This is Saturn

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In the next 18 minutes, I'm going to take you on a journey.
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And it's a journey that you and I have been on for many years now,
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and it began some 50 years ago, when humans first stepped off our planet.
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And in those 50 years, not only did we literally, physically set foot on the moon,
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but we have dispatched robotic spacecraft to all the planets -- all eight of them --
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and we have landed on asteroids, we have rendezvoused with comets,
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and, at this point in time, we have a spacecraft on its way to Pluto,
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the body formerly known as a planet.
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And all of these robotic missions are part of a bigger human journey:
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a voyage to understand something, to get a sense of our cosmic place,
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to understand something of our origins, and how Earth, our planet,
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and we, living on it, came to be.
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And of all the places in the solar system that we might go to
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and search for answers to questions like this,
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there's Saturn. And we have been to Saturn before --
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we visited Saturn in the early 1980s --
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but our investigations of Saturn have become far more in-depth in detail
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since the Cassini spacecraft, traveling across interplanetary space
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for seven years, glided into orbit around Saturn in the summer of 2004,
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and became at that point the farthest robotic outpost
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that humanity had ever established around the Sun.
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Now, the Saturn system is a rich planetary system.
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It offers mystery, scientific insight and obviously splendor beyond compare,
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and the investigation of this system has enormous cosmic reach.
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In fact, just studying the rings alone, we stand to learn a lot
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about the discs of stars and gas that we call the spiral galaxies.
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And here's a beautiful picture of the Andromeda Nebula,
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which is our closest, largest spiral galaxy to the Milky Way.
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And then, here's a beautiful composite of the Whirlpool Galaxy,
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taken by the Hubble Space Telescope.
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So the journey back to Saturn is really part of and is also a metaphor
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for a much larger human voyage
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to understand the interconnectedness of everything around us,
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and also how humans fit into that picture.
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And it pains me that I can't tell you all that we have learned with Cassini.
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I can't show you all the beautiful pictures that we've taken
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in the last two and a half years, because I simply don't have the time.
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So I'm going to concentrate on two of the most exciting stories
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that have emerged out of this major exploratory expedition
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that we are conducting around Saturn,
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and have been for the past two and a half years.
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Saturn is accompanied by a very large and diverse collection of moons.
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They range in size from a few kilometers across to as big across as the U.S.
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Most of the beautiful pictures we've taken of Saturn, in fact,
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show Saturn in accompaniment with some of its moons. Here's Saturn with Dione,
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and then, here's Saturn showing the rings edge-on,
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showing you just how vertically thin they are, with the moon Enceladus.
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Now, two of the 47 moons that Saturn has are standouts.
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And those are Titan and Enceladus. Titan is Saturn's largest moon,
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and, until Cassini had arrived there,
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was the largest single expanse of unexplored terrain
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that we had remaining in our solar system.
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And it is a body that has long intrigued people who've watched the planets.
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It has a very large, thick atmosphere,
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and in fact, its surface environment was believed to be
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more like the environment we have here on the Earth,
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or at least had in the past, than any other body in the solar system.
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Its atmosphere is largely molecular nitrogen, like you are breathing here in this room,
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except that its atmosphere is suffused with
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simple organic materials like methane and propane and ethane.
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And these molecules high up in the atmosphere of Titan
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get broken down, and their products join together to make haze particles.
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This haze is ubiquitous. It's completely global and enveloping Titan.
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And that's why you cannot see down to the surface
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with our eyes in the visible region of the spectrum.
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But these haze particles, it was surmised,
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before we got there with Cassini, over billions and billions of years,
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gently drifted down to the surface and coated the surface
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in a thick organic sludge.
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So like the equivalent, the Titan equivalent, of tar, or oil, or what -- we didn't know what.
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But this is what we suspected. And these molecules,
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especially methane and ethane, can be liquids at the surface temperatures of Titan.
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And so it turns out that methane is to Titan what water is to the Earth.
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It's a condensable in the atmosphere,
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and so recognizing this circumstance brought to the fore
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a whole world of bizarre possibilities. You can have methane clouds, OK,
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and above those clouds, you have this hundreds of kilometers of haze,
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which prevent any sunlight from getting to the surface.
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The temperature at the surface is some 350 degrees below zero Fahrenheit.
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But despite that cold, you could have rain falling down on the surface of Titan.
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And doing on Titan what rain does on the Earth: it carves gullies; it forms rivers
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and cataracts; it can create canyons; it can pool in large basins and craters.
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It can wash the sludge off high mountain peaks and hills,
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down into the lowlands. So stop and think for a minute.
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Try to imagine what the surface of Titan might look like.
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It's dark. High noon on Titan is as dark as deep earth twilight on the Earth.
