- I found after they made "Interstellar",
some of the folks told me, that when I was
on the International Space Station,
and I did a cover of a David Bowie tune,
and they were trying to
light Matt McConaughey's face
when he was looking through
the windows of his spaceship,
they actually looked at that clip of me
to see how the light, the
actual light on a spaceship,
looked, and then they mirrored that
when they were lighting Matt's face.
It made me laugh that art
imitating life imitating art.
My name's Chris Hadfield,
Colonel in the Air Force,
astronaut, flew in space three times,
commanded the International Space Station,
did two different space walks,
used to be a test pilot and
engineer, downhill ski racer,
occasional guitar player,
and we're here today
to look at some scenes from
different space movies.
- [Astronaut] You need to detach.
I can't see you anymore.
Do it now.
- I'm trying.
[intense music]
[astronaut yells]
- Ugh.
This is "Gravity", and this is the scene
where the space shuttle
explorer is orbiting the earth
and they're doing repairs
on the Hubble telescope,
and they go through some sort
of asteroid debris field.
Okay, well that's a nice concept.
And the visuals are great.
But what happens is so far from reality
that I just, I want to turn my head.
First off, this satellite goes whizzing by
at about, I don't know,
maybe 120 miles per hour.
Satellites are going five miles a second,
17.5 thousand miles an hour.
How that thing where you can,
oh, you can identify
the satellite going by.
And then, it's like some
big dump truck just suddenly
put this big pile of rubble
just upwind of the space shuttle
and suddenly it looks
like an avalanche in space
has poured in front of this shuttle.
And they violate the laws of
physics when Sandra Bullock,
she's on the end of the big
cannon arm, the big robot arm,
and it's tumbling, and she
releases her little straps,
and suddenly, whoosh, she flies away
in a while new direction like
there was some force on Sandra
that wasn't on the arm.
How come she has a different
gravity than the arm does.
And then everybody in the
crew, I mean, the dialogue,
they're all yelling back to Houston as if
somehow Houston's going
to help them right here.
[astronaut yells]
- [Astronaut] Houston, I've
lost location on Dr. Stone.
- And George Clooney is
referring to this other astronaut
as Dr. Stone, like they haven't
really met each other yet.
And he's asking permission
from somebody, I don't know,
to go and help her out in the, I mean,
it's not astronaut behavior,
it's not logical behavior,
it's so execrable from actual
practical demonstration
of what the reality of
space flight is like.
The most experienced
astronaut in American history
is a woman.
It's Peggy Whitson.
She's been in space longer
than any other American.
She commanded the International
Space Station twice,
she's done 10 space walks, she
was NASA's chief astronaut.
In this movie, Sandra Bullock
has only been an astronaut
for less than a year, and when
she's faced with a problem,
she's panicking and
has no idea what to do,
and George Clooney is
driving around like some sort
of space cowboy as the only
person that really knows
what's going on, and it's
like they met when they were
out on this space walk.
And then it's like, he's
trying to pick her up
during a space walk.
- Prototypes, even for
your pretty blue eyes.
- What is he even doing out there,
driving around in his jet pack.
I mean, we don't go
outside recreationally.
It's so different than the actual people
that are exploring space
that devote their lives
to being astronauts that are actually
on the Space Station right now.
The wonderful human role
model examples we have
of people who are doing these things.
I think it set back a little girl's vision
of what a woman astronaut
could be an entire generation.
Sandra Bullock did a great job
of portraying this character
in the movie, but I
just think the character
that they wrote for her
was really disappointing.
That's what I would've changed.
Get the characters right,
get it to represent
what astronauts are actually like,
and then build the story around that.
Don't just make it the perils of Pauline,
where she's strapped to the train tracks,
and she needs George
Clooney to magically appear
next to her to tell her which book to open
to be able to do the right thing.
Real astronauts recognize
the seriousness of their job.
The fact that it's always life or death,
and that we're there
as the representatives
of 7.5 billion people.
Everybody's trusting
us to be good at this,
to have spent decades
getting good at this.
