The Universe s05e08 Episode Script
Dark Future Of The Sun
In the beginning, There was darkness, And then, bang, giving birth To an endless, expanding Existence of time, Space and matter.
Every day, new discoveries Are unlocking the mysterious, The mind-blowing, The deadly secrets of a place We call the universe.
It's the apocalyptic finale Of our galactic neighborhood.
Probably the most dramatic Event in the entire history Of the solar system.
We've now uncovered Sizzling clues About our home star's Violent demise.
And the outcome Doesn't look good For planet earth.
You could experience Both death by fire And also death by ice.
New cutting-edge science Traces the real horrors Awaiting our planet As our sun unleashes Its final fury.
The kiss of death For everything.
The Universe - 5x08 September 23, 2010 our sun.
It's bathed us With light and energy For over 4.
5 billion years.
But like all things In the cosmos, Our nurturing star Will eventually die.
And earth could literally melt Into the sunset.
When the sun gets A hundred times brighter Than it is now, The entire surface of the earth Will be incinerated.
All the rock that composes The continents will melt And run into seas Of molten lava.
The earth will be uninhabitable.
The death of our sun Will have a profound effect On our cosmic world.
We rely on our home star, Located in the center Of our solar system.
Over one million earths Could easily fit Inside this gargantuan ball Of bubbling gas With core temperatures Reaching 30 million degrees Fahrenheit.
The sun is approximately So earth is not too hot Or too cold.
It's the perfect distance To sustain oceans Of liquid water And abundant life.
We're incredibly dependent On the sun's energy For our survival.
First and foremost, Plants utilize solar energy In photosynthesis So that they can grow.
And then, we use plants for food And so do other animals, And we eat those other animals.
We also use the fossil fuels From partially decayed plants.
Winds are also generated By the sun's heat.
We're using solar energy Everywhere.
All this life-giving Heat and light comes From the sun's core, A colossal nuclear reactor Comprised Of three-quarters hydrogen And the rest mostly helium With traces of heavier elements.
Here, hydrogen nuclei combine To form helium nuclei.
This process called fusion Gives off radiant energy.
This car is like A newly formed star Like the sun.
When a star like the sun Is born, it's born With a full tank of gas.
So if I fill this tank with gas, That's like the hydrogen Coming together gravitationally, Forming a hot, dense core.
That gas will later burn.
In the case of a star, Hydrogen will fuse To form helium, Giving the star energy.
Just as in the case of the gas Burning in the car, That'll give the car energy With which to move.
Like an automobile, The sun will eventually Run out of fuel, And earth will be without This crucial power source.
The rate at which It's fusing hydrogen Into helium, It will someday simply run out Of hydrogen in its core.
We can see other similar stars That were born much earlier Than the sun, And they're now dying.
To track Our sun's dark future, We travel back in time To its beginning.
These exotic clouds of gas And dust are called nebulas.
They consist of the remnants Of dying stars.
But upon closer observation, They're actually Stellar nurseries Where stars like our sun Were born.
About 4 1/2 billion years ago In our galaxy, A giant cloud of gas and dust Gradually was pulled together By gravity.
And as gravity caused that cloud To collapse, A lot of energy was released, It heated up And finally, in the center, Nuclear reaction Started changing hydrogen Into helium And a new star was born.
The remaining Stellar material swirled Around the newborn sun.
It collided and coalesced, Eventually sculpting The eight planets In our solar system Including earth.
When that happened, A stellar wind turned on And cleared out All the extra material Leaving the planets That we have today And additional bodies, Some of which collided or merged With the other planets.
Among the billions of points Of light in the universe, Our sun is an average star.
There are stars And contrary to its appearance, The true color of the sun Differs from what we see When it rises and sets.
The sun Is actually a white star, Not a yellow star.
It's white like this car.
Now, it's true that the peak Of its spectrum Is sort of in the yellow region, But it also emits Some blue light and green light, And orange and red.
And all those colors together Are perceived by our retina And our brain As the color white.
Our sun has a lot in common With humans.
When it was young, It was extremely active And often unpredictable.
What we found Was really very surprising.
We found that stars Like the sun, When they're very young, Are rotating much, much faster Than today.
If you can imagine something As big as the sun Just whipping around In one day or even less, That was a very different kind Of sun.
It's having all kinds Of eruptions That blasted particles Through space That hit the earth.
Right now, our sun Is middle-aged And has settled into a quieter, Regular schedule.
But it's still generating A lot of energy.
The sun, right now, is about It's slightly under half Of its total Anticipated lifetime.
So it's kind of like this car With a little bit more than half Of its tank still full.
The sun now is burning fuel That is, fusing hydrogen To helium At a steady but ferocious rate.
It's like a 90 billion Megaton bomb Going off every second.
It's just an incredible amount Of power.
On earth, We're actually only receiving About one 2-billionth Of the energy That's being produced At the sun.
Now, on a daily basis, That's enough energy to power About 29 million billion For one hour.
The amount of energy Being generated In the interior of the sun Is just enormous.
Our sun will continue To churn out energy Over its entire lifetime, Which is estimated To be around 12 billion years.
In the 1990s, scientists Confirmed its age And when it will die By measuring its brightness And original mass As well as analyzing Its sound waves.
Light doesn't penetrate The sun.
It's opaque.
That sounds strange Because light comes From the sun, But light can't pass through it.
So until recently, There was no way To probe the deep interior Of the sun.
There's a science Now called helioseismology That uses sound waves To actually probe The interior structure Of the sun.
And so we have A very good knowledge Of what the interior structure Of the star looks like, And that's allowed us To constrain and confirm The models of the sun's age And its evolution.
Strangely, our sun Is now 30% brighter Than it was at birth.
As it ages, It will gradually grow Even brighter and more powerful.
Our climate is very sensitive To the energy from the sun.
So if you're worried About global warming, You worry about what humans Are doing to the atmosphere, But you also need to know What the sun is doing To the atmosphere.
The most recent estimate says That maybe 20% Of all the warming That's happening, The global warming, Is due to the sun.
In one-billion years, Our star's luminosity Will be 10% greater And temperatures on our planet Will be 100 degrees hotter.
The moisture in the air Is very good at trapping Infrared radiation or heat.
And so it's sort of like Putting a blanket on the earth.
Now, here is the bad part.
As the earth warms up, The oceans evaporate even more, We trap more heat And so the earth warms up more.
And when the earth Warms up more, again, We trap even more heat And the effect can run away.
It's what we call The greenhouse effect.
With this surge of heat Due to the runaway Greenhouse effect, Life on earth will be in peril.
Whole societies will need To retreat To underground shelters During the day, Then emerge at night When the temperature cool down.
