Mission Pluto (2015) Movie Script
1
(Jason) Nine and a half years ago,
a spacecraft called New Horizons
set off on a mission to Pluto.
Now it's about to arrive.
Right now the New Horizons spacecraft
is about to rendezvous
with a planet no bigger than Alaska.
Just 1,400 miles across.
The most ambitious space shot ever.
Pluto has always had the power to inspire.
From Walt Disney back in the '30s...
(clamoring)
...to an outraged public in the '90s.
But the truth is, Pluto is a place
we know so little about.
The big unanswered question about
Pluto is, what does it even look like?
(Jason) With inside access
to the New Horizons team
this is Pluto
like you've never seen it before.
Nine and a half years in space
and it all comes down
to one intense, nerve-wracking day.
It's showtime.
(theme music playing)
(Jason) Humans are movers.
We're a relentlessly restless species,
natural migrants, wanderers,
adventurers, explorers.
Always have been.
We have this insatiable restlessness.
In the space
of a few hundred thousand years,
we left Africa, crossed oceans,
reached every part of our world.
And now?
Now we go to other worlds.
We've been to Mars, Jupiter, and Mercury.
We've seen Saturn, Neptune,
Uranus, and Venus.
And Pluto is so much more
than the name of a cartoon dog.
It's the last unexplored world
of the solar system.
A potential goldmine of discovery.
Perhaps the key to understanding
the origins of our own planet.
And right now,
NASA spacecraft New Horizons
is about to open up that world to us
for the first time.
Oh, my God,
oh, my God, oh, my God.
(Jason) New Horizons has even made it
to the world's favorite geek show.
I'm worried about
the New Horizons space probe.
I get to see him flip out
because he's worried
it was demolished by space ice.
Space ice is no joke.
I can't even watch Frozen anymore.
(Jason) We'll soon know if this
audacious mission has succeeded.
The New Horizons team
is made up of some of the world's
most elite space scientists.
Hal Weaver, project scientist.
To see the face of Pluto
is gonna be astounding.
(Jason) Fran Bagenal,
plasma and particles team.
We have only a very, very
fuzzy glimpse of Pluto right now.
(Jason) Gabe Rogers, guidance team.
It's a once-in-a-lifetime opportunity.
(Jason) Amanda Zangari,
geology and geophysics team.
I still don't believe it's real.
(Jason) Mission leader Alan Stern
has devoted 26 years to this project.
(Alan)You can feel the energy
in the team.
We're almost there
to get what we did all this for.
(Jason) New Horizons blasted off
on its epic voyage in 2006.
The same year that Twitter began.
It was the fastest manmade object
ever to leave the Earth.
A year later,
it whizzed past Jupiter
just as the first iPhone was launched.
The team used the opportunity
to test New Horizons' cameras
on Jupiter and her moons,
grabbing some of the best pictures ever
of a volcano erupting in space.
All through '08 and '09,
it sped silently through empty space
as the world descended
into financial chaos.
On and on towards tiny Pluto
over 3 billion miles away.
A 1,000 pound masterpiece
of engineering the size of a grand piano,
hurtling through the outer solar system
at ten times the speed of a bullet.
At 9 miles per second,
it's moving so fast
that when it gets to Pluto, it can't land.
During encounter, it will attempt
to swoop over the surface,
taking the critical photographs
and measurements in less than two hours.
The encounter is so fleeting,
mission control must guide
the spacecraft minute by minute...
This is the expected error bar
from heaven.
(Jason) ...to put it exactly
where it needs to be.
(Gabe)We're trying to basically
figure out exactly
where the spacecraft
is with respect to Pluto.
So, that's what we're doing right now
um, up on the spacecraft.
(Jason) They're getting New Horizons
to beam back pictures of Pluto
against the surrounding stars,
which they use to build
the road map in space.
Just like the old sailors did
back in the day with the sextant,
they knew where certain stars
were at certain times of the day,
therefore they knew
where they were on the planet.
Where Pluto is
with respect to those stars,
we're able to determine
where the spacecraft is
with respect to Pluto.
We're getting there, you know,
almost a million miles a day,
so we're coming up on the planet fast.
(Jason) We should at last see
what Pluto really looks like.
But until ten weeks ago,
we had no idea,
even with the world's finest
space telescope, Hubble.
I'm gonna show you the best images
that we have of Pluto now.
Can you bring that up for a second?
And here you see the best images
we've ever done of Pluto.
Just a pixelated mess.
Taken with the Hubble space telescope.
That's it from Hubble,
the most powerful telescope we have?
You would love to see
a more detailed picture,
all of us would,
but the problem is Pluto
is just so far away.
(Jason) But even in this fuzzy blob,
there are tantalizing clues,
if you look hard enough.
Analyzing it in different
wavelengths of light
reveals traces of nitrogen,
methane and carbon monoxide.
And because Pluto is so far from the sun,
it has to be one of the most frigid places
in the solar system.
On Pluto, it's about
negative 390 degrees Fahrenheit.
(Jason) Gases on Earth
would freeze solid on Pluto.
Planetary scientist, Cathy Olkin,
imagines what it would be like
to stand on Pluto.
If we were walking on Pluto,
you would see rocks and ice,
but the ice would be very different.
It's not water ice like we see here.
It's nitrogen ice and carbon monoxide ice
and methane ice.
(Jason) But scientists also think
that where the weak sun
hits the surface of Pluto,
some of the ice could get heated,
turning directly into gas.
Pluto could be a mountainous world
of exotic ice and primordial rock.
Gases spewing out of its surface.
It may look similar
to how liquid nitrogen evaporates here.
(Cathy) On Pluto,
I think the sunlight warms the ice
and that ice goes up into the atmosphere.
It's transported by winds to places
on Pluto where it's colder...
and there it will condense,
perhaps even forming clouds
and then you could be seeing snow or frost
falling and condensing onto the surface.
So we believe that Pluto has weather.
(dramatic music playing)
(Jason) Hubble also reveals
that Pluto has moons.
Its largest, named Charon,
is half Pluto's size.
They both dance around each other
unlike any other planetary body
in the solar system.
Understanding this might reveal
how Pluto was formed
and that could tell us
how the Earth was formed,
which is what led to you and me.
(Marc) We've got a real mystery
on our hands
with this planet-moon system.
You have to wonder, how did it get there?
Pluto is a very primordial object.
It's been out in a deep freeze.
You can think of it as,
uh, a storage area, your attic,
of some of the building blocks
of our solar system.
Pluto is potentially a goldmine
for teaching us about the formation
of even larger planets like the Earth.
(Jason)
That's why they had to go to Pluto.
Sounds easy. Just go, right?
Like, from here to there.
But going to Pluto meant reaching further
than we've ever attempted before.
Over three and a half billion miles away,
25 times further than Mars.
And yet finally,
after nine and a half years in space,
New Horizons has Pluto in its sights.
This is now the most dangerous phase
of the mission.
Where a single grain of dust
could take out the spacecraft.