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It's cold, it's eerie, it's misty,
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it might be raining, and you might be standing
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on the shores of Lake Michigan brimming with paint thinner. (Laughter)
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That is the view that we had of the surface of Titan before we got there with Cassini,
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and I can tell you that what we have found on Titan, though it is not the same in detail,
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is every bit as fascinating as that story is.
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And for us, it has been like -- the Cassini people --
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it has been like a Jules Verne adventure come true.
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As I said, it has a thick, extensive atmosphere.
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This is a picture of Titan, backlit by the Sun, with the rings as a beautiful backdrop.
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And yet another moon there --
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I don't even know which one it is. It's a very extensive atmosphere.
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We have instruments on Cassini which can see down to the surface
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through this atmosphere, and my camera system is one of them.
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And we have taken pictures like this.
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And what you see is bright and dark regions, and that's about as far as it got for us.
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It was so mystifying: we couldn't make out what we were seeing on Titan.
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When you look closer at this region, you start to see things
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like sinuous channels -- we didn't know. You see a few round things.
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This, we later found out, is, in fact, a crater,
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but there are very few craters on the surface of Titan,
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meaning it's a very young surface.
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And there are features that look tectonic.
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They look like they've been pulled apart.
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Whenever you see anything linear on a planet,
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it means there's been a fracture, like a fault.
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And so it's been tectonically altered.
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But we couldn't make sense of our images,
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until, six months after we got into orbit,
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an event occurred that many have regarded
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as the highlight of Cassini's investigation of Titan.
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And that was the deployment of the Huygens probe,
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the European-built Huygens probe that Cassini had carried
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for seven years across the solar system. We deployed it to the atmosphere of Titan,
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it took two and a half hours to descend, and it landed on the surface.
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And I just want to emphasize how significant an event this is.
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This is a device of human making,
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and it landed in the outer solar system for the first time in human history.
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It is so significant that, in my mind,
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this was an event that should have been celebrated
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with ticker tape parades in every city across the U.S. and Europe,
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and sadly, that wasn't the case.
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(Laughter).
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It was significant for another reason. This is an international mission,
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and this event was celebrated in Europe, in Germany,
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and the celebratory presentations were given in English accents,
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and American accents, and German accents, and French and Italian and Dutch accents.
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It was a moving demonstration of what the words
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"united nations" are supposed to mean:
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a true union of nations joined together in a colossal effort for good.
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And, in this case, it was a massive undertaking to explore a planet,
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and to come to understand a planetary system
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that, for all of human history, had been unreachable,
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and now humans had actually touched it.
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So it was -- I mean, I'm getting goose bumps just talking about it.
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It was a tremendously emotional event,
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and it's something that I will personally never forget, and you shouldn't either.
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(Applause).
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But anyway, the probe took measurements of the atmosphere on the way down,
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and it also took panoramic pictures.
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And I can't tell you what it was like to see the first pictures
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of Titan's surface from the probe. And this is what we saw.
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And it was a shocker, because it was everything we wanted
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those other pictures taken from orbit to be.
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It was an unambiguous pattern, a geological pattern.
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It's a dendritic drainage pattern that can be formed only by the flow of liquids.
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And you can follow these channels
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and you can see how they all converge.
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And they converge into this channel here, which drains into this region.
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You are looking at a shoreline.
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Was this a shoreline of fluids? We didn't know.
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But this is somewhat of a shoreline.
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This picture is taken at 16 kilometers.
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This is the picture taken at eight kilometers, OK? Again, the shoreline.
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Okay, now, 16 kilometers, eight kilometers -- this is roughly an airline altitude.
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If you were going to take an airplane trip across the U.S.,
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you would be flying at these altitudes.
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So, this is the picture you would have at the window of Titanian Airlines
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as you fly across the surface of Titan. (Laughter)
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And then finally, the probe came to rest on the surface,
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and I'm going to show you, ladies and gentlemen,
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the first picture ever taken from the surface of a moon in the outer solar system.
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And here is the horizon, OK?
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These are probably water ice pebbles, yes?
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(Applause).
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And obviously, it landed in one of these flat, dark regions
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and it didn't sink out of sight. So it wasn't fluid that we landed in.
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What the probe came down in was basically
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the Titan equivalent of a mud flat.
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This is an unconsolidated ground that is suffused with liquid methane.
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And it's probably the case that this material
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has washed off the highlands of Titan
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through these channels that we saw,
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and has drained over billions of years to fill in low-lying basins.
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And that is what the Huygens probe landed in.
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But still, there was no sign in our images,
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or even in the Huygens' images, of any large, open bodies of fluids.
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Where were they? It got even more puzzling when we found dunes.