But as the thermometer Continues to climb, There eventually will be nowhere To run or hide.
We know how that story ends.
It's called the planet Venus.
If you think about it, Venus is only about 30% closer To the sun than the earth is, But it's way, way, way hotter, We don't quite have The technology That would allow us To survive on the surface Of Venus, But we could imagine What would be required, Insulating yourself From the heat.
So it would be a challenge.
In 3 billion years, Our sun's brightness Will increase 40%.
By this time, Oceans will have boiled off.
Earth will have become A global desert.
The sun will have used up About three-quarters Of the hydrogen in its core Fused to helium, Like this car Is three-quarters empty.
By this time, The sun will be brighter Than it is now and bigger.
So earth will be hotter.
It won't be a nice place To live at that time.
And the solar nightmare Is far from over.
As the sun nears Its ten billionth birthday And beyond, The most drastic changes Will occur.
If human-type civilizations Are still around, What will be the options For survival When our sun eventually fills The entire horizon? It's a foregone conclusion When the sun Is about 10 billion years old, It will run out of hydrogen fuel In its core.
It's the beginning of the end For our star, And it won't die peacefully.
As for earth, global warming Or other cataclysms Could snuff out Every living thing In a mere 1 billion years.
But if human descendants Somehow manage to survive Until then, they could face A living hell.
When the sun burns Through all of its hydrogen At its core, It will eventually start Contracting on itself, Because it's no longer burning Through the hydrogen, Fusing it together, Creating this radiation pressure Outwards to balance The gravitational pull inwards.
While hydrogen fusion Will stop in the core, It will continue to fuse At a faster rate in the Shell Surrounding the core.
The extra energy Will expand the outer layers Of the sun.
That'll mean that the sun Will grow much more powerful, Much more luminous, Because the hydrogen Shell Will be fusing While the core is contracting At a greater rate Than it normally would.
All the pressure from the energy Generated in this Hydrogen-fusing Shell Will cause the outer parts Of the sun to expand, Making it into a red giant.
A red giant is a star That has exhausted The primary reservoir Of hydrogen fuel at its core, Leaving behind a buildup Of the heavier, denser helium.
An average-sized star Like our sun will spend The final 2 billion years Of its life as a red giant.
We call it a red giant Because as this Expansion happens, The surface area gets so great That it actually cools off And, in terms of temperature, Stars that are cooler Appear redder.
During the initial Red giant phase, Catastrophic changes will occur.
Our sun will swell To 20 to 30 times Its original size And become one-hundred times More luminous.
As our red giant sun expands, It will continue to vigorously Fuse hydrogen in the Shell Surrounding the inactive Helium core, Thus producing more helium In the core.
As that happens, The core of the sun Collapses further And gets hotter, And the sun gradually expands Over the course Of a couple of billion years.
Eventually, the core of the sun Is hot enough To ignite the helium.
You get what's called A helium flash.
It's like the stellar equivalent Of the big woof When you light a gas barbecue.
The ignited helium Will be hot enough To undergo fusion, Now creating carbon And oxygen in the core.
The dying sun Will be resuscitated With this new But temporary form of energy.
I'm stuck here in the desert, And I've run out of gas.
But, you know, I have a spare gallon here In the trunk, And if I pour this gas Into the gas tank, That'll allow the car To keep going For a while longer.
This is kinda similar To the sun.
During the red giant stage, It's gonna run out of hydrogen As fuel, But it'll have helium That can briefly, For a few tens of millions Of years, Fuse to carbon and oxygen, Providing a new source of energy That'll keep the sun going For a while longer.
At the end of the initial Red giant phase, The dying sun Will enter this stable Helium-burning phase.
It will become hotter Yet somewhat smaller.
But this is merely a lull Before the storm.
This is because the sun's Transition to a red giant Actually comes in two phases.
During the second phase, The helium will be exhausted In the core, Which will now consist Of carbon and oxygen.
The core will again start To contract and heat up.
But helium will still exist In the Shell, And it will continue to fuse, Forming more carbon and oxygen In the contracting core.
And all of this Will still be surrounded By the hydrogen Shell That's still fusing to helium.
When the sun Becomes a red giant, It will expand out And the first thing it'll do Is engulf the planet Mercury And eventually incinerate it, Evaporate it, eat it up.
Then it'll expand out to Venus.
After the helium Changing into carbon Uses up all of its energy, Then the core begins To shrink a second time, The outer part expands A second time, And it's not very stable.
During the second Red giant phase, The wild contraction And expansion Will make our sun pulsate Like a slow-beating heart.
The pulsations can occur Every few hundred Or thousand years.
And with each pulsation, Planetary pandemonium Will ensue.
Mercury and Venus are doomed.
They'll be engulfed By the red giant.
However, there's been Some debate In the scientific literature As to whether the earth Would actually be engulfed Or not.
The sun will be large enough To engulf the earth.
Earth's future is uncertain Because it lies On the borderline Between being engulfed And surviving.
But astronomers now have One possible sneak preview Of our planet's ultimate fate.
The infrared Optical telescope array Has captured close-up photos Of a death star, chi cygni, Which is approximately Chi cygni is near the end Of its red giant stage, When it's grown really big.
And in those last few Million years of existence, It starts pulsating.
It actually pulsates Every 400 years or so, Getting bigger and brighter And smaller and fainter.
If the massively bloated star Chi cygni were our sun, It would have consumed Every planet out to mars.
Earth and all its wondrous Forms of life Would have been melded With the materials Inside the dying star.
We obviously Haven't been around long enough, And will not be In our lifetimes, To understand exactly What's gonna happen When the sun dies.
So we need to look To other stars in order to see How that might work.
Observations Of other death stars Have offered a startling glimpse At our own sun's Long-term prognosis And what's in store for the rest Of the solar system.
Earth could be catapulted Into the fiery abyss.
However, Recent research indicates That with the right set Of cosmic conditions, A shockingly different fate May await our fragile planet.
All things must end.
In about 5 billion years, Our motherly sun Will stop nurturing Its planetary offspring.
As it begins An agonizing death March, It will expand 100-fold And devour the planets Mercury And then Venus.
Near the end Of its second red giant phase, The sun will contract and expand Several times.
With each pulsation, Our dying star Will become dangerously close To swallowing earth.
However, with the right set Of circumstances, Our planet could be spared.
There's a phenomenon called The solar wind That's continuously blowing, Lifting material From the outer layers Of the sun's atmosphere Out into interstellar space.
When the sun begins to expand Into the red giant phase, The outer layers Of its atmosphere Are even more loosely bound Than they are now.
And so the solar wind Will be much more prominent.
