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- In the cold, dark expanse
of our solar system,
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beyond the asteroid belt,
lie the giant planets.
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Some can be seen with the naked eye,
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others only glimpsed
once by a passing probe.
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We are again sending cameras
to the edge of the solar system
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to bring us new insights into
the evolution of our worlds.
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Pioneer 10 and 11 made the first passage
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through the asteroid belt,
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leading the way for the
venerable Voyager missions.
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These two probes made a grand tour
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of the outer solar system,
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before slipping away
into interstellar space.
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Jupiter, the first and
greatest of the outer planets
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with its broiling sky,
has had fleeting visits
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from other missions, like
Ulysses, Galileo, and Cassini,
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each adding to the mosaic of Jupiter,
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and its violent atmosphere.
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- My name is Amy Simon-Miller,
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and I study the atmospheres
of the Jovian planets.
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Weather on Jupiter is confined
to a rather thin layer
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kind of high up in the atmosphere,
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so the tops of the clouds
are what we're seeing
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when we look at Jupiter.
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One thing we're seeing
in the southern part
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of the equatorial region,
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is little V-shaped clouds or chevrons,
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and we wanted to understand
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how those are moving in the atmosphere.
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- What we think chevrons are,
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are simply holes in the clouds.
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There are simply areas where we don't see
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any bright white clouds.
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- The Cassini mission flew
by Jupiter in the year 2000,
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and because it was a slow, distant flyby,
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we got a lot of coverage of the planet
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over a long time period.
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So we were able to put
those images together
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and make movies.
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- Using these movies,
we observed Rossby waves
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that caused north-south
manners in a jetstream
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south of the equator.
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With new movies, we instead
focused on hot spots.
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Hot spots are unique because we believe
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that there is a Rossby wave
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similar to what we previously detected,
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but instead of this Rossby
wave moving north-south,
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it primarily moves up and
down in the atmosphere.
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The downward portion
of the wave pushes air
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down into warmer layers of the atmosphere.
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This causes any clouds that
are embedded within the wave
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to evaporate and prevents
further clouds from forming.
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So at any given time, there
are approximately eight to 10
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hot spots in Jupiter's
atmosphere that are spaced
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roughly evenly apart from one another.
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We believe that each of
the downward portions
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of this Rossby wave
corresponds to the hot spots
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that we see on Jupiter.
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This new finding is exciting
because it will allow us
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to re-examine the Galileo probe data
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and allow us to better understand it
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and better place it in
the context of Jupiter's
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overall global climate and atmosphere.
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- The latest probe to
be specifically aimed
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for Jupiter is Juno.
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Launched 2011, the
probe will reach Jupiter
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after a five-year journey.
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Juno's goal is to investigate
Jupiter's interior structure
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and magnetosphere and help
improve our understanding
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of the formation of the planet
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and therefore the history
of our solar system.
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- Juno spins like a propeller,
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where the propeller's
kind of facing the sun
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because they're all solar powered.
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If you spin something, it stays spinning,
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it's like a gyroscope.
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We can use the spinning spacecraft
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to let each instrument get
its turn to see Jupiter.
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We get to go very close to the planet,
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inside the radiation belts,
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instead of outside the radiation belt.
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We're in a polar orbit,
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so by small adjustments of the timing,
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we can map the entire planet.
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We can get repeated stripes
at different longitudes,
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as Jupiter spins underneath us.
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- It does mean that Juno is going to see
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the polar regions to a greater extent,
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than with other spacecraft,
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but I think the most important thing
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is that it gets in very
close to the planet.
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As part of that ellipse, brings
it in a few thousand miles
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above those cloud tops,
very close near the equator.
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- We're gonna go over
the poles of Jupiter.
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That means we can study the magnetosphere
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in a different way.
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- A magnetosphere is
the sphere of influence
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of a magnetic field.
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So a planet that has a magnetic field
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has a magnetosphere when
its sphere of influence
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extends beyond the planet, out into space,
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and affects the region around it.