If you want to know what
a space walk looks like,
there's never been a better
movie though than "Gravity".
That opening scene is
magnificent for the visual impact
and the beauty of the silent turning world
and the resolution of
each of the fine things
and the lighting, it's wonderfully good.
It gives you the raw emotional
sense of a space walk.
Just don't pay attention
to what the astronauts
are actually doing.
[dramatic music]
[computer beeps]
This movie is "Passengers",
so if you're gonna get on a ship
and you're gonna be on it between stars,
going to settle some planet
in another solar system,
you can't be floating
weightless the whole time.
Who knows what your babies would be like
if they were conceived and
developed and tried to grow
without gravity.
Their bodies wouldn't grow right.
How do you make gravity if
there's no planet nearby?
One way of course is just like
we do in a little experiment
where we spin it in a centrifuge,
you can spin the whole
ship, and then everybody
is pinned against the outside of the ship
just by the centrifugal force,
and that feels like gravity.
If you shut off the spinner,
then it would continue to spin
for quite a while.
There's really nothing
to slow the spin down,
and that's one of the big
scenes in "Passengers",
the ship has a problem, it stops spinning,
and therefore, everything becomes like
on the International Space
Station and starts floating.
I'm not sure why, when
it starts losing power,
the ship suddenly starts slowing down.
You'd actually have to
put big brakes onto it
to stop all of that metal from spinning.
I'm not sure why the ship
didn't just blithely keep
on spinning as it drove
into the asteroids, but it
would've been a worse story
if that had happened.
Let's say, all right,
the ship stops spinning,
now everybody's got no gravity,
and one of the characters
is in a swimming pool.
What happens to water without gravity?
Onboard the International Space Station,
we played with water all the time.
You could squirt it and
it would just float there
in front of you.
It naturally, with the surface tension,
goes to a perfect ball.
That's the easiest shape for it to go.
If you had a swimming pool
held in place by gravity,
and then the gravity went away,
the water would have some
inertia as the ship slowed down,
and it would slosh, but
then the water would
almost look like a big
blob slowly forming itself
into a ball.
And I think that's quite well shown.
And the weirdest thing is
if you were in the water at the time,
how would you even know
which direction to swim?
Which way is the surface
if there's no up or down?
Even if you started
swimming one direction,
the blob is flexing, and
the way you're swimming
might be getting further away from you.
That was a very
compellingly accurate scene,
assuming there's a swimming
pool on board a spaceship.
The way it resolves
though, it bends the edge
of probability because if you
spin the ship back up again,
then you generate the centrifugal force,
and the water would get squished back down
into the pool side of the room,
but it would take a lot of force and time
to take a ship that is stopped,
this great big massive metal thing,
and get it spinning again.
It wouldn't be like nothing,
and then bang, gravity,
like it's portrayed in the movie
where suddenly everyone is
going, bang, into the floor,
as if gravity was an on/off switch.
But that wouldn't haven't
been as visually compelling
and allowed the crew
member, the young lady,
on her last dying breath
to burst out of the water
and stay alive.
[dramatic music]
[spaceships buzz]
- I'm going in, I'm coming in hot.
[Chris laughs]
- We're coming in hot.
Oh yeah, okay.
This movie is "Armageddon",
which is the disastrous end
of everything, and I think
that's an appropriate name
for this movie.
I haven't seen it since
I turned away from it
when it first came into the theaters.
This scene here where
the two space shuttles
are landing on an asteroid
with the deep sea worker blaster guys
who are gonna blow up the asteroid
so it doesn't destroy earth.
There are so many things wrong with this
that I don't even really
know where to begin.
Let's start with the
fact that they're talking
to mission control real time.
There's no lag.
How did suddenly time and space change,
you get instantaneous communication
all the way out to this
asteroid with no lag?
And then, one of them says,
"We're coming in hot."
We're coming in hot?
Relative to what?
What are you talking about?
And how do you know that?
Do you have some magical
landing information
about an asteroid so that
you know you're going faster
than you meant you were supposed to?
