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jetgreguar:

adimals:

spaceplasma:

NASA Probe Gets Close Views of Large Saturn Hurricane

NASA’s Cassini spacecraft has provided scientists the first close-up, visible-light views of a behemoth hurricane swirling around Saturn’s north pole.

In high-resolution pictures and video, scientists see the hurricane’s eye is about 1,250 miles (2,000 kilometers) wide, 20 times larger than the average hurricane eye on Earth. Thin, bright clouds at the outer edge of the hurricane are traveling 330 mph(150 meters per second). The hurricane swirls inside a large, mysterious, six-sided weather pattern known as the hexagon.

“We did a double take when we saw this vortex because it looks so much like a hurricane on Earth,” said Andrew Ingersoll, a Cassini imaging team member at the California Institute of Technology in Pasadena. “But there it is at Saturn, on a much larger scale, and it is somehow getting by on the small amounts of water vapor in Saturn’s hydrogen atmosphere.”

Scientists will be studying the hurricane to gain insight into hurricanes on Earth, which feed off warm ocean water. Although there is no body of water close to these clouds high in Saturn’s atmosphere, learning how these Saturnian storms use water vapor could tell scientists more about how terrestrial hurricanes are generated and sustained.

Both a terrestrial hurricane and Saturn’s north polar vortex have a central eye with no clouds or very low clouds. Other similar features include high clouds forming an eye wall, other high clouds spiraling around the eye, and a counter-clockwise spin in the northern hemisphere.

A major difference between the hurricanes is that the one on Saturn is much bigger than its counterparts on Earth and spins surprisingly fast. At Saturn, the wind in the eye wall blows more than four times faster than hurricane-force winds on Earth. Unlike terrestrial hurricanes, which tend to move, the Saturnian hurricane is locked onto the planet’s north pole. On Earth, hurricanes tend to drift northward because of the forces acting on the fast swirls of wind as the planet rotates. The one on Saturn does not drift and is already as far north as it can be.

“The polar hurricane has nowhere else to go, and that’s likely why it’s stuck at the pole,” said Kunio Sayanagi, a Cassini imaging team associate at Hampton University in Hampton, Va.

Scientists believe the massive storm has been churning for years. When Cassini arrived in the Saturn system in 2004, Saturn’s north pole was dark because the planet was in the middle of its north polar winter. During that time, the Cassini spacecraft’s composite infrared spectrometer and visual and infrared mapping spectrometer detected a great vortex, but a visible-light view had to wait for the passing of the equinox in August 2009. Only then did sunlight begin flooding Saturn’s northern hemisphere. The view required a change in the angle of Cassini’s orbits around Saturn so the spacecraft could see the poles.

“Such a stunning and mesmerizing view of the hurricane-like storm at the north pole is only possible because Cassini is on a sportier course, with orbits tilted to loop the spacecraft above and below Saturn’s equatorial plane,” said Scott Edgington, Cassini deputy project scientist at NASA’s Jet Propulsion Laboratory in Pasadena, Calif. “You cannot see the polar regions very well from an equatorial orbit. Observing the planet from different vantage points reveals more about the cloud layers that cover the entirety of the planet.”

Cassini changes its orbital inclination for such an observing campaign only once every few years. Because the spacecraft uses flybys of Saturn’s moon Titan to change the angle of its orbit, the inclined trajectories require attentive oversight from navigators. The path requires careful planning years in advance and sticking very precisely to the planned itinerary to ensure enough propellant is available for the spacecraft to reach future planned orbits and encounters.

Image credit: NASA/JPL-Caltech/SSI

SPACE IS FUCKING COOL

this is so incredible 

THIRD IMPACT

You do not even understand my undying, overwhelming passion for the Cassini mission, and how hard I am chewing my nails for Juno (basically Cassini: Jupiter) to get where it’s going.

(via skullvis)

you-need-satan:

A moon’s shadow on Saturn’s rings, photographed by Cassini.

Have some animated Cassini Porn, folks.  

(Source: alihikaua, via spicer-cthulhusummoning-lovejoy)

needstosortoutpriorities:

captxandri:

infinity-imagined:

A photograph of the Saturn and its rings, taken by the Cassini spacecraft from inside the planet’s shadow.  Earth is visible in the upper right as a small dot between rings.

THE SATURN

HELP<3

This is my absolute favorite Cassini image, and it has been my default desktop background for the last four years or so.  

