuff is dated.
None of this is brand new.
So now I want to talk about satellite networks that they launched.
Now, number one, let's start with the balloon satellites, which are under low Earth orbit that nobody really talks about.
And in more than More than likely that these were NASA satellites, part of an international program to circumvent the Arctic region, where communications are much tougher.
That's what Seymour Hersh said when Chinese spy satellites.
No, I think that they're putting more and more of these things up and because of that inhuman error a few of them got out of their control system where the public arena is not supposed to see them but right here we're going to show you okay and it's a little bit blocked on that one let's see if we can get it there but these satellite systems
are often put up by balloons.
This is NASA launch.
It's on their own website.
They've got a ton of them.
They have to bring them in via a truck.
You can't see it there.
Here, let's do this.
See if we can't do a little dick-a-dick-a-do.
Kind of see it on the bottom.
You're gonna see it in a moment.
There you go.
There's a nice little shot of it.
Okay, there's human beings and there's the satellite.
And remember the last one was like as large as a bus.
Okay, so that is part of the Weather Balloon Satellite Network, okay?
There's a lot more going on than just that.
First, we're gonna go back to that 2016 forum and we're gonna talk about partnerships and NASA versus SpaceX.
I got news for you, it's a big joke and they're all the same thing and they're still promoting this Mars thing because they know it's what the public wants to hear.
When you stood up those programs, they're now flying to Leo, which is low Earth orbit, just to the International Space Station, about 250 miles or so above the Earth.
But, you know, these entrepreneurs, they think big.
You know, Elon Musk and Richard Branson.
And, you know, Elon's talking about going to Mars.
I wonder, does that put him in competition with NASA?
Explain to me.
Again, a partnership.
It is not a competition at all.
And I think most people in the audience are quite aware that we recently or
space, SpaceX recently announced that they were entering into a partnership
with us for what they call the red dragon.
Um, you know what he's looking at again, a partnership.
It's a partnership that we want.
We look at them coming back and landing on a barge or coming back to the Cape and landing on a mat somewhere.
That's what we call hypersonic or supersonic retro propulsion.
We are not doing that right now.
We're not investing in that, but we don't need to.
And by the way, that's landing rockets, which are not very successful at, which you would need, obviously, to send human beings, not just to Mars, but land a rocket on a mass and then come back.
Just pointing that out.
Now, I want to just before I show you the historic references to a global information network which is being created and really it's already being utilized folks.
They already have the global information network and part of that is this and that is the DARPA Blackjack program.
Okay.
That continues to be funded.
They've tried to marginalize it.
It gets launched via SpaceX satellites when they launch what?
Oh!
When they launch... Sorry, that's a different one.
We're going to get into this one right here.
When they launch Starlink, which just got its contract extended for six months in June.
And the reason that I had Russia up here is because when he's talking about being in war with NATO in the United States, you know what he mentioned?
Their satellite systems.
Their satellite systems.
Because they're hooking into the Ghost and the Sidewinder drones.
Do you understand how dangerous that is?
These satellite systems that are now also being built with Northrop Grumman and Elon Musk, it's out in the open that they're building this spy satellite network, some of which is commercialized, some of which is highly classified, some of which is an extension of that Star Wars program, aka the Strategic Defense Initiative that was launched all the way back in 1983.
40 plus years ago.
40 plus years ago.
Now, here you will have a representative from NASA explaining to you this global information network.
Through ISS has been sort of seeding the small sat market.
But you can't launch into all the different orbits from ISS.
And so what we'll be able to do with our vehicle launcher one is to put Which we've seen.
satellites into other orbits.
But I think what's interesting is that the US is now leading a new area,
which is the small satellite sector.
And, you know, we're going to see tremendous growth.
The geostationary, the number of geostationary satellites getting launched
into orbit isn't really growing right now, but you're going to see this huge growth
in small satellite constellations over the coming years, which we've seen.
Again, this is eight years ago.
All right?
And they're constantly launching these things.
This is the reality of the space program.
Okay?
They will establish, essentially, a new information skin for planet Earth that, you know, helps us with navigation and communication and weather and remote sensing.
Now, with the weather and the remote sensing stuff, again, because, where are we here?
Because I actually watched this, okay?
And anybody can get their hands on it, Space Race.
In the late 70s, early 80s, all of a sudden, NASA is very, very involved in what will become the Green Movement.
It still is.
It does a ton of surveillance, not just in the United States and the Arctic region, but globally, period.
In fact, With renewables in particular, they talked about the solar propulsion systems, but they were the ones that pioneered using those massive windmills as well.
Anybody can look at NASA and their promotion of quote-unquote global warming and climate change, and they are at the apex of that.
Now, what do they want to do in response to, oh, humans are bad?
They want to regulate everything.
Everything.
And they think that they can literally technologically micromanage all of the species on the earth through a thing that they call directed evolution.