The data indicate That if the solar wind Blows off about 30% Of the sun's mass, Its gravitational pull Will weaken enough To allow earth To move sufficiently outward.
If the sun loses some Of its mass, Its gravity gets weaker And the earth's orbit Is gonna get bigger.
So if we're lucky, Our orbit will expand out enough That it will miss The expanding sun And we won't get incinerated.
But earth won't be Completely removed From harm's way.
While the sun might lose mass, It could also have A tidal interaction With our planet, And this could have Sizzling consequences.
There are at least two Competing effects.
Although as the sun ages, It's losing mass And that means That earth's orbit Gradually drifts away From the sun, It's also true that earth, Being pretty close To the surface of the sun, Will raise a tide, A bulge of gas on the sun.
And a gravitational interaction Between that bulge And the earth Will actually slow down The earth in its orbit, Causing the earth To gradually spiral in.
So maybe the loss of mass Will move us out Enough to be safe.
But maybe the tidal forces Will spiral us in enough That we'll be engulfed And the earth Will be incinerated.
And if you come back In 5 or 6 billion years, You'll know which one wins out.
Earth just might get lucky.
An international team Of astronomers Discovered a planet Outside our solar system That survived the death Of its home star.
The exoplanet Is at least three times As massive as Jupiter And orbits the star Dubbed 391 Pegasi, Which is about the same mass As our sun.
Some exoplanets Clearly do survive Through the red giant stage.
For example, That has an exoplanet around it, A planet orbiting it, And that planet is still there.
Now, it might have a rocky Earth-like core And perhaps even An iron central region, But we think it's mostly gaseous And liquid.
And its gas giant planet Have a similar orbital distance From each other As earth does from our sun, Which is about 90 million miles.
Astronomers think The exoplanet survived Because its death star Lost mass, which reduced Its gravitational pull On the planet, Just enough So that it drifted Slightly outward.
The planets around 391 Pegasi Is likely to be one Of these planets That sort of walked The knife edge Between spiraling outwards And being dragged in by tides.
But you would not expect To find a lot of planets In that particular range Of distances.
You would expect them To either be Completely swallowed Or have them be Much further out.
So it requires A somewhat delicate balance Of the two competing forces To actually enable a planet To survive at that sort Of location.
So there's one case In which the planet survived.
The bad news is that In this solar system, The planet is really big, Larger than Jupiter.
And so it probably Has a better chance of surviving Than a small planet Like the earth would.
It appears that stellar winds And thermal pulsations Produced by 391 Pegasi Pulled atmospheric material From the outer layers Of the exoplanet And hurled it into space.
However, The gas giant planet survived Because it could afford To lose a lot of mass.
We can speculate That it may have lost one Or more earth masses Of material.
And of course, if the earth lost That much material, It wouldn't be here.
Certainly, A Jupiter-sized planet, A gas giant isn't inhabitable By people.
But it's still intriguing That if the sun went To the red giant phase, It's possible that Jupiter Would survive.
The continued existence Of the gas giant planet Orbiting 391 Pegasi Doesn't provide Conclusive evidence One way or the other, Whether earth will survive The death of our sun.
But one thing seems certain.
Long before our sun Becomes a red giant, Our planet will no longer Be hospitable For earth-type life.
Any future civilizations Will need to relocate, And billions of years Before the impending inferno.
About a billion years From now, If viewers were around, I'd recommend That you move to mars.
Mars, instead of being too cool Like it is now, Would probably have a somewhat More favorable temperature.
If there is water underground In mars, And we don't really know one way Or the other for certain yet, Maybe you could use Some of that water And you might have A comfortable retirement On the planet mars.
But the move to mars Wouldn't be simple.
The red planet would be warmer Than it is today, But it would still be missing A few of life's necessities.
You have to create An atmosphere.
You have to have pretty High pressures In order to have molten water On the surface.
You need to somehow Generate oxygen.
Just because a planet or a moon Is in the habitable zone Doesn't mean That it's already habitable.
If you were A strategic planner, You would encourage The growth of plant life on mars A billion years in the future.
You would generate oxygen, And you'd make that planet More hospitable for us.
Perhaps, a little egotistically, We call that terraforming, That we could form Another planet In the shape of Terra Or the earth.
I hope we're here to do that.
Even if an advanced society Manages to colonize mars, This new home will be temporary.
The sun will continue To become bigger and bigger, Pushing the habitable zone Ever farther out.
During the red giant phase, Earthlings will have To move again, Perhaps to the water-rich moons Of Jupiter or Saturn, But with every new location, There will be more obstacles.
Near the end of the sun's Red giant stage, It will rapidly be growing Much brighter and much bigger So we'll need to move To the new habitable zone Much more frequently.
Another problem with moving To a new planet or a moon Is that it would be Very difficult and expensive To move all humans.
So whom do you choose? Just some elite subset Of society? That would create Great problems.
Instead of abandoning earth Before the sun becomes A red giant, Another alternative Might be to actually move The entire planet.
This may sound Like science fiction, But technologies Are already being considered That might rescue earth From the solar apocalypse.
Predictions About our sun's demise Are widely accepted.
In about 5 billion years, Our star will begin a long, Violent death.
As it mushrooms Into a red giant, It will vaporize Planets Mercury, Venus And most likely earth.
If human-type civilizations Still exist, They will have already relocated To the outer solar system.
And they may have even Hauled earth away with them.
The challenge will be finding The right cosmic moving van.
We might gradually Move the earth To a new habitable zone By, for example, Taking an asteroid And bringing it into an orbit So that it comes Reasonably close to the earth Every once in a while And gives it A gravitational tug outward.
Right now, scientists Are running computer simulations To test the feasibility Of actually moving earth Using manned or drone rockets.
In order to do that, We would either have to use Solar sails, perhaps, To direct this asteroid Into the correct place, Or maybe A fusion-powered rocket.
In a billion years We may have other technologies That, you know, Are much easier And who knows what we can do By then.
Researchers have determined That an asteroid Would need to be rounded up Every 6,000 years To keep nudging Our planet outward As our sun grows in brightness.
If it does that Very gradually, very steadily, But over millions of years, Then we will gradually Drift out, Keeping pace with the drifting Habitable zone.
Even if earth Could be re-orbited Beyond the danger zone, Its future remains bleak.
Near the end Of the second red giant phase, The unstable pulsations Of our sun will subside Because much Of its outer atmosphere Will be ejecting away.
However, this means its energy Will be rapidly depleting.
There won't be as much mass, As much gravity pushing down On the thin helium layer And compressing it, And it won't be as sensitive To the temperature.
At this stage, the sun Will actually become smaller And hotter and bluer, Not red and big and extended.
