Jason Jorjani
๐ค SpeakerAppearances Over Time
Podcast Appearances
There wasn't any. We didn't have seasons. That's a product of the moon. The equinox is only because of the moon. This 23-degree deviation that we have between our equator and the celestial equator that produces the equinoxes and the solstices is a function of the moon.
There wasn't any. We didn't have seasons. That's a product of the moon. The equinox is only because of the moon. This 23-degree deviation that we have between our equator and the celestial equator that produces the equinoxes and the solstices is a function of the moon.
There wasn't any. We didn't have seasons. That's a product of the moon. The equinox is only because of the moon. This 23-degree deviation that we have between our equator and the celestial equator that produces the equinoxes and the solstices is a function of the moon.
So first of all, there's the extremely bizarre ratio that you just mentioned, right? Where this 1 400th size of the sun, 1 400th distance from the sun. And that's what produces these eclipses. Then there's an incredible stability of the orbit of the moon. Then as we mentioned, these craters don't make any sense, right? These craters don't make any sense.
So first of all, there's the extremely bizarre ratio that you just mentioned, right? Where this 1 400th size of the sun, 1 400th distance from the sun. And that's what produces these eclipses. Then there's an incredible stability of the orbit of the moon. Then as we mentioned, these craters don't make any sense, right? These craters don't make any sense.
So first of all, there's the extremely bizarre ratio that you just mentioned, right? Where this 1 400th size of the sun, 1 400th distance from the sun. And that's what produces these eclipses. Then there's an incredible stability of the orbit of the moon. Then as we mentioned, these craters don't make any sense, right? These craters don't make any sense.
And the basin of them seems like it's revealing a shell of some kind, a spherical shell. Then there's the impact tests, right? Right? The Apollo 12 and Apollo 13, where the moon on a seismograph registered like a hollow object. And by the way, there's no moon that's a hollow object.
And the basin of them seems like it's revealing a shell of some kind, a spherical shell. Then there's the impact tests, right? Right? The Apollo 12 and Apollo 13, where the moon on a seismograph registered like a hollow object. And by the way, there's no moon that's a hollow object.
And the basin of them seems like it's revealing a shell of some kind, a spherical shell. Then there's the impact tests, right? Right? The Apollo 12 and Apollo 13, where the moon on a seismograph registered like a hollow object. And by the way, there's no moon that's a hollow object.
Back before Carl Sagan became such a skeptic, he even commented on this and said that it's terrifying because no natural satellite is hollow.
Back before Carl Sagan became such a skeptic, he even commented on this and said that it's terrifying because no natural satellite is hollow.
Back before Carl Sagan became such a skeptic, he even commented on this and said that it's terrifying because no natural satellite is hollow.
How do we know? It's just not what moons are. Moons are like... You know, they're like rocky bodies that are trapped by a planet and they're rocky all the way through.
How do we know? It's just not what moons are. Moons are like... You know, they're like rocky bodies that are trapped by a planet and they're rocky all the way through.
How do we know? It's just not what moons are. Moons are like... You know, they're like rocky bodies that are trapped by a planet and they're rocky all the way through.
Yeah. We have detailed, like for example, Phobos and the moons of Mars, we have detailed images of them.
Yeah. We have detailed, like for example, Phobos and the moons of Mars, we have detailed images of them.
Yeah. We have detailed, like for example, Phobos and the moons of Mars, we have detailed images of them.
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.
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.