Please double-click on the English subtitles below to play the video.
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I thought I would think about changing your perspective on the world a bit,
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and showing you some of the designs that we have in nature.
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And so, I have my first slide to talk about
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the dawning of the universe and what I call
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the cosmic scene investigation, that is, looking at
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the relics of creation and inferring what happened at the beginning,
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and then following it up and trying to understand it.
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And so one of the questions that I asked you is,
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when you look around, what do you see?
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Well, you see this space that's created by designers
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and by the work of people, but what you actually see
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is a lot of material that was already here,
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being reshaped in a certain form.
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And so the question is: how did that material get here?
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How did it get into the form that it had before it got reshaped, and so forth?
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It's a question of what's the continuity?
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So one of the things I look at is,
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how did the universe begin and shape?
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What was the whole process in the creation and the evolution of the universe
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to getting to the point that we have these kinds of materials?
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So that's sort of the part, and let me move on then and show you
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the Hubble Ultra Deep Field.
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If you look at this picture,
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what you will see is a lot of dark with some light objects in it.
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And everything but -- four of these light objects are stars,
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and you can see them there -- little pluses.
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This is a star, this is a star, everything else is a galaxy, OK?
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So there's a couple of thousand galaxies
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you can see easily with your eye in here.
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And when I look out at particularly this galaxy,
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which looks a lot like ours, I wonder if there's
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an art design college conference going on,
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and intelligent beings there are thinking about, you know,
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what designs they might do, and there might be a few cosmologists
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trying to understand where the universe itself came from,
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and there might even be some in that galaxy looking at ours
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trying to figure out what's going on over here.
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But there's a lot of other galaxies, and some are nearby,
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and they're kind of the color of the Sun,
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and some are further away and they're a little bluer, and so forth.
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But one of the questions is -- this should be, to you --
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how come there are so many galaxies?
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Because this represents a very clean fraction of the sky.
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This is only 1,000 galaxies.
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We think there's on the order -- visible to the Hubble Space Telescope,
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if you had the time to scan it around --
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about 100 billion galaxies. Right?
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It's a very large number of galaxies.
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And that's roughly how many stars there are in our own galaxy.
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But when you look at some of these regions like this, you'll see
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more galaxies than stars, which is kind of a conundrum.
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So the question should come to your mind is, what kind of design, you know,
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what kind of creative process and what kind of design
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produced the world like that?
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And then I'm going to show you it's actually a lot more complicated.
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We're going to try and follow it up.
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We have a tool that actually helps us out in this study,
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and that's the fact that the universe is so incredibly big
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that it's a time machine, in a certain sense.
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We draw this set of nested spheres cut away so you see it.
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Put the Earth at the center of the nested spheres,
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just because that's where we're making observations.
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And the moon is only two seconds away, so if you take a picture of the moon
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using ordinary light, it's the moon two seconds ago, and who cares.
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Two seconds is like the present.
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The Sun is eight minutes ago. That's not such a big deal, right,
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unless there's solar flares coming then you want to get out the way.
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You'd like to have a little advance warning.
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But you get out to Jupiter and it's 40 minutes away. It's a problem.
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You hear about Mars, it's a problem communicating to Mars
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because it takes light long enough to go there.
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But if you look out to the nearest set of stars,
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to the nearest 40 or 50 stars, it's about 10 years.
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So if you take a picture of what's going on, it's 10 years ago.
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But you go and look to the center of the galaxy,
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it's thousands of years ago.
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If you look at Andromeda, which is the nearest big galaxy,
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and it's two million years ago.
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If you took a picture of the Earth two million years ago,
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there'd be no evidence of humans at all,
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because we don't think there were humans yet.
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I mean, it just gives you the scale.
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With the Hubble Space Telescope, we're looking at
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hundreds of millions of years to a billion years.
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But if we were capable to come up with an idea of how to look even further --
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there's some things even further,
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and that was what I did in a lot of my work,
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was to develop the techniques -- we could look out back to even earlier
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epochs before there were stars and before there were galaxies,
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back to when the universe was hot and dense and very different.
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And so that's the sort of sequence,
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and so I have a more artistic impression of this.
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There's the galaxy in the middle, which is the Milky Way,
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and around that are the Hubble -- you know, nearby kind of galaxies,
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and there's a sphere that marks the different times.
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And behind that are some more modern galaxies.
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You see the whole big picture?
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The beginning of time is funny -- it's on the outside, right?
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And then there's a part of the universe we can't see
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because it's so dense and so hot, light can't escape.
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It's like you can't see to the center of the Sun;
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you have to use other techniques to know what's going on inside the Sun.
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But you can see the edge of the Sun,
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and the universe gets that way, and you can see that.
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And then you see this sort of model area around the outside,
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and that is the radiation coming from the Big Bang,
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which is actually incredibly uniform.
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The universe is almost a perfect sphere,
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but there are these very tiny variations
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which we show here in great exaggeration.
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And from them in the time sequence we're going to have to go
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from these tiny variations to these irregular galaxies and first stars
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to these more advanced galaxies, and eventually the solar system, and so forth.
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So it's a big design job,
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but we'll see about how things are going on.
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So the way these measurements were done,
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there's been a set of satellites, and this is where you get to see.
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So there was the COBE satellite, which was launched in 1989,
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and we discovered these variations.