If you've seen me on shows
like Brain Games...
It just completely
short circuits your brain.
...you'll know how much I get fired up
by the wonders of the universe
and how the power of technology
can reveal them.
Well, this is one of those
moments in history
when all of those things come together
in a single, exhilarating adventure.
If the New Horizons mission is successful,
it will be the climax of a story
that goes back 85 years.
In 1930, American astronomer,
Clyde Tombaugh,
took two photographs through a telescope,
six days apart, of the night sky.
One of the dots moved.
It had to be a planet.
It was named Pluto
by a little girl in England
after the Roman God of the underworld.
Her grandfather was at Oxford,
and he passed on her suggestion
to friends in the States.
And then movie mogul
of the moment Walt Disney
picked up on America's
new-found planetary star
and named his cartoon dog Pluto.
Pluto, how would you like them?
Do you like them hot?
Yeah. Yeah, yeah, yeah.
Not the other way around
as a lot of people like me used to assume.
The public's love for the dog
went on for decades
while poor little Pluto the Planet
got sidelined.
Until Alan Stern came along.
You know, I grew up in the go-go time
of space exploration.
I was a little bitty boy
during the Apollo program.
(indistinct chatter on radio)
The technology of it,
the scientific discoveries,
and frankly the romance of the exploration
just swept me off my feet.
(indistinct chatter)
I got into the building
model rockets that fly...
(cheering)
...and had a lot of fun with that
for years.
(Jason) Alan watched the missions unfold
year after year, planet after planet.
(Alan) Things were evolving so rapidly,
I didn't even know
if I could get through school
in time to be a part of any of it
before we would explore
the whole solar system.
(Jason) He needn't have worried,
there was still Pluto,
the planet no one thought worth a mission
because it was so small and so far away.
But in Alan's mind,
they were saving the best for last.
Pluto is something that packs
more scientific punch, I believe,
than any other planet in the solar system.
(Jason) And finally the kid who dreamed
of joining the space race
landed his dream job.
(Alan) New Horizons is the capstone
to that era of exploration.
It is, in a real sense,
the last train to Clarksville.
The last Picture Show.
I don't think I would've believed it,
ha, ha,
that I would be lucky enough
to be in that position.
But standing here today,
for 15 years to pull this off,
um, it's a wonderful feeling for us.
(Jason) Alan will soon discover
if his life's work
has been worth the wait.
After nine and a half years in space,
New Horizons' mission to Pluto
comes down to an encounter
lasting less than two hours
controlled by a team here on Earth
over 3 billion miles away.
Pluto, 3.6 billion miles away.
Mind-bogglingly far.
How do you begin to get your head
around that kind of distance?
Okay, so let's shrink the solar system
down to the size of the US,
and imagine New York is the center.
Most New Yorkers
already think that anyway.
Here's the sun, sitting on Manhattan.
At that scale, the first planet, Mercury,
would be at Staten Island.
Venus is down the New Jersey turnpike
and the Earth would be around Trenton.
To get to Pluto, New Horizons has had to
cross the orbits of all the other planets.
Mars, Jupiter, Saturn, Uranus, Neptune.
And Pluto is right on the other side
of the country in LA,
40 times further from the sun
than the Earth is.
But that's only some of the time.
And that's because of the weird shape
of Pluto's orbit.
See, if the sun is here
and the Earth is here,
Pluto's orbit is kinda like that.
Right? It puts Pluto
at 3 billion miles away at its closest...
but 5 billion miles at its farthest.
This elliptical orbit makes
a big, big difference.
Pluto was at its closest point
to us in 1989,
and since then
it's been getting further away.
2015 is our final opportunity
in a lifetime
to visit this last unexplored world.
An opportunity not to be missed.
The New Horizons mission
was greenlit in 2001.
That gave them 14 years from greenlight
to encounter with Pluto.
Sounds like plenty of time.
Not in the space business.
We had to launch New Horizons
in one three-week launch window,
barely four years
after winning the project.
(Jason) Four years to build a spacecraft,
that normally takes up to ten,
required some creative solutions.
(Chris) We had a very short time
to develop the spacecraft,
so a lot of the design had to be based
on technology that was available.
You don't wanna be
reinventing the wheel.
(Jason) The spacecraft
had to meet exacting standards.
Above all, it had to be light.
So Chris and his team designed
a lightweight triangular frame.
We cut the corners off of the spacecraft
in order to reduce the mass.
We chose to avoid mechanisms
because mechanisms
have a tendency to fail.
(Jason) It needed a reliable source
of power.
So, what about solar energy?
Pluto is so far from the sun
that they get about 1,000 times
less light than we get here on Earth.
To put that into perspective,
when I put on a pair of sunglasses,
I reduce sunlight by a fraction.
To reduce sunlight to the level
you'd have on Pluto,
you'd have to put on
ten pairs of sunglasses.
No way you can power
a spacecraft with that.
So New Horizons relies
on a plutonium-powered generator,
which brings its own problems.
The power supply gives off some radiation,
um, that could be bad for the electronics.
(Jason) So they had to keep
the power supply really, really low.
(Chris) So, this little power source,
well, it produces about 200 watts
of power at Pluto.
So, what does that mean, only 200 watts?
Enough to power a fridge?
Nope. A coffee machine?
Not a chance.
Right now New Horizons
is speeding through space,
running on just enough power
to run a couple of these light bulbs.
The spacecraft doesn't even
have enough power
to run an electric motor
to point its radio antenna at Earth.
Instead, they have to rotate
the entire spacecraft
to communicate with home.
So, to point its cameras
and instruments at Pluto
will mean pointing
the whole spacecraft away from Earth...
cutting off all contact
with mission control.
We actually have to turn the spacecraft
to take measurements at Pluto.
(Jason) New Horizons
will be on its own during encounter.
If the flyby hits a problem,
the team won't know until it's too late.
New Horizons is closing in on Pluto.
A one-shot attempt to gather as much data
as possible of this unexplored world.
(Hal) After nine and a half years
of hurtling through space,
we're approaching Pluto
at 32,000 miles per hour,
and we're concentrating to get
our highest resolution images
and spectra of the surface.
(Jason) With less than 100 days to go
to closest approach,
New Horizons has returned
these new images,
the best ever so far.
But these pale in comparison
with what they hope to get
when they arrive.
Its seven instruments
will probe Pluto's features
including its polar caps,
atmosphere, and its weather.
Unlocking these secrets
may help us understand
the processes
Earth went through in its infancy.
A process that ultimately ended
with you and me.
Gathering all this data
isn't straightforward.
There isn't enough power
to run all the instruments at once.
The team must program
a flyby science sequence,
which tells New Horizons
which instrument to turn on and when
and beam it to the spacecraft in advance.
Even travelling at light speed,
it takes four and a half hours
for the signal to get there,
plus several days
for New Horizons to process it.
We have to tell the spacecraft
what to do days in advance.
We can't change New Horizons' plans
over a week before the encounter.
(Jason)
With the flyby science sequence locked,
the climax of this mission
comes down to timing.