And then if you watch as the
shuttle comes in to land,
it flairs, like it slows
down so it can touch down
on the asteroid, like by
pulling back on the stick.
There's air on an asteroid?
I mean, what made that magically happen?
And there's these weird
video game displays
in the space shuttle that allow you to,
like suddenly you're flying
in the game Asteroids,
and the crew, ah, everybody is panicked
and yelling at each other.
[crew yells]
The big engines on the back
are constantly running.
Where's the fuel coming from?
There's no gas tank.
So they'd be accelerating the whole time.
Why, I mean, what are they doing that for?
It is as atrociously
bad as any space movie
that was ever done.
It's so bad, it's tragic comic.
I'm glad they safely
landed on the asteroid,
but it's just atrocious.
- What's the abort force?
- 7500.
- [Astronaut] Anything more than that
and the map could tip.
- This is "The Martian".
I like how the one crew
member is wearing his name tag
in the middle of his chest.
It's a little far along in the mission
to be wearing your name tag.
- Ready.
[door blows open]
- Mars is an interesting planet
in that it has dust storms.
We can see them through
our telescopes from earth.
And some of those dust
storms envelope huge sections
of Mars simultaneously.
This is unfortunately about the worst part
of the whole movie, "The
Martian", is that the atmosphere
is so incredibly thin on Mars.
It's almost like the very edge of space.
On earth, you would have
to be 100,000 feet up
to get to how thin the air is on Mars.
And think of the people that
go to the top of Everest,
which is only 28,000 feet up.
Almost all of them need
oxygen just to be able
to get to the top of Everest,
and this is four times as high as that.
If the air was blowing incredibly fast,
there would be so few air
molecules going by you
that you'd hardly even feel them.
And there's no way you could
pick up all those big pieces
and blow them and knock Mark Watney over,
and it's a slow, cumulative
change of seasons on Mars.
The people that made
the movie just decided
the gravity on Mars is the
same as the gravity on earth,
even though it's actually
only 38% of the gravity,
so Matt wouldn't be
quite that hunky on Mars.
He wouldn't be solidly on the floor.
He'd only weigh one third
as much as he does on earth,
so he'd be a lot more bouncy moving around
and things would move differently.
Mark Watney played by Matt Damon
is trying to find a
way to make enough food
to last until he can be rescued.
All he's really got are potatoes,
but potatoes are simple
and they grow and multiply.
He needs a few things.
He needs water, he needs
nutrient-rich soil,
he needs heat, and he needs oxygen.
- I'm gonna have to science
the shit out of this.
- It makes sense actually
that they're growing plants on Mars.
If you're gonna live there,
you can't bring everything
in little tins and dehydrated packages.
You gotta grow food where you go.
We've been growing stuff
on spaceships for decades,
and so the movie ends up being very good
for how could you get
that little environment
for one human being and
his crop of potatoes
to grow on Mars?
The idea of using the
human crap from outside
in order to harvest the nutrients
that you need for potatoes,
just like putting manure
on crops at home here on earth.
How he used existing chemicals,
whether it was rocket fuel
or whatever, they're
all just hydrocarbons,
things with hydrogen and
oxygen and carbon in them,
and so as long as you can get
the right chemical reaction,
you can get out the things you need.
And if you think about it,
that's sort of what happened on earth.
We didn't used to have oxygen on earth,
it's just a chemical process
that created our atmosphere
here on earth, and Mark
Watney, Matt Damon,
is hastening that process on Mars.
- I am the greatest
botanist on this planet.
- One of the best parts of "The Martian"
is that it came from
the book by Andy Weir.
He's a really smart guy and an engineer,
but he also crowdsourced the science
as he was writing the book.
He put it out there and
said, "Hey, everybody,
"tell me what's wrong
with my science here.
"What am I doing wrong?"
As an astronaut, Mark
Watney could've been just
any of the people in the astronaut office.
It's that type of person,
the deep academic background,
the strong operational sense
of what you're gonna do next.