And so the nuclear Reaction rates are going down.
So eventually, when the star Has lost enough mass, Those reaction rates Basically die away.
So the star, In this case the sun, Will eventually run out of fuel And it will start to shrink.
Unlike other stars, Our dying sun will not go out With a bang When it runs out of fuel.
Some death stars Actually produce A supernova explosion, A burst of radiation That can temporarily outshine An entire galaxy.
But why won't our sun Have a spectacular Fireworks display Upon its death? That's what one viewer Wanted to ask the universe, So Leroy g.
From Newport, Rhode island, Texted us: Leroy, I'm sure glad the sun Won't explode as a supernova.
There's two reasons.
First, the sun Isn't massive enough To explode on its own.
Stars have to be 8 or 10 times The mass of the sun To explode on their own.
And second, the sun Doesn't have a companion star From which It could steal material, Grow in mass, And eventually become unstable And explode.
At the last stage Of our sun's life, Its outer atmosphere, A glowing sphere of gas Called a planetary nebula, Will have drifted away.
All that will remain Of our once powerful star Will be a glowing White-hot cinder Called a white dwarf.
It will be about the size Of the earth at that point, And it'll have about half Of its mass remaining.
That object still Has as much thermal energy As the entire sun did, But it's very small And doesn't radiate it Very effectively.
White dwarfs are small But extremely dense.
Imagine our white dwarf sun As small as the earth But with the same mass As a whole star.
If you were to take a chunk Of white dwarf material The same size as a cell phone, It would weigh Approximately the same As an elephant So it's very dense material Although this white dwarf size Is very small, relative To the sun as we know it today.
As a white dwarf, Our sun will slip Into retirement, Using up its life savings Of thermal energy For billions, Even trillions of years.
When it has become A white dwarf, It'll be like a car That's coasting.
It's run out of gas, But it's still moving Because it has energy of motion That's propelling it forward.
It's not generating Any new energy by burning fuel.
It'll be radiating away The stored energy In its hot interior, Energy that it had generated Through nuclear reactions When it was young and vibrant.
So it's like a car That's just going along Without any fuel, Until finally, eventually, Very slowly, it comes to a halt.
Anything left In the solar system After that transition To the white dwarf stage Would just gradually cool off.
It would remain in orbit Around the white dwarf.
The orbital decay times Are extremely long, And it would just stay there As a quiet, cold Orbiting body forever.
Our white dwarf sun Will become progressively cooler And dimmer.
Since it's no longer Generating energy, Everything in the solar system Will begin to freeze.
As the sun's vital signs Continue to dim, What will be the forecast For earth? In its death throes, Our aging sun will become Insufferably hot As a red giant And then unbearably cold As a white dwarf.
This could be the kiss of death For planet earth As it moves from the frying pan And into the frost.
By the time the sun Becomes a white dwarf, We can imagine That temperatures on earth, Depending on where it is In its orbit, Would drop significantly Fairly rapidly Because the white dwarf Is no longer producing energy Through fusion So it's not producing This energy to heat the earth.
We'll be fried to a crisp If we remain where we are During the red giant stage, But in a similar vein, We will go into a deep freeze If we remain where we are When the sun becomes A white dwarf.
Nevertheless, There will be some pockets Where life could continue To survive.
For example, in the liquid parts Deep in the oceans, It could survive.
At the outset, Humans could theoretically live In submarines, Near hot hydrothermal vents, While they dredge up The geothermal energy from deep Within the earth's core.
But after a million years, The oceans Would completely freeze And life would inevitably Perish.
After the sun becomes A white dwarf, It's just gonna cool and cool.
It's very much like a pot On the stove.
Once you turn off the burner, There's no more source Of energy, And so it just gradually Gets cooler and cooler And cooler.
If the earth manages to survive Until the sun is only A white dwarf star, It will hardly be getting Any energy at all.
I can say With absolute certainty That if you stick around Long enough, You could experience Both death by fire And also death by ice.
Without energy from our sun, All remaining life In our solar system Will disappear.
However, this disaster Could be preempted By accomplishing what so far Has been impossible to do Actually duplicating the sun's Hydrogen fusion Right here on earth.
Science has already been able To manufacture nuclear fission, Which involves the splitting Of atoms into lighter, Smaller nuclei.
This is the power that drives Our nuclear power plants And ignites nuclear weapons.
But nuclear fusion, Which occurs in the core Of the sun, Requires putting nuclei together To form a larger, Heavier nucleus.
And so far, this process Has not been achieved Here on earth.
The problem with recreating The sun's conditions Is essentially getting materials To the densities And temperatures that you have In the center of the sun.
The sun has its gravity To drive the pressures And densities up, So it can get These high reactions.
On earth, We don't have the luxury Of using the sun's gravity, So we have to find other ways To try and compress the material And generate The kinds of densities That you see.
At the Lawrence Livmore National laboratory In northern California, Scientists are taking on The challenge By attempting to create A miniature man-made star.
The experiment involves Aiming the world's Largest laser The size of three Football fields At a BB-sized target Filled with hydrogen fuel.
In an inertial confinement Experiment like the one At Lawrence Livermore, You start with a small pellet, Maybe a half an inch across, The core of which is made Of a solid material Containing lots of hydrogen To undergo fusion, The outside of which Has layers of different material That are engineered To produce a shock wave That will drive in And compress that core As much as possible.
The colossal laser will split Into 192 separate beams That will strike the pellet Housed inside a capsule.
When the fuel pellet's Shell Is struck by these High energy x-rays, It should implode And then ultimately produce Nuclear fusion in its core.
If we had controlled, Affordable nuclear fusion, It would change everything.
Many things about our lives Would change.
But most importantly, We wouldn't need The sun anymore.
We could produce energy, Heat, light on demand.
We could live anywhere In the cosmos With a supply of hydrogen And make our own energy.
We could fly to other planets Very quickly, In days instead of years.
You can extract All the water you need From practically any material That contains hydrogen And oxygen.
If there isn't enough Oxygen around, You could make some.
Generating reliable Nuclear fusion Could ultimately save earth And all forms of life By eliminating our dependence On the sun.
Yet the sun's own fate Is forever sealed.
As a white dwarf, It will become dimmer And cooler.
The star that once Provided energy To an entire solar system Will eventually fade from sight.
When the sun Eventually cools off so much, You won't even be able to see it With your eyes.
And so that's why some people Call it a black dwarf Or a dark star.
'll just be invisible, Sitting there in space Nearly forever.
Our solar system Cannot dodge its date With doom in 5 billion years.
But the death Of one planetary system Can spark the birth of another.
Our sun's nebula Will eventually blend together With other stellar material And spawn the next generation Of stars.