Predicting the exact second New Horizons
will fly past tiny Pluto.
Scientist Marc Buie shows
just how difficult this is.
This car is New Horizons,
down in the distance
you can see another car. That's Pluto.
And the whole idea
is that we wanna take a picture
when we're absolutely
as close as possible.
(Gabe) There's nothing on board the
spacecraft that says I'm seeing something.
We sort of take the images in the blind.
(tense music playing)
You can say,
"All right, spacecraft, turn,"
and hope Pluto's in the frame.
If you've got the right timing,
it will be there.
If you don't have the right timing,
it's not gonna be there.
(Jason) Marc closes his eyes
and hopes for the best.
It's three...
two...
one.
And did we get it?
I missed it.
(Jason) The only way to predict
where Pluto will be at encounter
is to know Pluto's orbit precisely.
But incredibly, when New Horizons
left Earth nine and a half years ago...
the team lacked
that critical information and here's why.
It takes Pluto 248 years
to go around the sun once.
That's like in the whole history
of the United States.
It's never been in the same place twice.
Since its discovery,
Pluto has only travelled
a third of its orbit
and most of that data isn't very accurate.
This represents the sky.
The older data from 1930 to 1950
was less accurate.
1990, this is when we started
taking really good data.
What that means is that you could draw
another curve through here, say,
that might have a path
that looks a little bit like this.
Each one of these lines here
represents a different orbit.
(Jason) Each orbit puts Pluto
in a different position at encounter.
Each one around 62,000 miles apart.
As late as 2012,
two-thirds into the mission,
there is a chance New Horizons
could miss Pluto completely.
(Marc) After all that time planning,
building the spacecraft,
flying all the way across the solar system
to take pictures of empty sky.
(Jason) Marc knows he has to find
a solution and fast.
New Horizons has been in space
nine and a half years.
They think they'll hit their target.
But there's no guarantee they'll succeed.
That's because in 2012,
with New Horizons speeding through space
at almost a million miles a day.
Marc Buie realizes he doesn't know exactly
where Pluto will be at encounter.
(tense music playing)
I just finally got to the point
where in a science team meeting,
I stood up and said, "This is a problem."
(Jason)
With the entire mission in jeopardy,
Marc visits the Lowell Observatory...
where Tombaugh first discovered Pluto.
And incredibly, he stumbles
upon a stockpile of telescope images
of the night sky around Pluto.
Taken by astronomer Carl Lampland.
Photographed between 1930
and the early '50s.
(Marc) Here on the left,
we've got one of the two plates
that Tombaugh used
to actually discover Pluto.
But that's not enough
to pin down the orbit.
Then comes the Lampland plates,
zooming in, higher magnification,
higher precision,
but more importantly,
over 20 years of time
with nearly 1,000 measurements.
Who knows what he was trying to do,
but clearly, measuring the position
of Pluto was one of those things.
(Jason) Processing nearly a thousand
of Lampland's images
Marc creates the first ever movie
of Pluto's orbit.
Just visible as a tiny, faint dot
moving to the right of the bright star.
Yep, that little tiny dot is Pluto.
Incredibly, by tracking the dot precisely,
Marc's team can steer
New Horizons towards it
to within 8,000 miles of its surface.
He can now also predict
exactly where Pluto will be
on July 14, 2015,
at the moment of encounter.
I think there's just
such an amazing story,
but the data that Carl Lampland took
has been phenomenally important
for the mission.
(Jason) With New Horizons on track,
the mission suffers an unexpected blow.
The world's most elusive planet
suddenly becomes
the world's most contentious.
And finally it is official now.
Pluto is no longer a planet.
The International Astronomical Union
voted it out of the planet business...
(crowd) Pluto is a planet,
size doesn't matter.
I talked with a student just last week
who thought that this meant that Pluto
was kicked out of the solar system,
had been ejected.
- It's too small.
- Once a planet, always a planet.
Of course, it's not.
It's still in its orbit,
going the way it was before.
It's just been reclassified.
The word planet is strictly defined
to be a body rounded...
(Jason) In fact,
Pluto had been officially demoted
by the International Astronomical Union.
Those in favor of resolution one.
Those opposed.
Pluto forever!
(Jason) The public was outraged.
School kids inundated TV scientist
Neil deGrasse Tyson with protest letters.
"Dear, Mr. Tyson, why do you think
Pluto is no longer a planet?
I do not like your answer.
(chuckles)
You are going to have to take
all of the books away and change them.
That's from Emerson", aged nine.
In America's most popular television show
The Big Bang Theory,
the writers tapped into this rich vein
of popular discontent.
...Hayden Planetarium in New York.
I'm quite familiar with Dr. Tyson.
He's responsible for the demotion
of Pluto from planetary status.
I liked Pluto.
Ergo, I do not like you.
But I actually didn't demote Pluto,
that was a vote
of the International Astronomical Union.
If ifs and buts were candy and nuts,
we'd all have a merry Christmas.
Think about that, Dr. Tyson.
So, what's the problem with Pluto?
Why isn't it a planet?
What exactly is a planet?
It's gotta be round, right?
(upbeat music playing)
The body needs to be round
because of its size or its self-gravity.
Big enough to pull itself together,
have enough gravity,
have enough mass to make it round.
Otherwise, it really is just a chunk.
It makes sense.
Presumably it goes around the sun, right?
A planet is an object that orbits the sun.
Got it. Anything else?
There's primary planets,
so the Earth, Jupiter, and Pluto.
Then there are secondary planets.
The moon is a secondary planet
because it orbits a primary planet.
And you could have tertiary planets,
terrestrial planets,
gas planets, icy planets...
Stop, stop, stop.
All right, guys, most of the scientists
seem to think Pluto's a planet,
so, what's up?
It seems it wasn't Pluto itself
that was the problem.
But that Pluto was no longer alone.
Astronomers had found
another tiny object out near Pluto.
Then others and yet more.
Over 1,000 planet-like objects,
some as big as Pluto.
They called this new region
the Kuiper Belt...
a massive constellation of space rocks
and ice orbiting the sun.
You see,
when they discovered the Kuiper Belt,
there were potentially thousands
of new Pluto-sized planets.
And they'd all need names.
Their reaction was,
"Well, we can't have too many planets
because school children will never
remember the names of them."
Really?
I thought to myself, "Do we have to limit
the number of stars while we're at it?"
(indistinct dialogue)
It will be disastrous for astronomy
if we come away
from the general assembly with nothing.
We will be regarded as complete idiots.
(Jason) They decided to call the biggest
objects in this Kuiper Belt dwarf planets
and that included Pluto.
So, now we have Pluto
and the 7,000 dwarves.
The thing about planets
is that it's not their size that matters,
but what they can tell us
about our origins.
And the Kuiper Belt discovery
only made New Horizons' mission
to Pluto more important.
These rocks are the relics
left over from the formation
of the solar system.
And they may help us to understand
how planets form, including our Earth.