What’s happening at the north pole of Saturn? A vortex of strange and complex swirling clouds. The center of this vortex was imaged in unprecedented detail last week by the roboticCassini spacecraft orbiting Saturn. These clouds lie at the center of the unusual hexagonal cloud system that surrounds the north pole of Saturn.

FUCKING

CASSINI

oftlolwhut:

from io9- ‘An absolutely incredible raw image of Saturn’s swirling north pole’

And around that north pole is a jet stream that is HEXAGONAL. 4 earths can fit within it- that’s how huge it is.

A GIANT HEX OF STREAMING AIR.

SCIENCE. Fucking awesome.

It is NEVER a bad time for Cassini porn on my dash <3

(via oftfrustrated)

astronomerinprogress:

Ten Best Pictures From NASA’s Cassini Probe

Fifteen years ago this week, a Titan rocket launched the bus-size spacecraft from Cape Canaveral, Florida. In July 2004 Cassini finally entered Saturn orbit. Since then the probe has beamed back a steady stream of some 300,000 pictures and nearly 450 gigabytes of data about the ringed giant and its dozens of enigmatic moons.

Images courtesy: SSI/NASA 

Can’t not reblog Cassini Porn.

(via eldritchblasttotheface)

ikenbot:

Saturn’s Moon Titan Has Soft and Crusty Surface, Probe Landing Reveals

The surface of Saturn’s huge moon Titan has the consistency of soft, wet sand with a fragile crust on top, a new analysis of a nearly eight-year-old space probe landing suggests.

Image: This image is an artist’s impression of the descent and landing sequence followed by ESA’s Huygens probe that landed on Titan. The Jan. 14, 2005 landing was the culmination of a 22-year process of planning, organizing and cooperation between ESA and NASA. Credit: NASA/JPL/ESA

Researchers reconstructed the European Space Agency’s Huygens probe landing on Titan, which occurred in January 2005. They determined that Huygens bounced, slid and wobbled to a stop 10 seconds after first making contact with the moon.

The study — which incorporated data from Huygens’ instruments and results from computer simulations and a drop test with a model — found that the 400-pound (181-kilogram) probe made a dent 4.7 inches deep (12 centimeters) upon touching down.

“A spike in the acceleration data suggests that during the first wobble, the probe likely encountered a pebble protruding by around an inch from the surface of Titan, and may have even pushed it into the ground, suggesting that the surface had a consistency of soft, damp sand,” study lead author Stefan Schröder, of the Max Planck Institute for Solar System Research in Germany, said in a statement.

This conclusion is broadly consistent with previous studies of the landing, which determined that Titan’s surface is likely quite soft. But the new analysis suggests that a sort of crust lies on top of the soft stuff.

“It is like snow that has been frozen on top,” said co-author Erich Karkoschka of the University of Arizona. “If you walk carefully, you can walk as on a solid surface, but if you step on the snow a little too hard, you break in very deeply.”

The fact that Huygens bounced and wobbled rather than simply “splatted” suggests that the moon’s surface was dry when it touched down, researchers said. This interpretation is bolstered by the dusty cloud the probe seems to have kicked up.

Source

I know I’ve written my own posts on Cassini and the Huygens probe before, but this shit bears repeating: we landed a probe on motherfucking Titan, guys. And got pictures and data back.  This is a thing we can do.

(via pushthequorumbutton)

sklogw:

Saturn in Blue and Gold

Why is Saturn partly blue? The above picture of Saturn approximates what a human would see if hovering close to the giant ringed world. The above picture was taken in mid-March by the robot Cassini spacecraft now orbiting Saturn. Here Saturn’s majestic rings appear directly only as a thin vertical line. The rings show their complex structure in the dark shadows they create on the image left. Saturn’s fountain moon Enceladus, only about 500 kilometers across, is seen as the bump in the plane of the rings. The northern hemisphere of Saturn can appear partly blue for the same reason that Earth’s skies can appear blue — molecules in the cloudless portions of both planet’s atmospheres are better at scattering blue light than red. When looking deep into Saturn’s clouds, however, the natural gold hue of Saturn’s clouds becomes dominant. It is not known why southern Saturn does not show the same blue hue — one hypothesis holds that clouds are higher there. It is also not known why Saturn’s clouds are colored gold.

Credit: Cassini Imaging Team, SSI, JPL, ESA, NASA

No better way to start the day than with some Cassini Porn on my dash.  It’s been far too long. 