I think it gave people a sense
of what being an astronaut is like.
There's some hard, sad, difficult parts,
but there's some ridiculously
fun and almost always joyful
parts to it, and a great
sense of camaraderie,
better than almost any space movie,
"The Martian" shows that.
[alarms sound]
- Damn, we've got a problem here.
- "Apollo 13"
[Chris chuckles]
"Apollo 13" tells the
story of an explosion
that actually happened
on the way to the moon.
Really good movie.
Maybe the most realistic
of all of the space movies.
- Uh, this is Houston.
Say again, please?
- Houston, we have a problem.
- When you're talking
on the radio, of course,
the first word you have to
say is who are you talking to,
so that's why from a spaceship,
the first word we say is
Houston or Moscow or Tokyo
or whoever we're talking to.
Mission control is sitting there,
and if they hear the
commander of the ship say,
"Houston, we have a problem."
it's an understatement,
but it has a huge impact.
All normal operations cease,
and everybody is now listening
to hear what the commander
is gonna say next, looking
at their data like crazy.
It's a wonderful,
succinct way to phrase it,
and all space commanders
since then, self included,
have used that phrase when needed
because it has the desired effect.
[alarm sounds]
- [Mission Control] Uh, yeah, Jim,
could you check your CO2 gauge for us?
[computer beeps]
- If you've lost a bunch of your oxygen
and a lot of your purification equipment,
how do you get the carbon
dioxide out of the air
onboard a spaceship?
You need some sort of scrubbing equipment,
and when you've had a malfunction,
maybe it's not gonna
work the way you planned,
but they had the lunar lander.
It had it's own carbon
dioxide scrubbing system.
The trouble is, they were
built by different companies.
The pieces weren't interchangeable.
The engineers recognized
the problem early,
they presented to the flight director,
Ed Harris doing a great
job of playing Gene Kranz,
and Gene's saying, "Okay,
I understand the problem.
"Now go fix it."
That happens every day in space flight.
Maybe not that dramatically,
but I worked in mission control.
It's this great detective hunt every day
of how can we take what we hope to do,
which is now being ruined by the reality
of everything going wrong,
and we're constantly reinventing stuff.
And all the people in the back rooms
are trying to figure out the
solutions to the problems.
But the way it's portrayed in "Apollo 13",
it was a terrific, dramatic example of it,
but it's almost a textbook
of what actually happens
to solve problems to get something done.
Ron Howard, when he made the movie,
he tried to restrict the
dialogue between mission control
and the space capsule to be
actually what the transcripts
of what the crew had said back then.
Ron actually came to Houston,
spent time with us there,
saw what the houses were like.
He came down to launch.
He really wanted to get
to know what astronauts
and everybody else at
the Johnson Space Center
and in the space business were like.
I really admire the team that
put together "Apollo 13",
and I love the movie.
I think it does a great job
of showing what space flight
is like, especially at
that moment in time.
- [Man] Time is represented
here as a physical dimension.
You have worked out that
you can exert a force
across space time.
- Gravity.
- Well, I'm just confused now.
This is "Interstellar".
If you get sucked into a black hole, ah.
I mean, people are worried
about the riptide at the shore.
This is like a riptide,
a Tyrannosaur-riptide.
This is beyond our ability
to imagine the scope
of the forces that are involved,
and not just a force like
gravity holding us down
to the surface of the earth,
but a change in gravity
with distance because
gravity, the strength of it
is proportionate to
where the black hole is.
The closer you get, the
more gravity you get.
It would be just tearing
everything to pieces
until eventually the forces are so high,
it even sucks light into it.
It's not something you can build yourself
a tough little capsule
and somehow penetrate.
There's nothing we know of right now
that could withstand the destructive force
of being near a black hole.
How that's going to be
portrayed in a movie,
you can do whatever you
want with it for now.
- Love is the one thing
we're capable of perceiving
that transcends dimensions
of time and space.
- Nowhere in a mathematical
equation is there
a symbol for love.