(Hal) Pluto is a fossil.
It's really gonna help us to understand
exactly what was going on
during those early years
when the Earth was forming
and all of the other planets.
(Jason) But getting close to
all this stuff poses a big problem.
There could be debris floating around
that could destroy the spacecraft.
The New Horizons team
is guiding the spacecraft
towards Pluto and
its moons in the final stage
of this historic flyby attempt.
We're on the brink
of profound discoveries about Pluto
and what it could tell us
about our origins.
If successful, New Horizons
could revolutionize our understanding
of how our own planet formed.
The latest images from New Horizons
reveal the hazards
that could be lying in its path.
Seen here, Pluto is surrounded
by its five moons,
Charon and four smaller objects.
Analysis suggests
these small objects aren't round
but misshapen chunks of rock...
tumbling erratically
in orbits around Pluto.
The team believes
that Charon and the smaller moons
could be leftover from collisions
early in Pluto's history.
We think that they share the same origins,
that there was some kind
of a giant impact early in their history.
Two objects collide and
leave two bodies orbiting each other.
(tense music playing)
(Jason) If New Horizons can get
close enough to study these objects,
they might prove how Pluto
and its collection of moons formed.
And that could help explain
how our own Earth and moon formed.
Kevin Walsh thinks that modern ballistics
can explain what they think happened.
The first requirement is high speed.
The speed of a bullet.
(gunshot)
The target is Pluto.
The bullet is a giant space rock.
(Kevin) When the bullet leaves the muzzle,
it's travelling at about
a kilometer per second.
It's actually built a moon
and would have involved an impact
between those two bodies
about the same velocity.
(gunshot)
(Jason) New Horizons team think
that big pieces of rock impacted Pluto
billions of years ago,
bounced off
and got caught in Pluto's gravity,
creating its moons.
(Kevin) If it hit just the right angle,
it'll slow down that impactor enough
that it can remain bound around Pluto
and you can form a moon then around Pluto
because you've captured that impactor.
(Jason) If this is how Pluto
and its moons were formed,
the evidence should be written
on their surfaces.
But getting New Horizons close enough
to see this is extremely hazardous.
(gunshots)
Any collision
at a kilometer per second or faster
is not gonna be clean,
it's gonna be really dirty.
There's gonna be a lot
of debris thrown everywhere.
(Jason) Clouds of ancient shrapnel
could be lying
right in New Horizons' path.
Even though it's orbiting
at a really low velocity,
the spacecraft itself will be coming in
at a very high velocity.
(gunshot)
Ten times the speed of a bullet
leaving this gun.
(Jason) And it won't take much
to destroy the spacecraft.
If New Horizons is impacted
by something this size,
it could pass through the spacecraft.
(Alan) And once it does,
it's quite likely to cut a fuel line
or get into the main computer
and hurt a circuit board
or damage a scientific instrument.
If we fly through shrapnel like that,
uh, it'll be bad for New Horizons.
It could be catastrophic.
(Jason) The team need
to guide New Horizons
close enough to Pluto
and its moons to study them...
while keeping a safe distance
from debris and shrapnel.
Speeding towards Pluto
at a million miles a day...
there is little time left
to correct its course.
(Gabe) Once we're past
that last trajectory control maneuver,
we really can't do anything,
we just have to hope
that space is very big
and we're very small
and we just don't run into anything.
You cross your fingers and hope.
(Jason) Nine and a half years in space,
journeying over 3 billion miles...
right now this $700 million spacecraft
is on the cusp of revealing
the most detailed images
of Pluto ever taken.
The New Horizons team is downloading
the latest images from the spacecraft.
This is their first proper look
at the landscape
they will fly over
during closest approach.
Analysis suggests there are polar caps,
perhaps a mountain range
and there could even be evidence
of an impact crater.
But for the ultimate proof of Pluto,
they must wait just a little longer.
(tense music playing)
(Alan) We're almost there to get
what we did all this for.
We're on the heels of discovery.
(Jason) The final sequence
has been sent to the spacecraft.
It's locked and loaded.
(Gabe) It's very tense.
The scientists are very excited,
the planning teams are very anxious.
We've got one shot to get this right
and we've never done this before.
(Alan)
You can feel the energy in the team.
When you put that much time
and effort into a project,
you're pretty excited
when you're on Pluto's doorstep.
(Jason) Guiding New Horizons
between Pluto and its moons,
small pieces of shrapnel
could be the only thing
that now stands in their way.
With the spacecraft flying towards them
at over 30,000 miles per hour.
Even a one millimeter particle
will blow a hole,
blast a hole through the spacecraft.
There's basically no good place
to hit New Horizons.
(Jason) But Hal Weaver believes
they might have come up with a solution...
using the radio antenna
as a shield.
(Hal) The benefit of having
this large dish antenna
pointing in this direction,
this is the direction
of the spacecraft's motion.
So the particles will
hit the antenna at the front here
without really hurting
the function of the antenna,
but protecting what's underneath.
(Jason) With the antenna
absorbing the energy of any impact,
it should survive.
All they can do now is wait
for news of the fly-past.
(indistinct conversation)
On July 14th at 03:15 Universal Time,
New Horizons starts
its programed maneuvers.
Operating on its own, it turns away
from Earth and towards Pluto.
Cutting all communications
with mission control.
Then New Horizons' onboard computer
focuses on gathering the core science.
It begins scanning, sampling
and photographing this alien place.
It's at its closest to Pluto at 11:50,
less than 8,000 miles from its surface.
A life's work, a $700 million spacecraft,
nine and a half years in space.
Success rests on a fleeting encounter
with the last unexplored world
of the solar system.
If New Horizons succeeds,
it will stream its data back to Earth,
revealing Pluto's secrets
for the very first time.
The long wait for answers is almost over.
(Hal) When we get that data
that tells us everything is cool...
it'll just be jubilation.
It's like opening night
at a Broadway play. It's showtime!
(siren wailing)
When that data comes back,
one of the most incredible journeys
in the history of human exploration
will be complete.
From the Earth to the last planet
in the solar system,
3.6 billion miles.
It's been 85 years since Clyde Tombaugh
first spotted that tiny elusive dot
in his telescope.
Clyde never lived
to see New Horizons lift off.
But his ashes are on that spacecraft
as it flies past Pluto.
You gotta love the sentiment of that.
To send a man to meet his own discovery
and what a discovery!
(dramatic music playing)
For the nine years, nine and a half years,
that New Horizons has been on its way,
we've been wondering what is Pluto like.
And we're gonna finally see it.
We're finally gonna get those pictures.
(Jason) They could reveal what
it's like to stand on Pluto's surface
or experience its weather.
I'm gonna be excited
no matter what we find on Pluto.
(Jason) Pluto might even shed light
on the origins of our own planet
and possibly the entire solar system.
Now at last we're about to find out.
(Alan) When we started, the question
that we posed to everybody was,
"What would we find there?"
There were many detailed
scientific predictions.
Mine was a little different.
It just says
that we'll find something wonderful.