And one might even nurture Another vibrant planet like Earth.
Every day, new discoveries Are unlocking the mysterious, The mind-blowing, The deadly secrets of a place We call the universe.
It's the apocalyptic finale Of our galactic neighborhood.
Probably the most dramatic Event in the entire history Of the solar system.
We've now uncovered Sizzling clues About our home star's Violent demise.
And the outcome Doesn't look good For planet earth.
You could experience Both death by fire And also death by ice.
New cutting-edge science Traces the real horrors Awaiting our planet As our sun unleashes Its final fury.
The kiss of death For everything.
The Universe - 5x08 September 23, 2010 our sun.
It's bathed us With light and energy For over 4.
5 billion years.
But like all things In the cosmos, Our nurturing star Will eventually die.
And earth could literally melt Into the sunset.
When the sun gets A hundred times brighter Than it is now, The entire surface of the earth Will be incinerated.
All the rock that composes The continents will melt And run into seas Of molten lava.
The earth will be uninhabitable.
The death of our sun Will have a profound effect On our cosmic world.
We rely on our home star, Located in the center Of our solar system.
Over one million earths Could easily fit Inside this gargantuan ball Of bubbling gas With core temperatures Reaching 30 million degrees Fahrenheit.
The sun is approximately So earth is not too hot Or too cold.
It's the perfect distance To sustain oceans Of liquid water And abundant life.
We're incredibly dependent On the sun's energy For our survival.
First and foremost, Plants utilize solar energy In photosynthesis So that they can grow.
And then, we use plants for food And so do other animals, And we eat those other animals.
We also use the fossil fuels From partially decayed plants.
Winds are also generated By the sun's heat.
We're using solar energy Everywhere.
All this life-giving Heat and light comes From the sun's core, A colossal nuclear reactor Comprised Of three-quarters hydrogen And the rest mostly helium With traces of heavier elements.
Here, hydrogen nuclei combine To form helium nuclei.
This process called fusion Gives off radiant energy.
This car is like A newly formed star Like the sun.
When a star like the sun Is born, it's born With a full tank of gas.
So if I fill this tank with gas, That's like the hydrogen Coming together gravitationally, Forming a hot, dense core.
That gas will later burn.
In the case of a star, Hydrogen will fuse To form helium, Giving the star energy.
Just as in the case of the gas Burning in the car, That'll give the car energy With which to move.
Like an automobile, The sun will eventually Run out of fuel, And earth will be without This crucial power source.
The rate at which It's fusing hydrogen Into helium, It will someday simply run out Of hydrogen in its core.
We can see other similar stars That were born much earlier Than the sun, And they're now dying.
To track Our sun's dark future, We travel back in time To its beginning.
These exotic clouds of gas And dust are called nebulas.
They consist of the remnants Of dying stars.
But upon closer observation, They're actually Stellar nurseries Where stars like our sun Were born.
About 4 1/2 billion years ago In our galaxy, A giant cloud of gas and dust Gradually was pulled together By gravity.
And as gravity caused that cloud To collapse, A lot of energy was released, It heated up And finally, in the center, Nuclear reaction Started changing hydrogen Into helium And a new star was born.
The remaining Stellar material swirled Around the newborn sun.
It collided and coalesced, Eventually sculpting The eight planets In our solar system Including earth.
When that happened, A stellar wind turned on And cleared out All the extra material Leaving the planets That we have today And additional bodies, Some of which collided or merged With the other planets.
Among the billions of points Of light in the universe, Our sun is an average star.
There are stars And contrary to its appearance, The true color of the sun Differs from what we see When it rises and sets.
The sun Is actually a white star, Not a yellow star.
It's white like this car.
Now, it's true that the peak Of its spectrum Is sort of in the yellow region, But it also emits Some blue light and green light, And orange and red.
And all those colors together Are perceived by our retina And our brain As the color white.
Our sun has a lot in common With humans.
When it was young, It was extremely active And often unpredictable.
What we found Was really very surprising.
We found that stars Like the sun, When they're very young, Are rotating much, much faster Than today.
If you can imagine something As big as the sun Just whipping around In one day or even less, That was a very different kind Of sun.
It's having all kinds Of eruptions That blasted particles Through space That hit the earth.
Right now, our sun Is middle-aged And has settled into a quieter, Regular schedule.
But it's still generating A lot of energy.
The sun, right now, is about It's slightly under half Of its total Anticipated lifetime.
So it's kind of like this car With a little bit more than half Of its tank still full.
The sun now is burning fuel That is, fusing hydrogen To helium At a steady but ferocious rate.
It's like a 90 billion Megaton bomb Going off every second.
It's just an incredible amount Of power.
On earth, We're actually only receiving About one 2-billionth Of the energy That's being produced At the sun.
Now, on a daily basis, That's enough energy to power About 29 million billion For one hour.
The amount of energy Being generated In the interior of the sun Is just enormous.
Our sun will continue To churn out energy Over its entire lifetime, Which is estimated To be around 12 billion years.
In the 1990s, scientists Confirmed its age And when it will die By measuring its brightness And original mass As well as analyzing Its sound waves.
Light doesn't penetrate The sun.
It's opaque.
That sounds strange Because light comes From the sun, But light can't pass through it.
So until recently, There was no way To probe the deep interior Of the sun.
There's a science Now called helioseismology That uses sound waves To actually probe The interior structure Of the sun.
And so we have A very good knowledge Of what the interior structure Of the star looks like, And that's allowed us To constrain and confirm The models of the sun's age And its evolution.
Strangely, our sun Is now 30% brighter Than it was at birth.
As it ages, It will gradually grow Even brighter and more powerful.
Our climate is very sensitive To the energy from the sun.
So if you're worried About global warming, You worry about what humans Are doing to the atmosphere, But you also need to know What the sun is doing To the atmosphere.
The most recent estimate says That maybe 20% Of all the warming That's happening, The global warming, Is due to the sun.
In one-billion years, Our star's luminosity Will be 10% greater And temperatures on our planet Will be 100 degrees hotter.
The moisture in the air Is very good at trapping Infrared radiation or heat.
And so it's sort of like Putting a blanket on the earth.
Now, here is the bad part.
As the earth warms up, The oceans evaporate even more, We trap more heat And so the earth warms up more.
And when the earth Warms up more, again, We trap even more heat And the effect can run away.
It's what we call The greenhouse effect.
With this surge of heat Due to the runaway Greenhouse effect, Life on earth will be in peril.
Whole societies will need To retreat To underground shelters During the day, Then emerge at night When the temperature cool down.
But as the thermometer Continues to climb, There eventually will be nowhere To run or hide.