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The magnetosphere of Jupiter is vast.
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So if you think of Jupiter being 10 times
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the size of the Earth,
and the magnetosphere
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is a hundred times the size of Jupiter.
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- The Juno probe is the
furthest NASA has sent
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a solar powered spacecraft.
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Sunlight provides 25 times
less energy than on Earth,
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Which means it requires
advanced solar power technology,
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00:06:06,741 --> 00:06:10,301
with solar cells which are
both 50% more efficient,
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and more radiation tolerant
than silicon cells.
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The craft also houses
an electronics vault,
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which is radiation shielded to protect
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the electronics aboard from the intense
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and deadly radiation
environment around Jupiter.
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The probe carries a full set of sensors.
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A microwave radiometer
for atmospheric sounding
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and composition study.
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Plasma and energetic particle detectors.
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A vector magnetometer.
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A radio plasma wave
experiment and ultraviolet,
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and an infrared imager.
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Plus, a color camera called JunoCam.
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- In Roman mythology, which of course,
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is rooted from Greek mythology,
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Juno was the wife
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and sister goddess of Jupiter,
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and Jupiter was sort of being
naughty with some friends,
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so he cast a veil of clouds
around himself and his friends,
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but of course, Juno was a
fairly powerful god herself
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and used her powers to look
right through the clouds
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and see the true nature of Jupiter
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and understand what he was really up to.
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And that's exactly what the
Juno spacecraft does for us,
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is that it goes there
with special instruments
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in a special orbit, and uses its powers
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to see right through Jupiter's clouds
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and understand its true nature,
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which is holding these secrets for us
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about how the solar system formed
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and where we all came from.
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- A longstanding feature
of the storms of Jupiter
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is the Great Red Spot.
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Large enough to swallow the Earth,
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this storm system has been
studied since the 19th century.
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Then, it was measured at a little over
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41,000 kilometers on its long axis.
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Voyager 1 and 2 measured it
at over 23,000 kilometers,
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and recent observations by
the Hubble Space Telescope
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have the Red Spot at only
16,500 kilometers long.
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It seems the rate of
shrinkage is increasing.
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One day it will probably
vanish all together.
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Juno will also help confirm
the theory that Jupiter
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was the first of the
planets in the solar system
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to form from the primordial
disc of dust and gas
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some 4.6 billion years ago.
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- I would expect Juno to tell us
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more about how planets work.
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Meaning, how the heat gets out,
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what kinds of flows exist inside the body,
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how magnetic fields get generated.
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Learning what Jupiter is made of,
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we will learn such a wide range of things.
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For indeed, Jupiter is
the most massive planet
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in the solar system.
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It is the body you want to understand,
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in order to understand the architecture
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of everything else, including Earth.
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- Juno's year-long mission
will end with a de-orbit burn
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and a slow descent into
the upper atmosphere,
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where it will continue to send back
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scientific data until its destruction.
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Perhaps the jewel of the
solar system is Saturn,
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with her spectacular rings.
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All four of the outer planets
have rings of ice and rock,
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but Saturn's is the most complicated,
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and with thousands of
ringlet, the most visible.
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There are several groups of rings
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classified A through to G.
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Some are formed by shepherd
moons within the rings,
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and by gravitational tidal
effects from others outside.
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Yet some gaps are still unexplained.
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The current spacecraft
at Saturn is Cassini,
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on its second extended mission,
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the Cassini Solstice Mission,
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which is expected to be completed in 2017.
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It continues to watch
the planet-sized storms
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in the atmosphere.
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- Great white spots on Saturn
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are these large storms that erupt
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about once every year on Saturn.
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A year on Saturn is 29 Earth years.
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The great white spot that
erupted in December 2010
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initially presented itself
as a small, little white
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fluffy cloud that came up.
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And various instruments
on Cassini were seeing it,
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and ground-based instruments
seeing it as well.
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And as the days progressed,
the storm got larger,
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and then it got sheared from the top
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and the bottom of the
storm on either side of it,
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and it wrapped all the
way across the planet.