(theme music playing)
(Jason) Nine and a half years ago,
a spacecraft called New Horizons
set off on a mission to Pluto.
Now it's about to arrive.
Right now the New Horizons spacecraft
is about to rendezvous
with a planet no bigger than Alaska.
Just 1,400 miles across.
The most ambitious space shot ever.
Pluto has always had the power to inspire.
From Walt Disney back in the '30s...
(clamoring)
...to an outraged public in the '90s.
But the truth is, Pluto is a place
we know so little about.
The big unanswered question about
Pluto is, what does it even look like?
(Jason) With inside access
to the New Horizons team
this is Pluto
like you've never seen it before.
Nine and a half years in space
and it all comes down
to one intense, nerve-wracking day.
It's showtime.
(theme music playing)
(Jason) Humans are movers.
We're a relentlessly restless species,
natural migrants, wanderers,
adventurers, explorers.
Always have been.
We have this insatiable restlessness.
In the space
of a few hundred thousand years,
we left Africa, crossed oceans,
reached every part of our world.
And now?
Now we go to other worlds.
We've been to Mars, Jupiter, and Mercury.
We've seen Saturn, Neptune,
Uranus, and Venus.
And Pluto is so much more
than the name of a cartoon dog.
It's the last unexplored world
of the solar system.
A potential goldmine of discovery.
Perhaps the key to understanding
the origins of our own planet.
And right now,
NASA spacecraft New Horizons
is about to open up that world to us
for the first time.
Oh, my God,
oh, my God, oh, my God.
(Jason) New Horizons has even made it
to the world's favorite geek show.
I'm worried about
the New Horizons space probe.
I get to see him flip out
because he's worried
it was demolished by space ice.
Space ice is no joke.
I can't even watch Frozen anymore.
(Jason) We'll soon know if this
audacious mission has succeeded.
The New Horizons team
is made up of some of the world's
most elite space scientists.
Hal Weaver, project scientist.
To see the face of Pluto
is gonna be astounding.
(Jason) Fran Bagenal,
plasma and particles team.
We have only a very, very
fuzzy glimpse of Pluto right now.
(Jason) Gabe Rogers, guidance team.
It's a once-in-a-lifetime opportunity.
(Jason) Amanda Zangari,
geology and geophysics team.
I still don't believe it's real.
(Jason) Mission leader Alan Stern
has devoted 26 years to this project.
(Alan)You can feel the energy
in the team.
We're almost there
to get what we did all this for.
(Jason) New Horizons blasted off
on its epic voyage in 2006.
The same year that Twitter began.
It was the fastest manmade object
ever to leave the Earth.
A year later,
it whizzed past Jupiter
just as the first iPhone was launched.
The team used the opportunity
to test New Horizons' cameras
on Jupiter and her moons,
grabbing some of the best pictures ever
of a volcano erupting in space.
All through '08 and '09,
it sped silently through empty space
as the world descended
into financial chaos.
On and on towards tiny Pluto
over 3 billion miles away.
A 1,000 pound masterpiece
of engineering the size of a grand piano,
hurtling through the outer solar system
at ten times the speed of a bullet.
At 9 miles per second,
it's moving so fast
that when it gets to Pluto, it can't land.
During encounter, it will attempt
to swoop over the surface,
taking the critical photographs
and measurements in less than two hours.
The encounter is so fleeting,
mission control must guide
the spacecraft minute by minute...
This is the expected error bar
from heaven.
(Jason) ...to put it exactly
where it needs to be.
(Gabe)We're trying to basically
figure out exactly
where the spacecraft
is with respect to Pluto.
So, that's what we're doing right now
um, up on the spacecraft.
(Jason) They're getting New Horizons
to beam back pictures of Pluto
against the surrounding stars,
which they use to build
the road map in space.
Just like the old sailors did
back in the day with the sextant,
they knew where certain stars
were at certain times of the day,
therefore they knew
where they were on the planet.
Where Pluto is
with respect to those stars,
we're able to determine
where the spacecraft is
with respect to Pluto.
We're getting there, you know,
almost a million miles a day,
so we're coming up on the planet fast.
(Jason) We should at last see
what Pluto really looks like.
But until ten weeks ago,
we had no idea,
even with the world's finest
space telescope, Hubble.
I'm gonna show you the best images
that we have of Pluto now.
Can you bring that up for a second?
And here you see the best images
we've ever done of Pluto.
Just a pixelated mess.
Taken with the Hubble space telescope.
That's it from Hubble,
the most powerful telescope we have?
You would love to see
a more detailed picture,
all of us would,
but the problem is Pluto
is just so far away.
(Jason) But even in this fuzzy blob,
there are tantalizing clues,
if you look hard enough.
Analyzing it in different
wavelengths of light
reveals traces of nitrogen,
methane and carbon monoxide.
And because Pluto is so far from the sun,
it has to be one of the most frigid places
in the solar system.
On Pluto, it's about
negative 390 degrees Fahrenheit.
(Jason) Gases on Earth
would freeze solid on Pluto.
Planetary scientist, Cathy Olkin,
imagines what it would be like
to stand on Pluto.
If we were walking on Pluto,
you would see rocks and ice,
but the ice would be very different.
It's not water ice like we see here.
It's nitrogen ice and carbon monoxide ice
and methane ice.
(Jason) But scientists also think
that where the weak sun
hits the surface of Pluto,
some of the ice could get heated,
turning directly into gas.
Pluto could be a mountainous world
of exotic ice and primordial rock.
Gases spewing out of its surface.
It may look similar
to how liquid nitrogen evaporates here.
(Cathy) On Pluto,
I think the sunlight warms the ice
and that ice goes up into the atmosphere.
It's transported by winds to places
on Pluto where it's colder...
and there it will condense,
perhaps even forming clouds
and then you could be seeing snow or frost
falling and condensing onto the surface.
So we believe that Pluto has weather.
(dramatic music playing)
(Jason) Hubble also reveals
that Pluto has moons.
Its largest, named Charon,
is half Pluto's size.
They both dance around each other
unlike any other planetary body
in the solar system.
Understanding this might reveal
how Pluto was formed
and that could tell us
how the Earth was formed,
which is what led to you and me.
(Marc) We've got a real mystery
on our hands
with this planet-moon system.
You have to wonder, how did it get there?
Pluto is a very primordial object.
It's been out in a deep freeze.
You can think of it as,
uh, a storage area, your attic,
of some of the building blocks
of our solar system.
Pluto is potentially a goldmine
for teaching us about the formation
of even larger planets like the Earth.
(Jason)
That's why they had to go to Pluto.
Sounds easy. Just go, right?
Like, from here to there.
But going to Pluto meant reaching further
than we've ever attempted before.
Over three and a half billion miles away,
25 times further than Mars.
And yet finally,
after nine and a half years in space,
New Horizons has Pluto in its sights.
This is now the most dangerous phase
of the mission.
Where a single grain of dust
could take out the spacecraft.
If you've seen me on shows
like Brain Games...