We know how that story ends.
It's called the planet Venus.
If you think about it, Venus is only about 30% closer To the sun than the earth is, But it's way, way, way hotter, We don't quite have The technology That would allow us To survive on the surface Of Venus, But we could imagine What would be required, Insulating yourself From the heat.
So it would be a challenge.
In 3 billion years, Our sun's brightness Will increase 40%.
By this time, Oceans will have boiled off.
Earth will have become A global desert.
The sun will have used up About three-quarters Of the hydrogen in its core Fused to helium, Like this car Is three-quarters empty.
By this time, The sun will be brighter Than it is now and bigger.
So earth will be hotter.
It won't be a nice place To live at that time.
And the solar nightmare Is far from over.
As the sun nears Its ten billionth birthday And beyond, The most drastic changes Will occur.
If human-type civilizations Are still around, What will be the options For survival When our sun eventually fills The entire horizon? It's a foregone conclusion When the sun Is about 10 billion years old, It will run out of hydrogen fuel In its core.
It's the beginning of the end For our star, And it won't die peacefully.
As for earth, global warming Or other cataclysms Could snuff out Every living thing In a mere 1 billion years.
But if human descendants Somehow manage to survive Until then, they could face A living hell.
When the sun burns Through all of its hydrogen At its core, It will eventually start Contracting on itself, Because it's no longer burning Through the hydrogen, Fusing it together, Creating this radiation pressure Outwards to balance The gravitational pull inwards.
While hydrogen fusion Will stop in the core, It will continue to fuse At a faster rate in the Shell Surrounding the core.
The extra energy Will expand the outer layers Of the sun.
That'll mean that the sun Will grow much more powerful, Much more luminous, Because the hydrogen Shell Will be fusing While the core is contracting At a greater rate Than it normally would.
All the pressure from the energy Generated in this Hydrogen-fusing Shell Will cause the outer parts Of the sun to expand, Making it into a red giant.
A red giant is a star That has exhausted The primary reservoir Of hydrogen fuel at its core, Leaving behind a buildup Of the heavier, denser helium.
An average-sized star Like our sun will spend The final 2 billion years Of its life as a red giant.
We call it a red giant Because as this Expansion happens, The surface area gets so great That it actually cools off And, in terms of temperature, Stars that are cooler Appear redder.
During the initial Red giant phase, Catastrophic changes will occur.
Our sun will swell To 20 to 30 times Its original size And become one-hundred times More luminous.
As our red giant sun expands, It will continue to vigorously Fuse hydrogen in the Shell Surrounding the inactive Helium core, Thus producing more helium In the core.
As that happens, The core of the sun Collapses further And gets hotter, And the sun gradually expands Over the course Of a couple of billion years.
Eventually, the core of the sun Is hot enough To ignite the helium.
You get what's called A helium flash.
It's like the stellar equivalent Of the big woof When you light a gas barbecue.
The ignited helium Will be hot enough To undergo fusion, Now creating carbon And oxygen in the core.
The dying sun Will be resuscitated With this new But temporary form of energy.
I'm stuck here in the desert, And I've run out of gas.
But, you know, I have a spare gallon here In the trunk, And if I pour this gas Into the gas tank, That'll allow the car To keep going For a while longer.
This is kinda similar To the sun.
During the red giant stage, It's gonna run out of hydrogen As fuel, But it'll have helium That can briefly, For a few tens of millions Of years, Fuse to carbon and oxygen, Providing a new source of energy That'll keep the sun going For a while longer.
At the end of the initial Red giant phase, The dying sun Will enter this stable Helium-burning phase.
It will become hotter Yet somewhat smaller.
But this is merely a lull Before the storm.
This is because the sun's Transition to a red giant Actually comes in two phases.
During the second phase, The helium will be exhausted In the core, Which will now consist Of carbon and oxygen.
The core will again start To contract and heat up.
But helium will still exist In the Shell, And it will continue to fuse, Forming more carbon and oxygen In the contracting core.
And all of this Will still be surrounded By the hydrogen Shell That's still fusing to helium.
When the sun Becomes a red giant, It will expand out And the first thing it'll do Is engulf the planet Mercury And eventually incinerate it, Evaporate it, eat it up.
Then it'll expand out to Venus.
After the helium Changing into carbon Uses up all of its energy, Then the core begins To shrink a second time, The outer part expands A second time, And it's not very stable.
During the second Red giant phase, The wild contraction And expansion Will make our sun pulsate Like a slow-beating heart.
The pulsations can occur Every few hundred Or thousand years.
And with each pulsation, Planetary pandemonium Will ensue.
Mercury and Venus are doomed.
They'll be engulfed By the red giant.
However, there's been Some debate In the scientific literature As to whether the earth Would actually be engulfed Or not.
The sun will be large enough To engulf the earth.
Earth's future is uncertain Because it lies On the borderline Between being engulfed And surviving.
But astronomers now have One possible sneak preview Of our planet's ultimate fate.
The infrared Optical telescope array Has captured close-up photos Of a death star, chi cygni, Which is approximately Chi cygni is near the end Of its red giant stage, When it's grown really big.
And in those last few Million years of existence, It starts pulsating.
It actually pulsates Every 400 years or so, Getting bigger and brighter And smaller and fainter.
If the massively bloated star Chi cygni were our sun, It would have consumed Every planet out to mars.
Earth and all its wondrous Forms of life Would have been melded With the materials Inside the dying star.
We obviously Haven't been around long enough, And will not be In our lifetimes, To understand exactly What's gonna happen When the sun dies.
So we need to look To other stars in order to see How that might work.
Observations Of other death stars Have offered a startling glimpse At our own sun's Long-term prognosis And what's in store for the rest Of the solar system.
Earth could be catapulted Into the fiery abyss.
However, Recent research indicates That with the right set Of cosmic conditions, A shockingly different fate May await our fragile planet.
All things must end.
In about 5 billion years, Our motherly sun Will stop nurturing Its planetary offspring.
As it begins An agonizing death March, It will expand 100-fold And devour the planets Mercury And then Venus.
Near the end Of its second red giant phase, The sun will contract and expand Several times.
With each pulsation, Our dying star Will become dangerously close To swallowing earth.
However, with the right set Of circumstances, Our planet could be spared.
There's a phenomenon called The solar wind That's continuously blowing, Lifting material From the outer layers Of the sun's atmosphere Out into interstellar space.
When the sun begins to expand Into the red giant phase, The outer layers Of its atmosphere Are even more loosely bound Than they are now.
And so the solar wind Will be much more prominent.
The data indicate That if the solar wind Blows off about 30% Of the sun's mass, Its gravitational pull Will weaken enough To allow earth To move sufficiently outward.