It'd be a nice little heart, I guess,
but I don't know how you'd
multiple it or divide it.
Maybe for the arch of an artistic story,
then love is the only way
to get through to the end.
To end up at that place looking through
into his daughter's library rack,
it's very emotionally nice,
but I'm not sure that
Einstein or Stephen Hawking
would've followed the logic.
- I brought myself here.
We're here to communicate with
a three-dimensional world.
- How do you deal with time travel,
which is essentially what happened here.
It becomes so confusing, it's almost like
the movie needs footnotes
and scientific subtitles here
so that you can clue in the
viewer as to what's happening.
Also, there's no point in
yelling through your space suit.
Nobody can hear you
outside your space suit.
I'm also really confused
just by the physicality
of what we're looking at.
I mean, suddenly he's in some
sort of huge filing cabinet.
The endless land of Venetian blinds
the movie creators had
some specific thing in mind
trying to take the physics and the math
and make them
three-dimensionally compelling.
It still ends up for me
just being quite puzzling.
"Interstellar" has a
fascinating history of birth.
It was the brainchild of
one of the best physicists
in the world, a guy named Kip Thorne.
And Kip was trying to figure out the math
of what happens around a black hole,
and he hired a company
called Double Negative.
And they took his math and
turned it into the raw visuals
of what a black hole would look like,
and that became the genesis of the movie.
It's a real interesting coupling
of a science fiction story based very much
on an experiment of how to visualize
the non-intuitive complexity
of what the environment
would look like around
the weird singularity
that is a black hole.
The reason the time is
dilated for the crew
in "Interstellar" is just
because of the incredible change
of gravity, the distortion
of time due to the
huge gravitational forces.
But what that means is, if you
get going faster and faster
and faster, time passes
differently for you
than someone who's not going that fast.
So while I was on the space station,
I had some people do the
math to see was I aging
faster or slower than people on earth.
I'm actually younger than I would've been
if I had stayed on earth
for the whole six months.
Every month, I aged about
one millisecond less
than people on earth.
So after six months, I was
six milliseconds younger
than my family.
It doesn't mean anything,
but if you extrapolate it
to the speeds and the physical
conditions of "Interstellar",
then suddenly the difference becomes huge.
- I waited years.
- Where a fixed amount of
time for Matt McConaughey
and his crew would be a wildly
different amount of time
for people who are in a
different set of circumstances.
It doesn't intuitively make sense.
You just have to accept that
the world that we live in
is only one particular set
of physical circumstances,
and some wildly different
ones exist in other places
in our galaxy and in the universe.
[astronaut breathes heavily]
[spaceship rattles]
This movie is "First Man",
the story of the very first
human being to walk on the moon.
The story of Neil Armstrong.
Didn't that altimeter say
he was at 45,000 feet?
Before astronauts become astronauts,
they always have some other
significantly complex,
technical profession.
A lot of them used to be test pilots,
and that includes all
three of the astronauts
in Apollo 11, including
obviously Neil Armstrong.
And there's the opening scene in the movie
where he's flying an
X-15 right at the edge
of the envelope, right at
the edge of its capability.
One of the biggest problems
with the scene is sound.
It's sort of like he's in a pickup truck
driving across a field
with this big whiny noise
that tells you just how fast
he's going all the time.
You can hear it going up and down
like maybe there's a big,
I don't know, piston engine
running nearby.
It's all completely wrong.
You don't hear that in the cockpit.
And the vibration, there's so
much little rattly vibration.
Where's that coming from?
He's in a bullet plane with
a rocket motor on the back.
The vibrations would
be imperceptibly small.
Airplanes, especially airplanes like that,
fly really smoothly.
Also, he keeps going in and out of cloud.
He's at 45,000 feet.
What clouds are there at 45,000 feet?
There's maybe the occasional thunder storm
that sticks up that high,
but you would not fly the X-15
through one of those thunderstorms.
And then it goes from this
weird rattly kind of noise,
like it's some old jalopy he's flying
to then suddenly dead quiet.