It just completely
short circuits your brain.
...you'll know how much I get fired up
by the wonders of the universe
and how the power of technology
can reveal them.
Well, this is one of those
moments in history
when all of those things come together
in a single, exhilarating adventure.
If the New Horizons mission is successful,
it will be the climax of a story
that goes back 85 years.
In 1930, American astronomer,
Clyde Tombaugh,
took two photographs through a telescope,
six days apart, of the night sky.
One of the dots moved.
It had to be a planet.
It was named Pluto
by a little girl in England
after the Roman God of the underworld.
Her grandfather was at Oxford,
and he passed on her suggestion
to friends in the States.
And then movie mogul
of the moment Walt Disney
picked up on America's
new-found planetary star
and named his cartoon dog Pluto.
Pluto, how would you like them?
Do you like them hot?
Yeah. Yeah, yeah, yeah.
Not the other way around
as a lot of people like me used to assume.
The public's love for the dog
went on for decades
while poor little Pluto the Planet
got sidelined.
Until Alan Stern came along.
You know, I grew up in the go-go time
of space exploration.
I was a little bitty boy
during the Apollo program.
(indistinct chatter on radio)
The technology of it,
the scientific discoveries,
and frankly the romance of the exploration
just swept me off my feet.
(indistinct chatter)
I got into the building
model rockets that fly...
(cheering)
...and had a lot of fun with that
for years.
(Jason) Alan watched the missions unfold
year after year, planet after planet.
(Alan) Things were evolving so rapidly,
I didn't even know
if I could get through school
in time to be a part of any of it
before we would explore
the whole solar system.
(Jason) He needn't have worried,
there was still Pluto,
the planet no one thought worth a mission
because it was so small and so far away.
But in Alan's mind,
they were saving the best for last.
Pluto is something that packs
more scientific punch, I believe,
than any other planet in the solar system.
(Jason) And finally the kid who dreamed
of joining the space race
landed his dream job.
(Alan) New Horizons is the capstone
to that era of exploration.
It is, in a real sense,
the last train to Clarksville.
The last Picture Show.
I don't think I would've believed it,
ha, ha,
that I would be lucky enough
to be in that position.
But standing here today,
for 15 years to pull this off,
um, it's a wonderful feeling for us.
(Jason) Alan will soon discover
if his life's work
has been worth the wait.
After nine and a half years in space,
New Horizons' mission to Pluto
comes down to an encounter
lasting less than two hours
controlled by a team here on Earth
over 3 billion miles away.
Pluto, 3.6 billion miles away.
Mind-bogglingly far.
How do you begin to get your head
around that kind of distance?
Okay, so let's shrink the solar system
down to the size of the US,
and imagine New York is the center.
Most New Yorkers
already think that anyway.
Here's the sun, sitting on Manhattan.
At that scale, the first planet, Mercury,
would be at Staten Island.
Venus is down the New Jersey turnpike
and the Earth would be around Trenton.
To get to Pluto, New Horizons has had to
cross the orbits of all the other planets.
Mars, Jupiter, Saturn, Uranus, Neptune.
And Pluto is right on the other side
of the country in LA,
40 times further from the sun
than the Earth is.
But that's only some of the time.
And that's because of the weird shape
of Pluto's orbit.
See, if the sun is here
and the Earth is here,
Pluto's orbit is kinda like that.
Right? It puts Pluto
at 3 billion miles away at its closest...
but 5 billion miles at its farthest.
This elliptical orbit makes
a big, big difference.
Pluto was at its closest point
to us in 1989,
and since then
it's been getting further away.
2015 is our final opportunity
in a lifetime
to visit this last unexplored world.
An opportunity not to be missed.
The New Horizons mission
was greenlit in 2001.
That gave them 14 years from greenlight
to encounter with Pluto.
Sounds like plenty of time.
Not in the space business.
We had to launch New Horizons
in one three-week launch window,
barely four years
after winning the project.
(Jason) Four years to build a spacecraft,
that normally takes up to ten,
required some creative solutions.
(Chris) We had a very short time
to develop the spacecraft,
so a lot of the design had to be based
on technology that was available.
You don't wanna be
reinventing the wheel.
(Jason) The spacecraft
had to meet exacting standards.
Above all, it had to be light.
So Chris and his team designed
a lightweight triangular frame.
We cut the corners off of the spacecraft
in order to reduce the mass.
We chose to avoid mechanisms
because mechanisms
have a tendency to fail.
(Jason) It needed a reliable source
of power.
So, what about solar energy?
Pluto is so far from the sun
that they get about 1,000 times
less light than we get here on Earth.
To put that into perspective,
when I put on a pair of sunglasses,
I reduce sunlight by a fraction.
To reduce sunlight to the level
you'd have on Pluto,
you'd have to put on
ten pairs of sunglasses.
No way you can power
a spacecraft with that.
So New Horizons relies
on a plutonium-powered generator,
which brings its own problems.
The power supply gives off some radiation,
um, that could be bad for the electronics.
(Jason) So they had to keep
the power supply really, really low.
(Chris) So, this little power source,
well, it produces about 200 watts
of power at Pluto.
So, what does that mean, only 200 watts?
Enough to power a fridge?
Nope. A coffee machine?
Not a chance.
Right now New Horizons
is speeding through space,
running on just enough power
to run a couple of these light bulbs.
The spacecraft doesn't even
have enough power
to run an electric motor
to point its radio antenna at Earth.
Instead, they have to rotate
the entire spacecraft
to communicate with home.
So, to point its cameras
and instruments at Pluto
will mean pointing
the whole spacecraft away from Earth...
cutting off all contact
with mission control.
We actually have to turn the spacecraft
to take measurements at Pluto.
(Jason) New Horizons
will be on its own during encounter.
If the flyby hits a problem,
the team won't know until it's too late.
New Horizons is closing in on Pluto.
A one-shot attempt to gather as much data
as possible of this unexplored world.
(Hal) After nine and a half years
of hurtling through space,
we're approaching Pluto
at 32,000 miles per hour,
and we're concentrating to get
our highest resolution images
and spectra of the surface.
(Jason) With less than 100 days to go
to closest approach,
New Horizons has returned
these new images,
the best ever so far.
But these pale in comparison
with what they hope to get
when they arrive.
Its seven instruments
will probe Pluto's features
including its polar caps,
atmosphere, and its weather.
Unlocking these secrets
may help us understand
the processes
Earth went through in its infancy.
A process that ultimately ended
with you and me.
Gathering all this data
isn't straightforward.
There isn't enough power
to run all the instruments at once.
The team must program
a flyby science sequence,
which tells New Horizons
which instrument to turn on and when
and beam it to the spacecraft in advance.
Even travelling at light speed,
it takes four and a half hours
for the signal to get there,
plus several days
for New Horizons to process it.
We have to tell the spacecraft
what to do days in advance.
We can't change New Horizons' plans
over a week before the encounter.
(Jason)
With the flyby science sequence locked,
the climax of this mission
comes down to timing.
