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  • Narrator: If you want to get to the opposite end

  • of the world, it's a hike. About 20,000 kilometers.

  • But what if you didn't have to travel across the surface?

  • What if you could dig straight through to the other side?

  • If you're trying to dig to China from the US,

  • there's something you should know first.

  • The opposite point on the planet isn't in China.

  • It's somewhere in the middle of the Indian Ocean.

  • So, to get to China,

  • you should start digging in either Argentina or Chile.

  • Your first challenge would be

  • digging through the Earth's crust.

  • It's the thinnest of Earth's three main layers,

  • yet humans have never drilled all the way through it.

  • As you descend, you'd soon reach the depth

  • of the Paris Catacombs, the deepest metro station,

  • and the devil worm,

  • the deepest animal we've ever discovered underground.

  • Then, it would start to get hot.

  • At 4,000 meters down, you'd pass the deepest mine

  • on the planet, which is cooled with ice

  • to make workers comfortable, because, down here,

  • temperatures are 60 degrees Celsius.

  • By 8,800 meters, you'll be as deep as Mt. Everest is tall,

  • but it's still not the deepest point humans have ever dug.

  • That point is at the bottom of the Kola Superdeep Borehole,

  • at 12,260 meters below the surface.

  • Down here, there's 4,000 times more pressure

  • than at sea level,

  • and temperatures push 180 degrees Celsius,

  • so you'd need a lot of insulation

  • to carry on and keep from melting.

  • At around 40,000 meters, you'd reach Earth's second

  • and largest layer, the mantle,

  • which makes up a whopping 84% of the planet's volume.

  • Near the border,

  • temperatures climb to around 1,000 degrees Celsius,

  • hot enough to melt many metals,

  • like silver, but not a steel drill.

  • And good thing because you'll need it

  • to drill through the first part of the mantle,

  • which is made of solid rock,

  • until you reach 100,000 meters, that is,

  • when you might need to switch to a propeller.

  • Here, the pressure and temperature are so high that,

  • in some places, rock takes on a caramel-like consistency.

  • In fact, it's this rock that ultimately erupts

  • from volcanoes on the surface.

  • At 150,000 meters, keep your eyes peeled for diamonds.

  • They form when heat

  • and pressure restructure the carbon atoms in this region.

  • Once you reach 410,000 meters, the rock is solid again,

  • so it's back to the drill.

  • You see, while it's still plenty hot

  • at this depth to melt rock,

  • the pressure is so extreme that the molecules

  • inside literally can't move into a liquid state.

  • Then, by 3 million meters down,

  • you'd reach Earth's third layer, the outer core.

  • Unlike Earth's crust and mantle,

  • the core is made of iron and nickel.

  • Temperatures here are the same as the surface of the sun,

  • hot enough to melt all that metal,

  • so, yep, back to the propeller.

  • And it would have to be made

  • out of some kind of supermaterial,

  • because no known element has a melting point

  • above 6,000 degrees Celsius.

  • Making matters worse, the outer core also has low gravity,

  • because, when you're that deep,

  • much of the planet's mass is now above you,

  • which produces a gravitational force

  • that pulls away from the center.

  • So to continue,

  • you'd need a super heat- and pressure-proof submarine

  • that moves like rockets in space

  • by shooting fuel out the back end.

  • You'd soon arrive at the inner core,

  • around 5 million meters below the surface.

  • The inner core is one giant sphere of solid iron,

  • so it would definitely be challenging to get through.

  • But if you did find a way,

  • you'd soon hit the halfway point,

  • about 6.4 million meters down,

  • also known as the center of the Earth.

  • Now, there's nearly the same amount of mass all around you,

  • pulling you equally in all directions,

  • so there's zero gravity here.

  • And now is when the trip really gets hard. The second half.

  • Because as you dig past the inner core,

  • you'd soon feel the pull of gravity again.

  • And this time, it'd be pulling you from above,

  • where the majority of Earth's mass is now.

  • So while you might be digging down,

  • relative to where you started,

  • it'll feel like you're climbing up.

  • And if you didn't have those handy rockets propelling you,

  • you'd fall right back to the core.

  • But 6.4 million meters later,

  • after powering through impenetrable iron,

  • molten alloy, and solid and mushy rock,

  • you'd arrive, at long last, on the other side, in China.

  • That would certainly come as a relief,

  • but it wouldn't even be the best part.

  • Assuming you left a tunnel through the center of the Earth

  • behind you, you'd now be able to travel back and forth

  • between China and Argentina in under an hour,

  • simply by jumping in.

  • To learn why, check out another video we made

  • about jumping through the center of the Earth.

Narrator: If you want to get to the opposite end

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