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We'd never before been able
to study a storm system
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of this magnitude in the infrared,
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so we are very fortunate at this time
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to have a spacecraft in orbit
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and excellent ground-based facilities
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allowing us to make a historical record
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of this great white spot.
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And that will allow us to
compare it in future generations,
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when the next one happens.
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- Another phenomenon
is a hexagon of clouds
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around the north pole of Saturn,
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which has recently come into the light.
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- Cassini has been in orbit
around Saturn for nine years,
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and we've been following this hexagon,
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which surrounds the north pole.
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It's bigger than two Earths,
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and it's a wandering jetstream
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But it's been winter in the north,
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so we have not been able to see
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what's at the center of the hexagon.
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But now it's spring.
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And what we found at the
center of the hexagon
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is a Saturn hurricane.
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This is a view from directly
over the north pole,
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which is made possible by
the orbit of the spacecraft,
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which is now taking us over the poles.
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The winds are flowing
at 300 miles an hour,
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which is four times hurricane force.
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The fluffy white clouds in the center
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are about the size of Texas.
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We can use special filters to measure
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the heights of the clouds.
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And red are low clouds, and
the green are high clouds.
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00:13:40,099 --> 00:13:43,257
We call it a Saturn hurricane
because it has the eye,
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it has the high winds, but it's different
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00:13:45,379 --> 00:13:46,618
from an Earth hurricane
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00:13:46,619 --> 00:13:50,058
because it's locked to the north pole.
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And unlike a terrestrial hurricane,
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there's no ocean underneath,
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00:13:54,620 --> 00:13:58,741
and that's one of the puzzles
we're trying to figure out.
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00:14:11,504 --> 00:14:13,382
- A phenomenon first observed on Saturn
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00:14:13,383 --> 00:14:16,263
by Pioneer 11 in 1979,
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00:14:16,264 --> 00:14:20,544
and common to Earth as
well, are polar auroras.
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00:14:29,307 --> 00:14:31,265
These magnetic generated light shows
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00:14:31,266 --> 00:14:34,027
are far more spectacular on Saturn,
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rising hundreds of miles
above the planet's poles.
248
00:14:37,827 --> 00:14:40,067
And unlike on Earth, where bright displays
249
00:14:40,068 --> 00:14:42,108
fizzle after only a few hours,
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00:14:42,109 --> 00:14:45,510
auroras on Saturn can shine for days.
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00:14:53,871 --> 00:14:56,349
Auroras are produced
when speeding particles
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00:14:56,350 --> 00:14:58,630
accelerated by the sun's energy
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00:14:58,631 --> 00:15:01,830
collide with gasses in
a planet's atmosphere.
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00:15:01,831 --> 00:15:04,471
The gasses fluoresce,
emitting flashes of light
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00:15:04,472 --> 00:15:07,113
at different wavelengths.
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00:15:10,034 --> 00:15:14,073
The Hubble Space Telescope has
been watching them closely.
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- Starting in 2016, ending in 2017,
258
00:15:22,516 --> 00:15:24,675
these orbits will take us up and over
259
00:15:24,676 --> 00:15:27,236
the north and south poles of the planet.
260
00:15:27,237 --> 00:15:29,516
- We're actually going to dive in between
261
00:15:29,517 --> 00:15:31,316
the innermost edge of the D ring
262
00:15:31,317 --> 00:15:33,476
and the upper atmosphere
of the planet itself.
263
00:15:33,477 --> 00:15:35,076
- From that, we're gonna learn
264
00:15:35,077 --> 00:15:38,197
how is Saturn constructed from inside out?
265
00:15:38,198 --> 00:15:40,998
- We'll also get the
magnetic field of the planet,
266
00:15:40,999 --> 00:15:43,318
the mass of the rings
for the very first time,
267
00:15:43,319 --> 00:15:45,999
and get to sample a
place that no spacecraft
268
00:15:46,000 --> 00:15:48,199
has ever flown before.