Okay?
But I'm gonna let him finish up on this information skin on the planet, which we're gonna back it up.
Think about this.
He says it's a slow pace then, and around 2016 it was.
Okay, but more and more over the last five years, you've been normalized on a string of pearls in the sky.
The U.S.
is now leading a new area, which is the small satellite sector, and we're going to see tremendous growth.
The number of geostationary satellites getting launched into orbit isn't really growing right now, but you're going to see this huge growth in small satellite constellations over the coming years that will establish, essentially, a new information skin for planet Earth.
that helps us with navigation and communication and weather and remote sensing.
And I think it'll be eventually sort of a permanent new skin around the planet.
And a lot of that is being catalyzed by the work that was done inside NASA labs
and now inside the National Lab at ISS.
So, here they just briefly discuss different types of micro propulsion systems.
Again, if you're thinking that rockets in the state they are,
are taking us these exponential levels, exponential levels.
I mean, take a look.
Just every time I see it, it's ridiculous.
The moon, a quarter million.
We're going to show you some of Polaris Dawn in a moment and this spacewalk.
Almost a quarter million away and we're talking Instead of that, 121 million to 140 million is Mars.
Does it make any sense?
No.
No.
Instead, what?
We're talking about the weaponization of space.
And Putin's really openly talking about those satellite systems.
This should scare everybody.
If you don't think that this is going to be a part of World War III, I don't know what you're watching.
So here are the microjet propulsion systems.
These hundreds and thousands of small sets or CubeSats is their free flyers.
They don't have propulsion systems today.
Julie and other propulsion companies are working on micro jets.
They're micro rockets.
So in a CubeSat that has the brains from Andy's telephone and a camera that came out of his telephone, it's going to have a little micro jet from Julie's company.
And they're going to be able to maneuver around, but most importantly, they're going to be able to comply with the law that says when you put a vehicle in space, it's got to be able to be controlled for a controlled re-entry where it will not harm anybody on the ground.
And we're going to be able to do that.
But again, the idea any of these things are going to harm you on the ground is also pretty ludicrous.
Even Musk has pointed out that there are so few people on the planet that we do have things Falling from space all the time whether it be debris we created or natural debris They I mean it is it's much less than being hit by light lightning folks.
So let's let's show some of this Turn it on down and and you know, I'm gonna skip around here You get to decide for yourself.
Some of this is the helmet cam now.
I have no doubt that these people are in space here Let's bring that one back.
So you see as he comes out the question is is How far out there are they?
I have no way of telling you that.
I don't know if that's 100 miles above the planet, 200 miles, 400 miles, 500 miles, no clue.
They're saying, again, the largest one since Apollo, 900 miles, not even 1,000, not even 1,000.
Again, largest one since Apollo, 900 miles, not even a thousand.
Not even a thousand.
Look, they lost some communications.
Here's the side shot.
Now, a lot of people were upset that they didn't get all the way out of the craft.
I could care less.
Again, when I see the history of Spacewalk from the BBC, and I see things like this, they're highly questionable to me.
And hey, maybe that's real.
Untethered in space, I'd be a little bit worried.
You know, allegedly you're moving and grooving out there, even though you don't feel it because you're in a vacuum.
But I've watched enough 2001 Space Odyssey when Hal, the AI intelligence controlling the spaceship, and by the way, that's another thing we didn't even really talk about, is that Space travel now, at least in these rockets that they're showing you, I mean, this is a commercial crew.
They're not trained by NASA.
Apparently, this one guy is funding a ton of it.
One of the astronauts you're seeing come out here.
He's actually paying for it, okay?
And, you know, I'm not sure what, you watch his hands and all this thing.
There's plenty of people that believe that none of this is really happening.
I have no idea.
I think they're in space.
It should be a big story though.
Again, the two women on there that again are commercialized.
And that's the thing.
It's about a feel-good story.
And it's about the Today Show.
And it's about not projecting the things that we all just saw here.
And the realities of people internally and what they've said in NASA, but that we can live the dream and we're going to Mars as human beings.
We're going to colonize Mars.
You know, let's watch that today's show talking about the Polaris crew coming out.
And this morning, an exciting new milestone in space travel.
Earlier this week, the nation cheered the successful voyage of the Polaris Dawn.
It's the first all-civilian team to complete a spacewalk.
We are incredibly delighted to have them right here on our couch, right next to us.
We're going to talk to them in just a moment, but first a closer look at their history.
And they're all a civilian team.
And by the way, the guy with his arms crossed that doesn't seem to be so thrilled to be there, uh, he's the dude.
He's the guy who's supposedly spending all this money and very much apart.
Everybody else got the big smile on him.
He's kind of got like the, yeah, I don't know.
Stream making space odyssey.
That's awesome.
In the five days between launch and splashdown.