Then what happened there?
Where did all that sound come from
and where did it all go?
And as the pilot also, he's
wearing a pressure suit.
He's got a headset on,
he's inside a cockpit.
You don't hear any of that.
As he pulls back on the
stick and starts going up
to get the X-15 up high, that's fine.
Once you're rocket lights,
then you want to start going up
where the air gets thinner and thinner.
Well the sky oddly enough
gets lighter and lighter.
The sky goes from a normal
blue to this light blue.
That's the opposite of what happens.
As you ride a rocket up to
space, it goes from light blue
to dark blue because
there's less and less air
to refract the light to
eventually it goes black.
In this clip, for whatever
reason, it goes from regular sky,
to light blue, light blue,
and then suddenly bang,
the sky turns black,
as if he went around
a corner or something.
The front of the X-15 starts
glowing with the heat.
Well that's because of
the friction of the air
as he's going fast.
It doesn't happen at the right time.
Up where the air is the thinnest,
and they didn't really show
what speed he was going,
the time it takes to the
heat the front of an airplane
and the amount of air
molecules that have to hit it
to cause the friction and the
drag to make all that heating
and make the metal glow a different color,
it almost looked like he got to space,
and then the nose got hot.
Those two things aren't
related to each other.
What disappointed me
most about "First Man"
was how sad everybody was.
Everybody inside was glum
and space flight is joyful,
it's hilarious, it's magic.
You can fly, you're
seeing the whole world.
These guys were going to the moon.
They had a lot of responsibility,
but where is the spark
of joy that is there
and every second of the time
that you're onboard a space ship?
- The distance from
launch to orbit, we know.
Where it's own mass, we know.
Mercury capsule weight, we know.
- You did the math.
- I look beyond.
- I really like the
movie "Hidden Figures".
It tells a story that most
people don't know about.
It highlights a group of people
that did really pivotal work
to get us into space at the beginning,
and it's a really nice human story,
and it's really well acted.
There's one scene where the
character, Catherine Johnson,
who's of course one of the
real brilliant human computers
that's in the movie,
is trying to solve one
of the math problems
you have to solve for orbital mechanics,
and getting people into orbit
and doing it accurately enough.
It's super over-simplified and dramatized.
It's like the entire
staff of NASA is 15 people
in this one room somewhere,
and the part played by Kevin Costner,
he's like the leader of this team,
and he seems to be the
administrator of NASA,
and he seems to be the flight director
of the specific mission, but
you gotta simplify things
to tell a story, and I guess that's okay.
But people sitting in
front of black boards
postulating and coming up
with ideas, that's real.
That's realistic, that's
how we figured out
a lot of those things.
- Maybe it's not new math at all.
- It could be old math.
Euler's method.
- There's nothing unusual about saying
that this is old math.
All math is old.
It's just whether we've figured out
what the mathematic principles are or not.
One of the guys how figured
out a lot of the math
was a guy named Tsiolkovsky,
who was a math teacher
in the 1800s.
He figured out space
flight with his mathematics
by candlelight in his
house in rural Russia.
And Euler came up with
some of the equations
that are absolutely
necessary for us to be able
to do the predicting properly
in order to do rendezvous
and burn the engines at the right time
that you're gonna get
to where you want to go.
But I love the interplay
of the bright minds
and the kind of quirky
people that actually allowed
early space flight to happen.
- NASA, we have what looks
like unidentified rovers
approaching our position.
Possible pirate activity.
And I got a couple of VIPs with me.
[Chris sighs]
- This is the movie "Ad
Astra", the chase scene
on the surface of the
moon between the bad guys,
who are in black moon
rovers, and the good guys,
who are in white moon
rovers, making it easy
for those of us on earth to follow along.
- We're being ambushed.
- Guns work fine without air.
Guns don't need oxygen to work, really.
If you think about what
happens inside a bullet,
there's this striker in the back,
and it causes a chemical explosion,
and it's the exploding gas
inside the confines of the rifle
that make the projectile
come out the end really fast.
