more about it, it still sounds absolutely crazy but you can see the upsides.

It's exactly what it sounds like, a giant elevator that you get in down here on earth

and step off of in freaking space.

You'd need an anchor on earth which would serve as the loading station for the elevator

car, a tether stretching into space for the car to travel along, and a counterweight way

out in space to keep the tether taught.

Designs vary but it looks like the counterweight could have to be as far as 100,000 kilometers

above the earth, more than a quarter the distance to the moon.

Sounds nuts, but for some it's not just a pie in the sky idea, it's something they're

actively working towards.

In September of 2018 researchers from Shizuoka University in Japan launched an experiment

to the ISS to test the practicality of one aspect of a space elevator.

The experiment involves two tiny cubic satellites connected by 10 meters of cable, with a small

container moving along the cable with a motor.

It's a far cry from a full fledged space elevator, but the goal was to show that locomotion

along a cable in space was possible.

The experiment is in collaboration with the construction firm Obayashi, which six years

prior announced plans to build a space elevator by 2050.

They're not the only ones toying with the idea; China intends to build one by 2045,

and NASA has commissioned studies to look into how feasible the idea is.

But hold up, why all the fuss about space elevators to begin with?

What's wrong with good old chemical powered rockets?

Well while we have rocket technology right now to lift payloads and people into space,

It's extremely costly.

According to SpaceX, It costs roughly $2,700 to put one kilogram of cargo into low earth

orbit.

An elevator to space would be a massive construction project, but by one estimate, once built,

could cost as little as $200 to get one kilogram into space.

Meaning I would only need $13,000 to get off this planet, as opposed to $175,000.

Obayashi estimates it would cost about $90 billion to make a space elevator, but compared

to the cost of conventional rockets it would recoup that once it had lifted about 4.5 thousand

tonnes, which is about the weight of 11 International space stations.

A space elevator would open up so many possibilities, like building and launching ships in orbit.

Hello Starfleet.

It could make trips to Mars less fuel intensive, because a ship could plummet towards Earth

like an Olympic high diver, using Earth's gravity to boost it on to the red planet.

Tourists could make trips up regularly.

Just get in, listen to girl from Ipanema, make awkward small talk for a few thousand

kilometers and get the selfie of a lifetime.

Flat Earthers could finally see what we have been trying to explain to them all along!

There is literally no reason not to do this!

Except that we can't do it yet.

Sure, we could build many of the components with the materials we have today, like the

anchor on earth, the counterweight out in space, and the elevator car itself.

But the actual tether that holds the whole thing together, that makes it a space elevator,

is an extreme challenge.

As of today there's no material strong and light enough to stretch 100,000 kilometers

into space.

That's almost 2 and a half times earth's circumference.

The material has to be resistant to weather, radiation, and orbital debris.

The closest thing to that right now are carbon nanotubes, which can be 100 times stronger

than steel.

But they're difficult to make longer than a few centimeters, which is about 100,000

km short of the goal.

Still, Japanese scientists are committed to building a lift to the heavens, and the first

stop will be proving a elevator car can travel along a 10 meter cable in space.

If you liked this video subscribe because where else are you going to learn about more

cool nanocarbon structures like schwarzites.

This video, that's where.

Carbon nanotubes were discovered by a Japanese researcher, and their expertise is part of

why they are more dedicated to building a space elevator than most other countries.

Thanks for watching, I'll see you next time on Seeker!