Tristan Scott

The Earth's magnetic pole is currently drifting at a speed of 31 to 37 miles per year. Wow. So who is this according to? Hit show more. This is Google AI. It used to be six and now it's 30. That's frightening. Oh, wow. From 9 to 37? So this is why Elon's trying to get us to Mars?

The Earth's magnetic pole is currently drifting at a speed of 31 to 37 miles per year. Wow. So who is this according to? Hit show more. This is Google AI. It used to be six and now it's 30. That's frightening. Oh, wow. From 9 to 37? So this is why Elon's trying to get us to Mars?

The Earth's magnetic pole is currently drifting at a speed of 31 to 37 miles per year. Wow. So who is this according to? Hit show more. This is Google AI. It used to be six and now it's 30. That's frightening. Oh, wow. From 9 to 37? So this is why Elon's trying to get us to Mars?

I would be concerned. I didn't know it was that. That's insane. That means the compasses aren't going to work very soon.

I would be concerned. I didn't know it was that. That's insane. That means the compasses aren't going to work very soon.

I would be concerned. I didn't know it was that. That's insane. That means the compasses aren't going to work very soon.

Right. Like, soon. In 100 years, it's going to be halfway there? I guess. That's wild. In less than 100 years, we'll be more than halfway flipped. That's pretty cool. At one point, the idea is that it goes, and then it just, like, the ice cap gets so heavy, it just... Yeah, it just, like...

Right. Like, soon. In 100 years, it's going to be halfway there? I guess. That's wild. In less than 100 years, we'll be more than halfway flipped. That's pretty cool. At one point, the idea is that it goes, and then it just, like, the ice cap gets so heavy, it just... Yeah, it just, like...

Right. Like, soon. In 100 years, it's going to be halfway there? I guess. That's wild. In less than 100 years, we'll be more than halfway flipped. That's pretty cool. At one point, the idea is that it goes, and then it just, like, the ice cap gets so heavy, it just... Yeah, it just, like...

That could be a chaotic.

That could be a chaotic.

That could be a chaotic.

And how are we going to get to Mars, bro? How are we going to get to the moon? How are we going to get to the Van Allen radiation belt?

And how are we going to get to Mars, bro? How are we going to get to the moon? How are we going to get to the Van Allen radiation belt?

And how are we going to get to Mars, bro? How are we going to get to the moon? How are we going to get to the Van Allen radiation belt?

But that is another example of like why our electromagnetic environment is so important. People, they go up there, they get osteoporosis, they get all these chronic diseases.

But that is another example of like why our electromagnetic environment is so important. People, they go up there, they get osteoporosis, they get all these chronic diseases.

But that is another example of like why our electromagnetic environment is so important. People, they go up there, they get osteoporosis, they get all these chronic diseases.

What's that thing called that he was, that Jack was speaking about, the pregnenolone steel syndrome. So all the astronauts had to, they all came back with like virtually no testosterone.

What's that thing called that he was, that Jack was speaking about, the pregnenolone steel syndrome. So all the astronauts had to, they all came back with like virtually no testosterone.