That doesn't count on gravity,
and it doesn't count
on earth's atmosphere.
So a gun would work fine on the moon.
In fact, we actually carried guns
onboard the Russian spaceship that I flew.
When I went to the Russian
Space Station, Mir,
in 1995, the ships that
came up had guns in them,
but they were in the rescue pack
because if you did an emergency deorbit
from the space station, you
might land anywhere on earth,
and you might land in a place
where there were, you know,
grizzly bears, and so there
was this specially-designed gun
that had two shot barrels
and one gun barrel
so that you could fire two
shots at the grizzly bear,
and maybe the last one for yourself.
I don't know.
But we've had guns in space before.
Never fired one in space
that I've ever heard of.
On the moon, there's
about one sixth gravity
as there is on earth, so the
bullet's gonna fall more slowly
than it would earth.
It's gonna take longer to hit.
So that means the bullet with
the same speed horizontally
would go further.
It'd go further around the moon.
It's possible, I guess, if
you had a big enough gun,
that it would get to the
speed where it might actually
be able to escape from the moon.
It can get to escape velocity
where it was going so fast
that by the time the pull
of gravity of the moon
kept bringing it down, it
would be far enough away
that it would have the inertia
to float away from the moon forever.
I haven't done the math
to figure out exactly
what that speed is.
I'm sure we could make a
big enough gun to do that.
[somber music]
Why are they driving Apollo
rovers around in the future?
Those rovers were built
in a great big hurry
during the Apollo program to try
and let the exploring astronauts
have slightly better range
and explore more of the moon.
We would not build rovers
like that in the future.
That's like if you were watching
some movie in the future
and they brought in a
Model-T Ford as the vehicle
that everyone's racing around in.
It's like, why are they
driving Model-T Fords?
Those were from the 1920s,
that doesn't make any sense.
As you watch this scene, where
is all the noise coming from?
You are in a perfectly
empty vacuum on the moon.
As you watch this scene,
it's really noisy.
You can hear the vehicles bouncing along,
and you can hear the guns being fired,
and you can hear them
hitting and everything.
There's no air on the moon.
If you make a noise on the moon,
there's no way that the pressure wave
can be carried anywhere.
You can't hear anything that
doesn't happen inside your ship
or inside your suit.
It's as if there are, I don't know,
Mel Gibson driving around in
some sort of dystopian future
and you can hear the great
big vehicles behind him.
It would be perfectly
silent the whole time.
All you would hear is everybody breathing
and talking to each other.
I guess it makes it familiar
for people, but it's wrong.
[upbeat classical music]
Perhaps the greatest
space movie of all time,
"2001: A Space Odyssey".
Arthur C. Clarke's great
book amazingly portrayed
in the late 60s by Stanley
Kubrick and his team.
When I came back from
my first space flight
and sat in my living room with my wife,
I remember telling her, "It was amazing.
"How you see the world,
"the speed you're heading over the world,
"the big curve of it,
"it's exactly like they
guessed it would be
"when they showed it in "2001"."
The imagery of it as
that ship that left earth
and is coming up to dock with
the rotating space station.
The gigantic, slow ballet of spaceships.
At the time I remember thinking,
it's like elephants mating.
This big, ponderous, careful,
three-dimensional activity
with a specific purpose in mind.
That's what it felt like to fly a ship up
to try and dock with the space station.
The little pen floating out
of the passenger on board
who has fallen asleep.
Now the flight attendant
walking down the aisle
and having Velcro on
the bottom of her shoes
matching the Velcro of floor,
the inside of the
International Space Station,
there's Velcro everywhere,
anywhere you want to stick anything,
including that pen,
there's Velcro on the pen
with the one type of Velcro,
and the wall is the pile or hook.
She did sort of stumble
though, which was obviously
a gravity thing if you
watch it really closely,
but the idea of placing one foot,
and then placing another foot,
and peeling them almost like
someone walking up a wall
of ice or something, that
was an interesting solution
to the problem.
I think it's beautifully, artistically,
and quite scientifically portrayed.