If the sun loses some Of its mass, Its gravity gets weaker And the earth's orbit Is gonna get bigger.
So if we're lucky, Our orbit will expand out enough That it will miss The expanding sun And we won't get incinerated.
But earth won't be Completely removed From harm's way.
While the sun might lose mass, It could also have A tidal interaction With our planet, And this could have Sizzling consequences.
There are at least two Competing effects.
Although as the sun ages, It's losing mass And that means That earth's orbit Gradually drifts away From the sun, It's also true that earth, Being pretty close To the surface of the sun, Will raise a tide, A bulge of gas on the sun.
And a gravitational interaction Between that bulge And the earth Will actually slow down The earth in its orbit, Causing the earth To gradually spiral in.
So maybe the loss of mass Will move us out Enough to be safe.
But maybe the tidal forces Will spiral us in enough That we'll be engulfed And the earth Will be incinerated.
And if you come back In 5 or 6 billion years, You'll know which one wins out.
Earth just might get lucky.
An international team Of astronomers Discovered a planet Outside our solar system That survived the death Of its home star.
The exoplanet Is at least three times As massive as Jupiter And orbits the star Dubbed 391 Pegasi, Which is about the same mass As our sun.
Some exoplanets Clearly do survive Through the red giant stage.
For example, That has an exoplanet around it, A planet orbiting it, And that planet is still there.
Now, it might have a rocky Earth-like core And perhaps even An iron central region, But we think it's mostly gaseous And liquid.
And its gas giant planet Have a similar orbital distance From each other As earth does from our sun, Which is about 90 million miles.
Astronomers think The exoplanet survived Because its death star Lost mass, which reduced Its gravitational pull On the planet, Just enough So that it drifted Slightly outward.
The planets around 391 Pegasi Is likely to be one Of these planets That sort of walked The knife edge Between spiraling outwards And being dragged in by tides.
But you would not expect To find a lot of planets In that particular range Of distances.
You would expect them To either be Completely swallowed Or have them be Much further out.
So it requires A somewhat delicate balance Of the two competing forces To actually enable a planet To survive at that sort Of location.
So there's one case In which the planet survived.
The bad news is that In this solar system, The planet is really big, Larger than Jupiter.
And so it probably Has a better chance of surviving Than a small planet Like the earth would.
It appears that stellar winds And thermal pulsations Produced by 391 Pegasi Pulled atmospheric material From the outer layers Of the exoplanet And hurled it into space.
However, The gas giant planet survived Because it could afford To lose a lot of mass.
We can speculate That it may have lost one Or more earth masses Of material.
And of course, if the earth lost That much material, It wouldn't be here.
Certainly, A Jupiter-sized planet, A gas giant isn't inhabitable By people.
But it's still intriguing That if the sun went To the red giant phase, It's possible that Jupiter Would survive.
The continued existence Of the gas giant planet Orbiting 391 Pegasi Doesn't provide Conclusive evidence One way or the other, Whether earth will survive The death of our sun.
But one thing seems certain.
Long before our sun Becomes a red giant, Our planet will no longer Be hospitable For earth-type life.
Any future civilizations Will need to relocate, And billions of years Before the impending inferno.
About a billion years From now, If viewers were around, I'd recommend That you move to mars.
Mars, instead of being too cool Like it is now, Would probably have a somewhat More favorable temperature.
If there is water underground In mars, And we don't really know one way Or the other for certain yet, Maybe you could use Some of that water And you might have A comfortable retirement On the planet mars.
But the move to mars Wouldn't be simple.
The red planet would be warmer Than it is today, But it would still be missing A few of life's necessities.
You have to create An atmosphere.
You have to have pretty High pressures In order to have molten water On the surface.
You need to somehow Generate oxygen.
Just because a planet or a moon Is in the habitable zone Doesn't mean That it's already habitable.
If you were A strategic planner, You would encourage The growth of plant life on mars A billion years in the future.
You would generate oxygen, And you'd make that planet More hospitable for us.
Perhaps, a little egotistically, We call that terraforming, That we could form Another planet In the shape of Terra Or the earth.
I hope we're here to do that.
Even if an advanced society Manages to colonize mars, This new home will be temporary.
The sun will continue To become bigger and bigger, Pushing the habitable zone Ever farther out.
During the red giant phase, Earthlings will have To move again, Perhaps to the water-rich moons Of Jupiter or Saturn, But with every new location, There will be more obstacles.
Near the end of the sun's Red giant stage, It will rapidly be growing Much brighter and much bigger So we'll need to move To the new habitable zone Much more frequently.
Another problem with moving To a new planet or a moon Is that it would be Very difficult and expensive To move all humans.
So whom do you choose? Just some elite subset Of society? That would create Great problems.
Instead of abandoning earth Before the sun becomes A red giant, Another alternative Might be to actually move The entire planet.
This may sound Like science fiction, But technologies Are already being considered That might rescue earth From the solar apocalypse.
Predictions About our sun's demise Are widely accepted.
In about 5 billion years, Our star will begin a long, Violent death.
As it mushrooms Into a red giant, It will vaporize Planets Mercury, Venus And most likely earth.
If human-type civilizations Still exist, They will have already relocated To the outer solar system.
And they may have even Hauled earth away with them.
The challenge will be finding The right cosmic moving van.
We might gradually Move the earth To a new habitable zone By, for example, Taking an asteroid And bringing it into an orbit So that it comes Reasonably close to the earth Every once in a while And gives it A gravitational tug outward.
Right now, scientists Are running computer simulations To test the feasibility Of actually moving earth Using manned or drone rockets.
In order to do that, We would either have to use Solar sails, perhaps, To direct this asteroid Into the correct place, Or maybe A fusion-powered rocket.
In a billion years We may have other technologies That, you know, Are much easier And who knows what we can do By then.
Researchers have determined That an asteroid Would need to be rounded up Every 6,000 years To keep nudging Our planet outward As our sun grows in brightness.
If it does that Very gradually, very steadily, But over millions of years, Then we will gradually Drift out, Keeping pace with the drifting Habitable zone.
Even if earth Could be re-orbited Beyond the danger zone, Its future remains bleak.
Near the end Of the second red giant phase, The unstable pulsations Of our sun will subside Because much Of its outer atmosphere Will be ejecting away.
However, this means its energy Will be rapidly depleting.
There won't be as much mass, As much gravity pushing down On the thin helium layer And compressing it, And it won't be as sensitive To the temperature.
At this stage, the sun Will actually become smaller And hotter and bluer, Not red and big and extended.
And so the nuclear Reaction rates are going down.