(Source: spaceplasma, via ohhicas)

expose-the-light:

Million-Ring Circus

1. RINGS FROM AFAR

Measuring 175,000 miles wide but as little as 30 feet thick, Saturn’s rings contain debris of varying ages and composition, all revolving at different speeds.

2. THREE MOONS

Titan and Dione, along with speck-sized Prometheus appear in rare alignment. Tiny so-called shepherd moons help shape the rings and prevent them from dispersing.

3. TITAN

Concentric rings wind in front of Satrun’s biggest moon, Titan, with tiny Janus in teh foreground. The rings are so massive that they have their own atmosphere, separate from Saturn’s. Cassini found evidence of oxygen all around the icy rings.

4. RINGS CLOSE UP

It’s been WAY too long since I had any Cassini porn on my dash.  Let’s rectify that.

(via captxandri)

doublemooncrab:

expositionfairy:

Good morning, Tumblr! I see I have been amiss lately in providing my weekly dose of Cassini porn. Let’s rectify that, shall we.

A shot of Saturn’s outermost ring, the faint, misty E-Ring, which ordinarily cannot be seen.

Saturn’s moon Enceladus, which, much like Jupiter’s Europa, is…

We got a probe to work on Titan!? Fuck that’s so cool!!

We most certainly did!

The Huygens probe was an atmospheric entry probe carried to Saturn’s moon Titan as part of the Cassini–Huygens mission. The probe was supplied by the European Space Agency ( ESA) and named after the Dutch 17th century astronomer Christiaan Huygens.

The combined Cassini–Huygens spacecraft was launched from Earth on October 15, 1997. Huygens separated from the Cassini orbiter on December 25, 2004, and landed on Titan on January 14, 2005 near the Xanadu region. This was the firstlanding ever accomplished in the outer solar system. It touched down on land, although the possibility that it would touch down in an ocean was also taken into account in its design. The probe was designed to gather data for a few hours in the atmosphere, and possibly a short time at the surface. It continued to send data for about 90 minutes after touchdown. It remains the most distant landing of any craft launched from Earth.

Read more about it HERE!

More pictures from the Huygens landing:

Panoramas of Titan’s surface taken as Huygens descended.

Ice boulders around Huygens’ landing site.

Methane lakes near Titan’s north pole.

Aerial view of a convoluted geological feature dubbed the Sikun Labyrinthus.

We also just recently launched the Juno mission, formerly known as EJSM (Europa-Jupiter System Mission), which will basically be Cassini: Jupiter.  I am so fucking excited, I cannot even.

ALL the Cassini Porn

Good morning, Tumblr!  I see I have been amiss lately in providing my weekly dose of Cassini porn.  Let’s rectify that, shall we.

A shot of Saturn’s outermost ring, the faint, misty E-Ring, which ordinarily cannot be seen.

Saturn’s moon Enceladus, which, much like Jupiter’s Europa, is completely coated in a thick layer of ice, with the likely presence of a liquid ocean underneath.

A closeup of the misshappen, bizzarely-textured moonlet Hyperion.

A rare storm in Saturn’s usually bland, placid upper atmosphere.

Tiny moon Tethys, creepin’ on Titan.

EXTREME CLOSEUP of Titan’s hazy hydrocarbon atmosphere.

70km above the surface of Titan, as taken by the Huygens probe.  Let us take a moment to appreciate this, guys: we landed a probe on the surface of Titan.  And got pictures and data back.  This is a thing we can do.

And last but not least, my absolute favorite Cassini shot, and one of the most famous: Saturn, eclipsing and backlit by the Sun, allowing even its outermost rings to be seen.  This has been my desktop background for ages.

Still More Cassini Porn

Titan from behind Saturn’s rings, with tiny moonlet Epimethius floating above.

How fucking amazing is this shot.

Yet more Cassini Porn

Another gorgeous shot from Cassini, with the rings edge-on and Titan floating above them.

Liberate Tuteme Ex Infernis…

DEAR GOD.

This is a picture of the hexagonal cloud formation at Saturn’s south pole, taken in infrared by the Cassini spacecraft in order to show electromagnetic activity around the pole.  

Because, you know, that fucking thing wasn’t creepy enough already.

Moar Cassini Porn

On first glance, this looks like an artist’s rendering.  It isn’t.

I *love* how you can see the edge of Titan’s outer atmosphere against the bright backdrop of Saturn.