269
00:15:48,759 --> 00:15:52,079
- This is a mission that
cannot be duplicated,
270
00:15:52,080 --> 00:15:55,279
so we really want to take
advantage of this opportunity
271
00:15:55,280 --> 00:15:58,561
to observe seasonal
variation in the system.
272
00:16:05,642 --> 00:16:10,043
- Uranus has had only one
visitor from Earth, Voyager 2.
273
00:16:10,044 --> 00:16:13,402
Like the other gas giants,
Uranus has a ring system,
274
00:16:13,403 --> 00:16:16,524
a magnetosphere, and numerous moons.
275
00:16:16,525 --> 00:16:19,443
There, the similarities end.
276
00:16:19,444 --> 00:16:22,484
Images from Voyager reveal
the featureless atmosphere,
277
00:16:22,485 --> 00:16:25,565
with no cloud patterns or storms.
278
00:16:25,566 --> 00:16:28,765
Uranus differs in its orientation as well.
279
00:16:28,766 --> 00:16:32,286
Tilted on to its side, its
poles lie where other planets
280
00:16:32,287 --> 00:16:34,327
have their equators.
281
00:16:34,328 --> 00:16:37,608
Its magnetosphere is
off-center and tilted as well,
282
00:16:37,609 --> 00:16:40,807
generating an unusual asymmetrical field.
283
00:16:40,808 --> 00:16:44,809
This causes Uranus's auroras
to be well off the poles.
284
00:16:45,489 --> 00:16:48,168
Observations from Earth
have shown seasonal change,
285
00:16:48,169 --> 00:16:49,969
and increased weather activity
286
00:16:49,970 --> 00:16:54,089
as Uranus approached its equinox in 2007.
287
00:16:54,090 --> 00:16:55,650
The wind speeds on Uranus
288
00:16:55,651 --> 00:16:59,931
can reach 250 meters a second.
289
00:16:59,932 --> 00:17:02,132
Although there are currently
no scheduled missions
290
00:17:02,133 --> 00:17:06,132
to Uranus, there have been
several proposals put forward,
291
00:17:06,133 --> 00:17:09,533
both jointly from ISA and NASA, and JPL,
292
00:17:09,534 --> 00:17:12,492
including both nuclear
and solar powered probes,
293
00:17:12,493 --> 00:17:15,734
and an atmospheric descent probe.
294
00:17:15,735 --> 00:17:18,935
Ion propulsion is favored
because it allows a greater mass
295
00:17:18,936 --> 00:17:21,494
to be sent to the planet.
296
00:17:21,495 --> 00:17:24,414
Ideally, a probe could
be launched in 2020,
297
00:17:24,415 --> 00:17:27,415
with a 13-year cruise to Uranus.
298
00:17:27,416 --> 00:17:29,736
As this is considered
a low priority mission,
299
00:17:29,737 --> 00:17:32,698
no funding has yet been allocated.
300
00:17:45,819 --> 00:17:49,099
The eighth and last planet in
our solar system is Neptune,
301
00:17:49,100 --> 00:17:51,621
the last of the gas giants.
302
00:17:57,301 --> 00:17:59,061
Made of hydrogen and helium,
303
00:17:59,062 --> 00:18:00,702
it has trace amounts of methane,
304
00:18:00,703 --> 00:18:03,822
which gives the planet
its beautiful blue color.
305
00:18:10,904 --> 00:18:14,304
It, too, has only been
visited once by Voyager.
306
00:18:18,706 --> 00:18:20,824
The detailed images taken at that time
307
00:18:20,825 --> 00:18:23,384
revealed white clouds, and massive storm
308
00:18:23,385 --> 00:18:27,106
marring its atmosphere
with supersonic winds.
309
00:18:28,306 --> 00:18:32,387
- The storm revolves around
the planet every 18 hours.
310
00:18:33,587 --> 00:18:36,348
And then it rotates around its own axis,
311
00:18:36,349 --> 00:18:40,308
like a big glob of pizza
dough, every 16 days.
