is the largest manmade structure in space.

It was built in pieces and then launched into space

and assembled in orbit.

In this video, I want to give you a detailed look

at the station.

We're gonna look at each module in the order

that they were assembled.

We'll look at the countries involved

and the future plans for the station.

So if you're ready, let's go build a space station.

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The International Space Station, or ISS,

took many years to become a reality.

In 1984, the United States announced a project

called Space Station Freedom.

Here's some drawings

of what the original station might have looked like.

It was never actually built in its original form.

There were lots of redesigns,

and it's funding was almost completely cut by US Congress.

Then in 1993, after several other countries were brought

on board, the name was officially changed

to the International Space Station.

Five years later, construction begins in space.

I'll show you the complete construction process,

but first, let's learn a little bit more about the station.

This is the ISS as it looks today.

It's mainly used to conduct science experiments

that can only be done in space.

There's usually six astronauts on board the station.

They generally switch out about every six months

so that no one spends too much time in space.

The station is about the size of an American football field.

It's located just outside the Earth's atmosphere.

This is called Low Earth Orbit.

It's not very high up, considering

that some satellites orbit way out here.

The ISS only takes about 92 minutes to orbit the earth.

That's about 28,000 kilometers per hour.

Over time, the ISS will slowly lose altitude.

If nothing was done, the station would eventually burn up

as it reenters the Earth's atmosphere.

To prevent this, the station must be periodically reboosted

to stay in space.

The main countries now participating are United States,

Canada, Russia, Japan and many countries

from the European Space Agency.

Let's get to know the main parts of the station.

The Integrated Truss Structure is kind

of like the backbone of the station.

It holds the solar arrays to generate electricity,

radiator panels, these remove heat

from the station, and other equipment

and science experiments are also attached.

This part down here contains the pressurized modules,

which means the astronauts can live and work in here

without a space suit.

All of the Russian modules make up

the Russian Orbital Segment.

The other side is called the United States Orbital Segment.

It's made up of modules from the United States,

Europe, Japan and Canada.

The different pieces of the station, also called modules,

were built in many locations around the globe.

Each module was then launched into space

by one of these three rockets,

the American Space Shuttle, the Russian Proton Rocket

and the Russian Soyuz Rocket.

Once in space, it's time to put it all together.

This is definitely not your average Lego set.

Once construction started, the ISS took a little

over a decade before it was considered complete.

Each one of these lines represents the addition

of a new module to the station.

Let's go ahead and start at the very beginning.

The first piece

of the station is a Russian module called Zarya.

It provides power from the solar arrays

and also propulsion when there's a need to move the station.

There's three docking ports in front and one in back.

These will be used to connect

to the next pieces of the station.

The second module is American,

and it's called Unity, or Node 1.

It has six docking ports to connect to future modules.

There's a special piece here to connect

between the different docking mechanisms.

This is called a Pressurized Mating Adapter,

or PMA for short.

Unity was launched with PMA-1 and PMA-2.

This is the Zvezda service module.

It provides life support systems

and is considered the functional center

of the Russian Orbital Segment.

It also has three docking ports in front and one in back.

Next is the Z1 Truss.

This holds equipment for the station.

It's not part of the main truss,

but it provided a temporary mounting place,

as we'll see here in a moment.

PMA-3 was then added to the bottom side of Unity.

It's always good to have an extra one of these around.

The P6 Truss was temporarily mounted

to the top of the Z1 Truss.

This includes the first solar array wings.

This provides much needed power to the growing station.

Radiator panels were also installed

to help remove excess heat from the station.

At this point, there was enough functionality

that astronauts can start living aboard the station,

instead of just temporary visits.

From November 2000 until now,

there has been a continuous human presence

on board the station.

The Destiny module is also called the US Laboratory.

This is a place where a lot of scientific research happens.

A little rearranging was necessary

so that Destiny could be installed.

