Jason Jorjani
๐ค SpeakerAppearances Over Time
Podcast Appearances
It has two. Two moons. Saturn and Jupiter have a bunch. Right. And, you know, the other thing about these moons are they're all weird shaped. They look like deformed potatoes, you know, a lot of them. They're not beautiful spherical objects like ours is. But there is another interesting thing. And that's the mass cons.
So there are these โ you know, the moon has a lower gravity than Earth generally, right? Remember the golf ball thing? Yep. So โ and the Apollo astronauts.
So there are these โ you know, the moon has a lower gravity than Earth generally, right? Remember the golf ball thing? Yep. So โ and the Apollo astronauts.
So there are these โ you know, the moon has a lower gravity than Earth generally, right? Remember the golf ball thing? Yep. So โ and the Apollo astronauts.
We'll get to them too, the Apollo astronauts. Hopping around, you know, in the lower โ but there are places on the moon where there's a much stronger gravity. There's Earth-like gravity or stronger than Earth-like gravity. And it's actually a problem for navigation because when they pass satellites over, they can't fly too low because โ the craft will be pulled by these gravity wells.
We'll get to them too, the Apollo astronauts. Hopping around, you know, in the lower โ but there are places on the moon where there's a much stronger gravity. There's Earth-like gravity or stronger than Earth-like gravity. And it's actually a problem for navigation because when they pass satellites over, they can't fly too low because โ the craft will be pulled by these gravity wells.
We'll get to them too, the Apollo astronauts. Hopping around, you know, in the lower โ but there are places on the moon where there's a much stronger gravity. There's Earth-like gravity or stronger than Earth-like gravity. And it's actually a problem for navigation because when they pass satellites over, they can't fly too low because โ the craft will be pulled by these gravity wells.
There are places on the moon, they call them mass cons, mass concentrations, where the gravity deviates from the standard on the moon. And guess what? They're all perfectly circular. So one thing I hypothesized in Closer Encounters was that if this thing is a space station, it's possible that they built saucers into the surface of it
There are places on the moon, they call them mass cons, mass concentrations, where the gravity deviates from the standard on the moon. And guess what? They're all perfectly circular. So one thing I hypothesized in Closer Encounters was that if this thing is a space station, it's possible that they built saucers into the surface of it
There are places on the moon, they call them mass cons, mass concentrations, where the gravity deviates from the standard on the moon. And guess what? They're all perfectly circular. So one thing I hypothesized in Closer Encounters was that if this thing is a space station, it's possible that they built saucers into the surface of it
Yeah, they have to compensate for those when they fly anything around the moon. Anyway, look, here's the thing.
Yeah, they have to compensate for those when they fly anything around the moon. Anyway, look, here's the thing.
Yeah, they have to compensate for those when they fly anything around the moon. Anyway, look, here's the thing.
So... We can't be just letting George Johnny fly by the seat of his pants here. One possibility is that when they built the space station... They built saucers into the surface of it. Remember, all the Mascons are circular. A saucer is going to have a zero-point energy drive generating a local- A flying saucer? Yeah, a flying saucer is going to have a local gravitational field.
So... We can't be just letting George Johnny fly by the seat of his pants here. One possibility is that when they built the space station... They built saucers into the surface of it. Remember, all the Mascons are circular. A saucer is going to have a zero-point energy drive generating a local- A flying saucer? Yeah, a flying saucer is going to have a local gravitational field.
So... We can't be just letting George Johnny fly by the seat of his pants here. One possibility is that when they built the space station... They built saucers into the surface of it. Remember, all the Mascons are circular. A saucer is going to have a zero-point energy drive generating a local- A flying saucer? Yeah, a flying saucer is going to have a local gravitational field.
And if there's people in the saucer, it's 1G, which is greater gravity than the rest of the moon. So one possibility is that what these Mascons are, are saucers embedded in the space station underneath the regolith as a potential evacuation protocol. Suppose there's a danger, like some giant asteroid is coming that might hit the Earth or it might hit the moon.
And if there's people in the saucer, it's 1G, which is greater gravity than the rest of the moon. So one possibility is that what these Mascons are, are saucers embedded in the space station underneath the regolith as a potential evacuation protocol. Suppose there's a danger, like some giant asteroid is coming that might hit the Earth or it might hit the moon.
And if there's people in the saucer, it's 1G, which is greater gravity than the rest of the moon. So one possibility is that what these Mascons are, are saucers embedded in the space station underneath the regolith as a potential evacuation protocol. Suppose there's a danger, like some giant asteroid is coming that might hit the Earth or it might hit the moon.
And they need to evacuate the station, right? Well, these saucers could just peel off the surface. So that's one possibility of what these Mascons are. It are, you know, saucers with zero point energy drives running embedded into the surface of the object.