312
00:18:44,750 --> 00:18:47,308
- Voyager also identified the ring system,
313
00:18:47,309 --> 00:18:50,110
and confirmed 14 moons.
314
00:18:54,511 --> 00:18:57,510
Triton is its largest, and is
believed to have been captured
315
00:18:57,511 --> 00:19:00,672
by the planet from the outer Kuiper belt.
316
00:19:17,716 --> 00:19:20,155
Voyager also discovered
Neptune's magnetic field
317
00:19:20,156 --> 00:19:23,835
was off-center and
tilted, not unlike Uranus.
318
00:19:23,836 --> 00:19:27,395
Both Uranus and Neptune have
had very little close-up study,
319
00:19:27,396 --> 00:19:29,277
and various missions have been proposed
320
00:19:29,278 --> 00:19:33,397
to fill the gap in our
understanding of these ice giants.
321
00:19:46,920 --> 00:19:48,999
NASA has looked into
several possible missions
322
00:19:49,000 --> 00:19:51,439
back to Neptune, perhaps a similar probe
323
00:19:51,440 --> 00:19:53,761
designed to that Cassini Huygens.
324
00:19:53,762 --> 00:19:55,961
But, due to fiscal and other constraints,
325
00:19:55,962 --> 00:19:58,601
none have been approved.
326
00:20:06,044 --> 00:20:07,442
- The Voyager mission to the outer planets
327
00:20:07,443 --> 00:20:11,003
has certainly been a
journey of a lifetime.
328
00:20:11,004 --> 00:20:14,123
Having encountered Triton as
the last world we would visit,
329
00:20:14,124 --> 00:20:15,564
which I don't see how
any of the scientists
330
00:20:15,565 --> 00:20:17,966
could have been happier.
331
00:20:20,286 --> 00:20:22,565
- Next stop was Pluto.
332
00:20:22,566 --> 00:20:25,566
When New Horizons was
conceived, built, and launched,
333
00:20:25,567 --> 00:20:27,966
Pluto was still a planet.
334
00:20:27,967 --> 00:20:30,047
The downgrade to dwarf
made little difference
335
00:20:30,048 --> 00:20:32,168
to its investigation.
336
00:20:33,527 --> 00:20:36,447
- Well, you know, the key
to planetary science is,
337
00:20:36,448 --> 00:20:39,007
that you really have to go
places to get the resolution,
338
00:20:39,008 --> 00:20:41,488
to get up close enough to
really see what's going on.
339
00:20:41,489 --> 00:20:43,528
We wanna get up close and personal.
340
00:20:43,529 --> 00:20:47,050
- New Horizons is the first,
really, of a whole new breed
341
00:20:47,051 --> 00:20:51,490
of spacecraft, that is focusing
on a very specific task.
342
00:20:52,932 --> 00:20:55,130
- For this mission, the
questions are basic.
343
00:20:55,131 --> 00:20:57,850
What do Pluto and Charon look like,
344
00:20:57,851 --> 00:21:00,293
and what are they made of?
345
00:21:01,093 --> 00:21:03,411
- We have to really be
disciplined and say,
346
00:21:03,412 --> 00:21:04,773
we can't do everything.
347
00:21:04,774 --> 00:21:06,973
Let's focus on the primary questions
348
00:21:06,974 --> 00:21:08,332
and design the instruments
349
00:21:08,333 --> 00:21:11,174
to answer those primary questions.
350
00:21:11,175 --> 00:21:12,853
- New Horizons was built light
351
00:21:12,854 --> 00:21:15,213
and launched on a very powerful rocket,
352
00:21:15,214 --> 00:21:17,414
breaking all previous speed records
353
00:21:17,415 --> 00:21:20,254
when it left Earth on a
solar escape trajectory
354
00:21:20,255 --> 00:21:23,777
at 16.26 kilometers per second.