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OK, so this is our movie of the equatorial region of Titan,
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showing these dunes. These are dunes that are 100 meters tall,
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separated by a few kilometers,
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and they go on for miles and miles and miles.
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There's hundreds, up to a 1,000 or 1,200 miles of dunes.
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This is the Saharan desert of Titan.
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It's obviously a place which is very dry, or you wouldn't get dunes.
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So again, it got puzzling that there were no bodies of fluid,
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until finally, we saw lakes in the polar regions.
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And there is a lake scene in the south polar region of Titan.
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It's about the size of Lake Ontario.
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And then, only a week and a half ago,
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we flew over the north pole of Titan and found, again,
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we found a feature here the size of the Caspian Sea.
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So it seems that the liquids, for some reason we don't understand,
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or during at least this season, are apparently at the poles of Titan.
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And I think you would agree that we have found Titan
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is a remarkable, mystical place. It's exotic, it's alien, but yet strangely Earth-like,
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and having Earth-like geological formations
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and a tremendous geographical diversity,
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and is a fascinating world whose only rival in the solar system
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for complexity and richness is the Earth itself.
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And so now we go onto Enceladus. Enceladus is a small moon,
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it's about a tenth the size of Titan. And you can see it here next to England,
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just to show you the size. This is not meant to be a threat.
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(Laughter).
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And Enceladus is very white, it's very bright,
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and its surface is obviously wrecked with fractures.
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It is a very geologically active body.
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But the mother lode of discoveries on Enceladus
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was found at the south pole -- and we're looking at the south pole here --
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where we found this system of fractures.
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And they're a different color because they're a different composition.
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They are coated. These fractures are coated with organic materials.
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Moreover, this whole, entire region, the south polar region,
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has elevated temperatures. It's the hottest place on the planet, on the body.
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That's as bizarre as finding that the Antarctic on the Earth is hotter than the tropics.
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And then, when we took additional pictures, we discovered
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that from these fractures are issuing jets of fine, icy particles
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extending hundreds of miles into space.
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And when we color-code this image, to bring out the faint light levels,
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we see that these jets feed a plume
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that, in fact, we see, in other images, goes thousands of miles
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into the space above Enceladus.
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My team and I have examined images like this,
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and like this one, and have thought about the other results from Cassini.
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And we have arrived at the conclusion
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that these jets may be erupting from pockets
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of liquid water under the surface of Enceladus.
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So we have, possibly, liquid water, organic materials and excess heat.
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In other words, we have possibly stumbled upon
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the holy grail of modern day planetary exploration,
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or in other words, an environment that is potentially suitable for living organisms.
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And I don't think I need to tell you that the discovery of life
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elsewhere in our solar system,
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whether it be on Enceladus or elsewhere,
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would have enormous cultural and scientific implications.
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Because if we could demonstrate that genesis had occurred
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not once, but twice, independently, in our solar system,
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then that means, by inference, it has occurred a staggering number of times
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throughout the universe and its 13.7 billion year history.
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Right now, Earth is the only planet still that we know is teeming with life.
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It is precious, it is unique,
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it is still, so far, the only home we've ever known.
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And if any of you were alert and coherent during the 1960s --
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and we'd forgive you, if you weren't, OK --
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you would remember this very famous picture
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taken by the Apollo 8 astronauts in 1968.
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It was the first time that Earth was imaged from space,
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and it had an enormous impact on our sense of place in the universe,
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and our sense of responsibility for the protection of our own planet.
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Well, we on Cassini have taken an equivalent first,
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a picture that no human eye has ever seen before.
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It is a total eclipse of the Sun, seen from the other side of Saturn.
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And in this impossibly beautiful picture,
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you see the main rings backlit by the Sun,
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you see the refracted image of the Sun
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and you see this ring created, in fact,
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by the exhalations of Enceladus.
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But as if that weren't brilliant enough, we can spot, in this beautiful image,
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sight of our own planet,
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cradled in the arms of Saturn's rings.
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Now, there is something deeply moving
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about seeing ourselves from afar,
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and capturing the sight of our little, blue-ocean planet
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in the skies of other worlds.
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And that, and the perspective of ourselves that we gain from that,
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may be, in the end, the finest reward that we earn
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from this journey of discovery that started half a century ago.
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And thank you very much.
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(Applause)

Title:: This is Saturn
Speaker:: Carolyn Porco
Description:: Planetary scientist Carolyn Porco shows images from the Cassini voyage to Saturn, focusing on its largest moon, Titan, and on frozen Enceladus, which seems to shoot jets of ice.

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Video Language:: English
Team:: closed TED
Project:: TEDTalks
Duration:: 16:52

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