Predicting the exact second New Horizons
will fly past tiny Pluto.
Scientist Marc Buie shows
just how difficult this is.
This car is New Horizons,
down in the distance
you can see another car. That's Pluto.
And the whole idea
is that we wanna take a picture
when we're absolutely
as close as possible.
(Gabe) There's nothing on board the
spacecraft that says I'm seeing something.
We sort of take the images in the blind.
(tense music playing)
You can say,
"All right, spacecraft, turn,"
and hope Pluto's in the frame.
If you've got the right timing,
it will be there.
If you don't have the right timing,
it's not gonna be there.
(Jason) Marc closes his eyes
and hopes for the best.
It's three...
two...
one.
And did we get it?
I missed it.
(Jason) The only way to predict
where Pluto will be at encounter
is to know Pluto's orbit precisely.
But incredibly, when New Horizons
left Earth nine and a half years ago...
the team lacked
that critical information and here's why.
It takes Pluto 248 years
to go around the sun once.
That's like in the whole history
of the United States.
It's never been in the same place twice.
Since its discovery,
Pluto has only travelled
a third of its orbit
and most of that data isn't very accurate.
This represents the sky.
The older data from 1930 to 1950
was less accurate.
1990, this is when we started
taking really good data.
What that means is that you could draw
another curve through here, say,
that might have a path
that looks a little bit like this.
Each one of these lines here
represents a different orbit.
(Jason) Each orbit puts Pluto
in a different position at encounter.
Each one around 62,000 miles apart.
As late as 2012,
two-thirds into the mission,
there is a chance New Horizons
could miss Pluto completely.
(Marc) After all that time planning,
building the spacecraft,
flying all the way across the solar system
to take pictures of empty sky.
(Jason) Marc knows he has to find
a solution and fast.
New Horizons has been in space
nine and a half years.
They think they'll hit their target.
But there's no guarantee they'll succeed.
That's because in 2012,
with New Horizons speeding through space
at almost a million miles a day.
Marc Buie realizes he doesn't know exactly
where Pluto will be at encounter.
(tense music playing)
I just finally got to the point
where in a science team meeting,
I stood up and said, "This is a problem."
(Jason)
With the entire mission in jeopardy,
Marc visits the Lowell Observatory...
where Tombaugh first discovered Pluto.
And incredibly, he stumbles
upon a stockpile of telescope images
of the night sky around Pluto.
Taken by astronomer Carl Lampland.
Photographed between 1930
and the early '50s.
(Marc) Here on the left,
we've got one of the two plates
that Tombaugh used
to actually discover Pluto.
But that's not enough
to pin down the orbit.
Then comes the Lampland plates,
zooming in, higher magnification,
higher precision,
but more importantly,
over 20 years of time
with nearly 1,000 measurements.
Who knows what he was trying to do,
but clearly, measuring the position
of Pluto was one of those things.
(Jason) Processing nearly a thousand
of Lampland's images
Marc creates the first ever movie
of Pluto's orbit.
Just visible as a tiny, faint dot
moving to the right of the bright star.
Yep, that little tiny dot is Pluto.
Incredibly, by tracking the dot precisely,
Marc's team can steer
New Horizons towards it
to within 8,000 miles of its surface.
He can now also predict
exactly where Pluto will be
on July 14, 2015,
at the moment of encounter.
I think there's just
such an amazing story,
but the data that Carl Lampland took
has been phenomenally important
for the mission.
(Jason) With New Horizons on track,
the mission suffers an unexpected blow.
The world's most elusive planet
suddenly becomes
the world's most contentious.
And finally it is official now.
Pluto is no longer a planet.
The International Astronomical Union
voted it out of the planet business...
(crowd) Pluto is a planet,
size doesn't matter.
I talked with a student just last week
who thought that this meant that Pluto
was kicked out of the solar system,
had been ejected.
- It's too small.
- Once a planet, always a planet.
Of course, it's not.
It's still in its orbit,
going the way it was before.
It's just been reclassified.
The word planet is strictly defined
to be a body rounded...
(Jason) In fact,
Pluto had been officially demoted
by the International Astronomical Union.
Those in favor of resolution one.
Those opposed.
Pluto forever!
(Jason) The public was outraged.
School kids inundated TV scientist
Neil deGrasse Tyson with protest letters.
"Dear, Mr. Tyson, why do you think
Pluto is no longer a planet?
I do not like your answer.
(chuckles)
You are going to have to take
all of the books away and change them.
That's from Emerson", aged nine.
In America's most popular television show
The Big Bang Theory,
the writers tapped into this rich vein
of popular discontent.
...Hayden Planetarium in New York.
I'm quite familiar with Dr. Tyson.
He's responsible for the demotion
of Pluto from planetary status.
I liked Pluto.
Ergo, I do not like you.
But I actually didn't demote Pluto,
that was a vote
of the International Astronomical Union.
If ifs and buts were candy and nuts,
we'd all have a merry Christmas.
Think about that, Dr. Tyson.
So, what's the problem with Pluto?
Why isn't it a planet?
What exactly is a planet?
It's gotta be round, right?
(upbeat music playing)
The body needs to be round
because of its size or its self-gravity.
Big enough to pull itself together,
have enough gravity,
have enough mass to make it round.
Otherwise, it really is just a chunk.
It makes sense.
Presumably it goes around the sun, right?
A planet is an object that orbits the sun.
Got it. Anything else?
There's primary planets,
so the Earth, Jupiter, and Pluto.
Then there are secondary planets.
The moon is a secondary planet
because it orbits a primary planet.
And you could have tertiary planets,
terrestrial planets,
gas planets, icy planets...
Stop, stop, stop.
All right, guys, most of the scientists
seem to think Pluto's a planet,
so, what's up?
It seems it wasn't Pluto itself
that was the problem.
But that Pluto was no longer alone.
Astronomers had found
another tiny object out near Pluto.
Then others and yet more.
Over 1,000 planet-like objects,
some as big as Pluto.
They called this new region
the Kuiper Belt...
a massive constellation of space rocks
and ice orbiting the sun.
You see,
when they discovered the Kuiper Belt,
there were potentially thousands
of new Pluto-sized planets.
And they'd all need names.
Their reaction was,
"Well, we can't have too many planets
because school children will never
remember the names of them."
Really?
I thought to myself, "Do we have to limit
the number of stars while we're at it?"
(indistinct dialogue)
It will be disastrous for astronomy
if we come away
from the general assembly with nothing.
We will be regarded as complete idiots.
(Jason) They decided to call the biggest
objects in this Kuiper Belt dwarf planets
and that included Pluto.
So, now we have Pluto
and the 7,000 dwarves.
The thing about planets
is that it's not their size that matters,
but what they can tell us
about our origins.
And the Kuiper Belt discovery
only made New Horizons' mission
to Pluto more important.
These rocks are the relics
left over from the formation
of the solar system.
And they may help us to understand
how planets form, including our Earth.
(Hal) Pluto is a fossil.