355
00:21:24,896 --> 00:21:26,895
The spacecraft passed
the orbit of the moon
356
00:21:26,896 --> 00:21:29,377
in just nine hours.
357
00:21:29,378 --> 00:21:32,416
It then cruised for just
one year to reach Jupiter,
358
00:21:32,417 --> 00:21:34,178
where it was given a gravity boost,
359
00:21:34,179 --> 00:21:36,857
increasing its speed by
two kilometers per second,
360
00:21:36,858 --> 00:21:40,940
and cutting the travel time
to Pluto by three years.
361
00:21:44,859 --> 00:21:47,660
New Horizons was the first
to visit the dwarf planet,
362
00:21:47,661 --> 00:21:50,220
and Charon, its largest moon.
363
00:21:51,420 --> 00:21:53,460
Pluto failed one of the three criteria
364
00:21:53,461 --> 00:21:55,620
to remain a fully fledged planet.
365
00:21:55,621 --> 00:21:59,422
It has not cleared the
neighborhood around its orbit.
366
00:22:01,542 --> 00:22:03,221
Pluto is part of the Kuiper belt,
367
00:22:03,222 --> 00:22:06,823
and not the only dwarf
planet residing there.
368
00:22:08,263 --> 00:22:12,185
This is an image of Pluto
at its closest approach.
369
00:22:15,265 --> 00:22:18,785
It still remains a treasure
trove of scientific questions,
370
00:22:18,786 --> 00:22:21,186
and hopefully answers, about the origins
371
00:22:21,187 --> 00:22:24,346
and evolution of the solar system.
372
00:22:31,588 --> 00:22:33,588
From Pluto's flyby, it is on
373
00:22:33,589 --> 00:22:36,308
to the unknowns of the Kuiper belt.
374
00:22:36,309 --> 00:22:38,507
The most numerous objects
in the solar system
375
00:22:38,508 --> 00:22:40,708
of the ice dwarf planet that make up
376
00:22:40,709 --> 00:22:44,910
this doughnut-shaped region on
the edge of the solar system.
377
00:22:51,312 --> 00:22:54,270
- it's kinda like the asteroid
belt, but much bigger,
378
00:22:54,271 --> 00:22:56,831
it has hundreds of
times more objects in it
379
00:22:56,832 --> 00:22:57,831
than the asteroid belt.
380
00:22:57,832 --> 00:22:59,392
- The spacecraft will visit some
381
00:22:59,393 --> 00:23:01,471
of these objects in its travels.
382
00:23:01,472 --> 00:23:02,631
- Once you have the orbit,
383
00:23:02,632 --> 00:23:05,512
and we know where the spacecraft is,
384
00:23:05,513 --> 00:23:07,113
and where it's going to be,
385
00:23:07,114 --> 00:23:09,713
we can figure out how much fuel
386
00:23:09,714 --> 00:23:11,553
the spacecraft is gonna need to use
387
00:23:11,554 --> 00:23:13,994
to get to these objects.
388
00:23:13,995 --> 00:23:16,995
- After some careful calculations.
389
00:23:16,996 --> 00:23:20,274
- It looked like we might
actually have to burn the engines
390
00:23:20,275 --> 00:23:25,276
to miss the object, which
was pretty exciting concept.
391
00:23:25,356 --> 00:23:26,957
You know, it's good thing we looked,
392
00:23:26,958 --> 00:23:29,197
'cause you wouldn't want to
run into one of these things.
393
00:23:29,198 --> 00:23:30,436
These cold classicals,
394
00:23:30,437 --> 00:23:32,998
they're pretty much as they were
395
00:23:32,999 --> 00:23:35,277
4.5 billions years ago.
396
00:23:35,278 --> 00:23:37,118
They're little fossils.
397
00:23:37,119 --> 00:23:38,799
That's incredible.
398
00:23:38,800 --> 00:23:41,199
We have no idea what
they're gonna look like.
399
00:23:41,200 --> 00:23:43,519
- New Horizons will continue to explore
31845
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