The four Polaris crew members made their mark on history, reaching an orbit 870 miles above Earth.
And you know, that's the other thing about these rockets.
It's just crazy to me.
Listen, there's a time and a place for touchscreens.
And again, We've shown you those all the way back to 2001 A Space Odyssey and I often make the argument you watch 2001 A Space Odyssey which comes out I believe in 68 before the moon landing and it really preps not only the United States populace but the global populace as to what to believe via space travel and what it's actually like and how it can be portrayed.
And to Kubrick's credit, that movie stands up today, but when you really take a look at it, and you take a look at those scenes in the deep, dark bowels of space with no sound and slow movements, yes, there's an artistic feel, but it also kind of gives you the idea of the lunacy of the idea of that type of travel that is so extensive.
Pointing that out.
SpaceX astronaut Sarah Gillis and Anna Menon flew further in space than any women in history.
The Dragon capsule flying higher than anyone since the last Apollo flights to the moon more than 50 years ago.
And you know again...
Talking about those flights, when I was talking about the touchscreens, they had all these physical buttons.
And I don't know how far Apollo actually went with rockets, but I can only tell you that I remain extremely skeptical of the whole scenario.
Okay?
Please take us closer to fulfilling SpaceX's dream of making life multi-planetary.
With Scott Poteet serving as the mission pilot, the crew also conducting some 40 research experiments and testing new spacesuits in the first ever all-civilian spacewalk.
And again, those suits look a lot more like something you'd see in 2001, A Space Odyssey, than anything else.
As far as the experimentation, obviously they don't have the ISS labs there, but I have to wonder if some of those are, if they're that much higher up, right?
We're talking about way higher up.
You're not taking some of those projects that have been worked on on the ISS and sending them up there as well.
If, again, they're 900 miles in space, which would only be about, I don't know, 237,000 plus miles away from the moon.
Let alone 120-140 million miles away from Mars.
A high-risk operation that required the crew to open the entire capsule, exposing all four of the members to the vacuum of space.
Billionaire entrepreneur Jared Isaacman and SpaceX engineer Sarah Gillis venturing outside the capsule.
Stay firm, we have visual on the nose cone.
The crew says the mission brought back valuable information about the challenges of future manned missions.
I mean, take a look at that.
Take a look at that.
I'm just, again, I get it.
We're in the information age.
We've had the iPad for a while.
I can see the value of touchscreens.
But when you look at the mechanical buttons on the bottom, boy, that's just seems a little dangerous.
But what do I know?
I'm not a rocket engineer.
I'm just A kooky conspiracy theorist to most folks.
We got a couple minutes left in the broadcast.
I would encourage people to do their own research to go check everything out.
Not just believe not only the conspiracy videos, but the mainstream stuff out there.
I didn't really even delve into that.
Well, it was a Transformers conference.
The vast majority of that that you saw with NASA?
Well, the thing is that that Transformers conference also had somebody involved in 3D printing, transhumanism, and transgenderism.
That would be Martine Rothblatt.
And if you're unaware of Martine Rothblatt, when we're talking about transhumanism, space, satellites, that's somebody you should know.
Martine Rothblatt, formerly Martin Rothblatt, was the founder of Sirius XM, was very involved in satellite radio and its institution around the world, is very involved in transhumanism and is very involved in the transgender movement that has infiltrated your school systems and our culture on a level most can't imagine because it really is about being from transgender to transhuman.
Aka that book and unzip jeans.
Do I have unzip jeans right here?
Oh, there it is.
Look at that.
Also wrote, unzipped jeans, taking charge of baby making in the new millennium.
I am Jason Bermas.
You can check me out at X at Jason Bermas.
That's B-E-R-M-A-S.
I'm on every single platform.
I'm also live on patriot.tv five days a week, 5 p.m.
Eastern with my show, Making Sense of the Madness.
I want to let everybody know that it's not about left or right to this guy.
It's always about Right and wrong, and you can do the right thing right now by going to Infowarsstore.com, supporting this broadcast, supporting Alex Jones, getting the supplements, getting the products, getting the books, getting the videos, but most importantly, not just sitting on your hands, not looking to others, looking in the mirror, deciding to take action today, be your own hero, do your own research,
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We'll see you on the flip side.
Hey everybody, Jason Bermas here.
And as you may have heard, unfortunately, TNT, today's news talk, is no longer going to be with us.
Now, I want this to be a stark reminder on how fragile the ecosystem of true independent media is.
Now, obviously I loved doing that show two hours a day, five days a week, but there is a silver lining to this.
I am going to be doing more and more independent videos outside of just my patriot.tv show, making sense of the madness.
And we're going to be bringing back the shorter format And some really interesting live streaming interviews.
So your support is totally going to be necessary in order to drive this forward, despite the censorship fiesta that we are seeing across really all platforms.
So I want to thank all of you out there that have stuck it through many, many years.
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