It's really gonna help us to understand
exactly what was going on
during those early years
when the Earth was forming
and all of the other planets.
(Jason) But getting close to
all this stuff poses a big problem.
There could be debris floating around
that could destroy the spacecraft.
The New Horizons team
is guiding the spacecraft
towards Pluto and
its moons in the final stage
of this historic flyby attempt.
We're on the brink
of profound discoveries about Pluto
and what it could tell us
about our origins.
If successful, New Horizons
could revolutionize our understanding
of how our own planet formed.
The latest images from New Horizons
reveal the hazards
that could be lying in its path.
Seen here, Pluto is surrounded
by its five moons,
Charon and four smaller objects.
Analysis suggests
these small objects aren't round
but misshapen chunks of rock...
tumbling erratically
in orbits around Pluto.
The team believes
that Charon and the smaller moons
could be leftover from collisions
early in Pluto's history.
We think that they share the same origins,
that there was some kind
of a giant impact early in their history.
Two objects collide and
leave two bodies orbiting each other.
(tense music playing)
(Jason) If New Horizons can get
close enough to study these objects,
they might prove how Pluto
and its collection of moons formed.
And that could help explain
how our own Earth and moon formed.
Kevin Walsh thinks that modern ballistics
can explain what they think happened.
The first requirement is high speed.
The speed of a bullet.
(gunshot)
The target is Pluto.
The bullet is a giant space rock.
(Kevin) When the bullet leaves the muzzle,
it's travelling at about
a kilometer per second.
It's actually built a moon
and would have involved an impact
between those two bodies
about the same velocity.
(gunshot)
(Jason) New Horizons team think
that big pieces of rock impacted Pluto
billions of years ago,
bounced off
and got caught in Pluto's gravity,
creating its moons.
(Kevin) If it hit just the right angle,
it'll slow down that impactor enough
that it can remain bound around Pluto
and you can form a moon then around Pluto
because you've captured that impactor.
(Jason) If this is how Pluto
and its moons were formed,
the evidence should be written
on their surfaces.
But getting New Horizons close enough
to see this is extremely hazardous.
(gunshots)
Any collision
at a kilometer per second or faster
is not gonna be clean,
it's gonna be really dirty.
There's gonna be a lot
of debris thrown everywhere.
(Jason) Clouds of ancient shrapnel
could be lying
right in New Horizons' path.
Even though it's orbiting
at a really low velocity,
the spacecraft itself will be coming in
at a very high velocity.
(gunshot)
Ten times the speed of a bullet
leaving this gun.
(Jason) And it won't take much
to destroy the spacecraft.
If New Horizons is impacted
by something this size,
it could pass through the spacecraft.
(Alan) And once it does,
it's quite likely to cut a fuel line
or get into the main computer
and hurt a circuit board
or damage a scientific instrument.
If we fly through shrapnel like that,
uh, it'll be bad for New Horizons.
It could be catastrophic.
(Jason) The team need
to guide New Horizons
close enough to Pluto
and its moons to study them...
while keeping a safe distance
from debris and shrapnel.
Speeding towards Pluto
at a million miles a day...
there is little time left
to correct its course.
(Gabe) Once we're past
that last trajectory control maneuver,
we really can't do anything,
we just have to hope
that space is very big
and we're very small
and we just don't run into anything.
You cross your fingers and hope.
(Jason) Nine and a half years in space,
journeying over 3 billion miles...
right now this $700 million spacecraft
is on the cusp of revealing
the most detailed images
of Pluto ever taken.
The New Horizons team is downloading
the latest images from the spacecraft.
This is their first proper look
at the landscape
they will fly over
during closest approach.
Analysis suggests there are polar caps,
perhaps a mountain range
and there could even be evidence
of an impact crater.
But for the ultimate proof of Pluto,
they must wait just a little longer.
(tense music playing)
(Alan) We're almost there to get
what we did all this for.
We're on the heels of discovery.
(Jason) The final sequence
has been sent to the spacecraft.
It's locked and loaded.
(Gabe) It's very tense.
The scientists are very excited,
the planning teams are very anxious.
We've got one shot to get this right
and we've never done this before.
(Alan)
You can feel the energy in the team.
When you put that much time
and effort into a project,
you're pretty excited
when you're on Pluto's doorstep.
(Jason) Guiding New Horizons
between Pluto and its moons,
small pieces of shrapnel
could be the only thing
that now stands in their way.
With the spacecraft flying towards them
at over 30,000 miles per hour.
Even a one millimeter particle
will blow a hole,
blast a hole through the spacecraft.
There's basically no good place
to hit New Horizons.
(Jason) But Hal Weaver believes
they might have come up with a solution...
using the radio antenna
as a shield.
(Hal) The benefit of having
this large dish antenna
pointing in this direction,
this is the direction
of the spacecraft's motion.
So the particles will
hit the antenna at the front here
without really hurting
the function of the antenna,
but protecting what's underneath.
(Jason) With the antenna
absorbing the energy of any impact,
it should survive.
All they can do now is wait
for news of the fly-past.
(indistinct conversation)
On July 14th at 03:15 Universal Time,
New Horizons starts
its programed maneuvers.
Operating on its own, it turns away
from Earth and towards Pluto.
Cutting all communications
with mission control.
Then New Horizons' onboard computer
focuses on gathering the core science.
It begins scanning, sampling
and photographing this alien place.
It's at its closest to Pluto at 11:50,
less than 8,000 miles from its surface.
A life's work, a $700 million spacecraft,
nine and a half years in space.
Success rests on a fleeting encounter
with the last unexplored world
of the solar system.
If New Horizons succeeds,
it will stream its data back to Earth,
revealing Pluto's secrets
for the very first time.
The long wait for answers is almost over.
(Hal) When we get that data
that tells us everything is cool...
it'll just be jubilation.
It's like opening night
at a Broadway play. It's showtime!
(siren wailing)
When that data comes back,
one of the most incredible journeys
in the history of human exploration
will be complete.
From the Earth to the last planet
in the solar system,
3.6 billion miles.
It's been 85 years since Clyde Tombaugh
first spotted that tiny elusive dot
in his telescope.
Clyde never lived
to see New Horizons lift off.
But his ashes are on that spacecraft
as it flies past Pluto.
You gotta love the sentiment of that.
To send a man to meet his own discovery
and what a discovery!
(dramatic music playing)
For the nine years, nine and a half years,
that New Horizons has been on its way,
we've been wondering what is Pluto like.
And we're gonna finally see it.
We're finally gonna get those pictures.
(Jason) They could reveal what
it's like to stand on Pluto's surface
or experience its weather.
I'm gonna be excited
no matter what we find on Pluto.
(Jason) Pluto might even shed light
on the origins of our own planet
and possibly the entire solar system.
Now at last we're about to find out.
(Alan) When we started, the question
that we posed to everybody was,
"What would we find there?"
There were many detailed
scientific predictions.
Mine was a little different.
It just says
that we'll find something wonderful.
(theme music playing)