So eventually, when the star Has lost enough mass, Those reaction rates Basically die away.
So the star, In this case the sun, Will eventually run out of fuel And it will start to shrink.
Unlike other stars, Our dying sun will not go out With a bang When it runs out of fuel.
Some death stars Actually produce A supernova explosion, A burst of radiation That can temporarily outshine An entire galaxy.
But why won't our sun Have a spectacular Fireworks display Upon its death? That's what one viewer Wanted to ask the universe, So Leroy g.
From Newport, Rhode island, Texted us: Leroy, I'm sure glad the sun Won't explode as a supernova.
There's two reasons.
First, the sun Isn't massive enough To explode on its own.
Stars have to be 8 or 10 times The mass of the sun To explode on their own.
And second, the sun Doesn't have a companion star From which It could steal material, Grow in mass, And eventually become unstable And explode.
At the last stage Of our sun's life, Its outer atmosphere, A glowing sphere of gas Called a planetary nebula, Will have drifted away.
All that will remain Of our once powerful star Will be a glowing White-hot cinder Called a white dwarf.
It will be about the size Of the earth at that point, And it'll have about half Of its mass remaining.
That object still Has as much thermal energy As the entire sun did, But it's very small And doesn't radiate it Very effectively.
White dwarfs are small But extremely dense.
Imagine our white dwarf sun As small as the earth But with the same mass As a whole star.
If you were to take a chunk Of white dwarf material The same size as a cell phone, It would weigh Approximately the same As an elephant So it's very dense material Although this white dwarf size Is very small, relative To the sun as we know it today.
As a white dwarf, Our sun will slip Into retirement, Using up its life savings Of thermal energy For billions, Even trillions of years.
When it has become A white dwarf, It'll be like a car That's coasting.
It's run out of gas, But it's still moving Because it has energy of motion That's propelling it forward.
It's not generating Any new energy by burning fuel.
It'll be radiating away The stored energy In its hot interior, Energy that it had generated Through nuclear reactions When it was young and vibrant.
So it's like a car That's just going along Without any fuel, Until finally, eventually, Very slowly, it comes to a halt.
Anything left In the solar system After that transition To the white dwarf stage Would just gradually cool off.
It would remain in orbit Around the white dwarf.
The orbital decay times Are extremely long, And it would just stay there As a quiet, cold Orbiting body forever.
Our white dwarf sun Will become progressively cooler And dimmer.
Since it's no longer Generating energy, Everything in the solar system Will begin to freeze.
As the sun's vital signs Continue to dim, What will be the forecast For earth? In its death throes, Our aging sun will become Insufferably hot As a red giant And then unbearably cold As a white dwarf.
This could be the kiss of death For planet earth As it moves from the frying pan And into the frost.
By the time the sun Becomes a white dwarf, We can imagine That temperatures on earth, Depending on where it is In its orbit, Would drop significantly Fairly rapidly Because the white dwarf Is no longer producing energy Through fusion So it's not producing This energy to heat the earth.
We'll be fried to a crisp If we remain where we are During the red giant stage, But in a similar vein, We will go into a deep freeze If we remain where we are When the sun becomes A white dwarf.
Nevertheless, There will be some pockets Where life could continue To survive.
For example, in the liquid parts Deep in the oceans, It could survive.
At the outset, Humans could theoretically live In submarines, Near hot hydrothermal vents, While they dredge up The geothermal energy from deep Within the earth's core.
But after a million years, The oceans Would completely freeze And life would inevitably Perish.
After the sun becomes A white dwarf, It's just gonna cool and cool.
It's very much like a pot On the stove.
Once you turn off the burner, There's no more source Of energy, And so it just gradually Gets cooler and cooler And cooler.
If the earth manages to survive Until the sun is only A white dwarf star, It will hardly be getting Any energy at all.
I can say With absolute certainty That if you stick around Long enough, You could experience Both death by fire And also death by ice.
Without energy from our sun, All remaining life In our solar system Will disappear.
However, this disaster Could be preempted By accomplishing what so far Has been impossible to do Actually duplicating the sun's Hydrogen fusion Right here on earth.
Science has already been able To manufacture nuclear fission, Which involves the splitting Of atoms into lighter, Smaller nuclei.
This is the power that drives Our nuclear power plants And ignites nuclear weapons.
But nuclear fusion, Which occurs in the core Of the sun, Requires putting nuclei together To form a larger, Heavier nucleus.
And so far, this process Has not been achieved Here on earth.
The problem with recreating The sun's conditions Is essentially getting materials To the densities And temperatures that you have In the center of the sun.
The sun has its gravity To drive the pressures And densities up, So it can get These high reactions.
On earth, We don't have the luxury Of using the sun's gravity, So we have to find other ways To try and compress the material And generate The kinds of densities That you see.
At the Lawrence Livmore National laboratory In northern California, Scientists are taking on The challenge By attempting to create A miniature man-made star.
The experiment involves Aiming the world's Largest laser The size of three Football fields At a BB-sized target Filled with hydrogen fuel.
In an inertial confinement Experiment like the one At Lawrence Livermore, You start with a small pellet, Maybe a half an inch across, The core of which is made Of a solid material Containing lots of hydrogen To undergo fusion, The outside of which Has layers of different material That are engineered To produce a shock wave That will drive in And compress that core As much as possible.
The colossal laser will split Into 192 separate beams That will strike the pellet Housed inside a capsule.
When the fuel pellet's Shell Is struck by these High energy x-rays, It should implode And then ultimately produce Nuclear fusion in its core.
If we had controlled, Affordable nuclear fusion, It would change everything.
Many things about our lives Would change.
But most importantly, We wouldn't need The sun anymore.
We could produce energy, Heat, light on demand.
We could live anywhere In the cosmos With a supply of hydrogen And make our own energy.
We could fly to other planets Very quickly, In days instead of years.
You can extract All the water you need From practically any material That contains hydrogen And oxygen.
If there isn't enough Oxygen around, You could make some.
Generating reliable Nuclear fusion Could ultimately save earth And all forms of life By eliminating our dependence On the sun.
Yet the sun's own fate Is forever sealed.
As a white dwarf, It will become dimmer And cooler.
The star that once Provided energy To an entire solar system Will eventually fade from sight.
When the sun Eventually cools off so much, You won't even be able to see it With your eyes.
And so that's why some people Call it a black dwarf Or a dark star.
'll just be invisible, Sitting there in space Nearly forever.
Our solar system Cannot dodge its date With doom in 5 billion years.
But the death Of one planetary system Can spark the birth of another.
Our sun's nebula Will eventually blend together With other stellar material And spawn the next generation Of stars.
And one might even nurture Another vibrant planet like Earth.