March 2001 came the addition

of the External Stowage Platform 1, or ESP-1.

This was a place to store spare parts for the station.

Canada made a vital contribution with the Canadarm2.

It's a robotic arm that can help

around the outside of the station.

It's usually controlled by an astronaut

who's on the inside of the station.

Either end of the arm can be attached

to one of these grapple fixtures

that you'll find on various modules.

The Quest airlock allows the astronauts to safely step

outside for a few hours to perform an EVA,

also known as a spacewalk.

This is a Russian module called Pirs.

It can be used as an airlock for spacewalks

or as a docking port to allow visiting spacecraft

to attach to the station.

Now we get to start building the integrated truss structure.

If you remember from earlier,

this is kind of like the backbone of the station.

Our first piece is the S0 Truss,

and it gets attached to the top of the Destiny module.

The Mobile remote servicer Base System,

or MBS, was added next.

This platform can move along the truss.

It's especially useful when the Canadarm2 is attached.

Then the S1 Truss was added followed by the P1 Truss.

The S stands for starboard and the P stands for port.

This way, you know on which side of the station it's on.

Each side has room for three more radiator panels.

For now, only the center ones will be installed.

ESP-2 was added to the station right next

to the Quest airlock.

This is the P3/P4 Truss segments with solar arrays

and another radiator panel.

The tiny P5 Truss goes at the end here.

To balance out the station,

we'll have to retract a few panels.

The following year, the other sides

of the truss were added as well.

ESP-3 goes down here.

And then the P6 Truss can be moved

to its final resting place.

It's also time to deploy a few more radiator panels.

The Harmony module is also called Node 2.

It will be attached to the forward end of Destiny.

But first, we have to do some more rearranging.

Harmony has six docking ports which will allow

for further expansion of the station.

Next comes the Columbus module,

which is a European laboratory.

Now we get some more robotics also built by Canada.

This is a space robot called Dextre.

It can attach to the same grapple fixtures

that are used by the Canadarm2.

In fact, Dextre is most useful when it's attached

to the end of the Canadarm2.

The largest module is the Japanese Experiment Module,

also known as Kibo.

It came up to the station in several pieces.

It even has its own robotic arm.

Finally, we have the S6 Truss,

the last of the truss segments.

Now we're starting

to look a little more like the space station.

These solar arrays will be rotated

so that they face towards the sun.

This helps the arrays generate more power for the station.

The Japanese Experiment Module has one last addition.

It's called the Japanese Exposed Facility.

This allows research to be conducted in the vacuum of space.

The Russian module Poisk is very similar to Pirs.

It was another place for Russian spacecraft to dock.

This is the first ExPRESS Logistic Carrier, or ELC-1.

This is a place to store hardware

to help the station work correctly.

ELC-2 was installed on top of the truss here.

The Tranquility module, also known as Node 3,

is added to the side of Unity.

On the bottom side of Tranquility is a small room

called the Cupola.

This has seven windows from which to see the view.

Each window has a cover that can be closed

when they are not in use.

Then came another Russian module called Rassvet.

This was used for storage and as another docking port.

The Leonardo module is used for storage

of supplies and waste.

The trash will build up here

until it can be removed from the station.

Here's ELC-3 and -4.

This is a science experiment

called the Alpha Magnetic Spectrometer.

It's used to study rare particles such as antimatter.

A more recent addition to the station is

called the Bigelow Expandable Activity Module,

or BEAM for short.

It takes up a small amount of space during launch

and then inflated once attached to the station.

BEAM is an experiment to see

if this kind of technology can work.

The ISS only has funding through 2025.

But hopefully, that will be extended.

After that, we may see pieces of the station repurposed

for other projects in space.

I want to thank my supporters on Patreon

for helping me make this video.

This won't be the last time you'll see an animation

from me about the International Space Station.

Stay tuned and let me know what you want

to see next, in the comments below.

I'm Jared Owen.

Thanks for watching.

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