It's great.
[WALL-E clangs around]
This movie is "WALL-E",
really designed for kids,
very sweet.
In this scene, WALL-E is out
there flying around in space
and having fun, using a fire extinguisher.
And Eve, the more advanced robot,
has own propulsion system.
I'm a little confused about Eve
because Eve's head isn't
attached to the body,
but there's this weird red
cable umbilical on the outside.
What intrigued me was how the
animators moved WALL-E around
by firing a fire extinguisher.
And it would work just fine.
You get a fire extinguisher,
you pull the trigger,
all that stuff flies out
of the fire extinguisher,
and if you don't brace yourself,
it'd sort of push you over on earth.
If you're floating in space
and you can't brace yourself at all,
it's gonna propel you just
like a little rocket motor,
and they were clever enough to make sure
that WALL-E always got it down
to the center of his body.
Cause if you did it up by your head,
then it would push you off center,
you'd just sort of pinwheel.
But if you can push it through
the middle of your mass,
middle of your body, then
it's going to move you
in a straight line.
And he's very careful to
constantly move the nozzle
to the right spot.
It's quite cute, and
quite a nice little study
of orbital mechanics.
The very first American space
walk, when Ed White went out,
he actually had one of
those squirters with him.
Not a fire extinguisher, but
a little handheld squirter
that he could maneuver around with.
Eventually we found it was
an impractical way to move.
You're better just to put
hand holds on the ship
or wear a jet pack.
But the same thing that WALL-E's using,
that was actually used
by the first American
to ever walk in space.
- Ladies and gentleman, Mercury.
- This is "Sunshine", a movie about a crew
having to reignite the
sun, but in this scene,
the crew recognized that
they're going to see Mercury
go between them and the sun.
It's almost like a tiny
little version of an eclipse.
People love eclipses.
It's almost mystical,
it's a neat thing to see.
I think that would be natural.
The crew would love to
see Mercury highlighted
against the light of the sun.
In the scene though, Mercury
is whipping around the sun.
I mean, just in the time
it takes those people
to sit and look out the window,
it goes probably an eighth
of the way around the sun.
In earth days, Mercury takes like months,
88 days or something,
to go around the sun.
You wouldn't perceive the
motion relative to the sun
just looking out the window like they are.
Also, the sun is stupendously bright.
How are you seeing
Mercury against the sun.
It's like staring at
the headlights of a car
and trying to see a marble or something.
Your eyes would be so
overpowered by the brilliance
of the sun, unless they've
got some really great
special filters somehow
on their viewing screen
of their ship.
What's nice about the scene
is the sense of wonder,
the awe at the majesty of the reality
of the rest of the universe.
And seeing it first hand.
I've been around the
world 2650 times or so,
and I never once could see enough of it.
During my first space walk,
while I was outside in the dark,
we actually were far
enough south that we went
through the earth's aurora.
It is so fantastically beautiful
and such a raw artistic human experience.
To look at the northern
lights is like magic.
To be in them, to surf on
them, that's beyond magic.
It's surreal.
My last orbit of the
world was even more rich
and magnificent and awe-inspiring
than all of the ones before it.
The unheralded beauty of our
planet and of where it sits
and the environment that we're in
is so constantly magnificent
that when you're looking at it,
you're talking in hushed tones.
Like you've walked into a giant forest
or the most beautiful cathedral on earth.
You don't talk in a
big brassy voice there.
You're reverential of where you are.
And I think that little
scene gets some of that,
the reverence and understanding
of both the minuscule nature
of being a human in the
enormity of the universe,
but also the enormity of being
able to see it in that way.
The huge awareness that
we have of our ability
to try to interpret it and understand it.
I think they portrayed that well.
I'm Chris Hadfield.
I love space movies.
It was nice to have a chance to look
at some of them with you.
I look forward to every new
space movie that comes out,
and hopefully maybe some of
the things that I've said here
will help you see each
of the new space movies
that you see through an astronaut's eyes.
Happy viewing.