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And then in 2000, the MAP satellite was launched -- the WMAP --
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and it made somewhat better pictures.
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And later this year -- this is the cool stealth version,
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the one that actually has some beautiful design features to it,
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and you should look -- the Planck satellite will be launched,
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and it will make very high-resolution maps.
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And that will be the sequence of understanding
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the very beginning of the universe.
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And what we saw was, we saw these variations, and then they told us
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the secrets, both about the structure of space-time,
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and about the contents of the universe,
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and about how the universe started in its original motions.
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So we have this picture, which is quite a spectacular picture,
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and I'll come back to the beginning, where we're going to have
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some mysterious process that kicks the universe off at the beginning.
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And we go through a period of accelerating expansion, and the universe
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expands and cools until it gets to the point where it becomes transparent,
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then to the Dark Ages, and then the first stars turn on,
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and they evolve into galaxies, and then later they get to the more expansive galaxies.
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And somewhere around this period is when our solar system started forming.
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And it's maturing up to the present time.
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And there's some spectacular things.
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And this wastebasket part, that's to represent
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what the structure of space-time itself is doing during this period.
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And so this is a pretty weird model, right?
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What kind of evidence do we have for that?
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So let me show you some of nature's patterns
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that are the result of this.
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I always think of space-time as being the real substance of space,
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and the galaxies and the stars just like the foam on the ocean.
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It's a marker of where the interesting waves are and whatever went on.
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So here is the Sloan Digital Sky Survey showing the location of a million galaxies.
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So there's a dot on here for every galaxy.
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They go out and point a telescope at the sky, take a picture,
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identify what are stars and throw them away, look at the galaxies,
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estimate how far away they are, and plot them up.
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And just put radially they're going out that way.
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And you see these structures, this thing we call the Great Wall,
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but there are voids and those kinds of stuff, and they kind of fade out
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because the telescope isn't sensitive enough to do it.
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Now I'm going to show you this in 3D.
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What happens is, you take pictures
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as the Earth rotates, you get a fan across the sky.
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There are some places you can't look because of our own galaxy,
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or because there are no telescopes available to do it.
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So the next picture shows you the three-dimensional version of this rotating around.
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Do you see the fan-like scans made across the sky?
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Remember, every spot on here is a galaxy, and you see the galaxies,
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you know, sort of in our neighborhood, and you sort of see the structure.
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And you see this thing we call the Great Wall,
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and you see the complicated structure, and you see these voids.
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There are places where there are no galaxies and there are places
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where there are thousands of galaxies clumped together, right.
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So there's an interesting pattern,
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but we don't have enough data here to actually see the pattern.
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We only have a million galaxies, right?
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So we're keeping, like, a million balls in the air
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but, what's going on?
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There's another survey which is very similar to this,
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called the Two-degree Field of View Galaxy Redshift Survey.
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Now we're going to fly through it at warp a million.
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And every time there's a galaxy -- at its location there's a galaxy --
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and if we know anything about the galaxy, which we do,
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because there's a redshift measurement and everything,
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you put in the type of galaxy and the color,
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so this is the real representation.
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And when you're in the middle of the galaxies
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it's hard to see the pattern; it's like being in the middle of life.
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It's hard to see the pattern in the middle of the audience,
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it's hard to see the pattern of this.
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So we're going to go out and swing around and look back at this.
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And you'll see, first, the structure of the survey,
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and then you'll start seeing the structure of the galaxies
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that we see out there.
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So again, you can see the extension of this Great Wall of galaxies showing up here.
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But you can see the voids,
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you can see the complicated structure, and you say,
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well, how did this happen?
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Suppose you're the cosmic designer.
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How are you going to put galaxies out there in a pattern like that?
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It's not just throwing them out at random.
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There's a more complicated process going on here.
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How are you going to end up doing that?
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And so now we're in for some serious play.
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That is, we have to seriously play God,
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not just change people's lives, but make the universe, right.
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So if that's your responsibility, how are you going to do that?
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What's the kind of technique?
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What's the kind of thing you're going to do?
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So I'm going to show you the results of a very large-scale simulation
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of what we think the universe might be like, using, essentially,
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some of the play principles and some of the design principles that,
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you know, humans have labored so hard to pick up,
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but apparently nature knew how to do at the beginning.
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And that is, you start out with very simple ingredients
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and some simple rules,
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but you have to have enough ingredients to make it complicated.
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And then you put in some randomness,
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some fluctuations and some randomness,
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and realize a whole bunch of different representations.
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So what I'm going to do is show you
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the distribution of matter as a function of scales.
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We're going to zoom in, but this is a plot of what it is.
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And we had to add one more thing to make the universe come out right.
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It's called dark matter.
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That is matter that doesn't interact with light
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the typical way that ordinary matter does,
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the way the light's shining on me or on the stage.
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It's transparent to light, but in order for you to see it,
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we're going to make it white. OK?
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So the stuff that's in this picture that's white, that is the dark matter.
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It should be called invisible matter,
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but the dark matter we've made visible.
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And the stuff that is in the yellow color,
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that is the ordinary kind of matter that's turned into stars and galaxies.
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So I'll show you the next movie.
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So this -- we're going to zoom in.
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Notice this pattern and pay attention to this pattern.
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We're going to zoom in and zoom in.
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And you'll see there are all these filaments and structures and voids.
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And when a number of filaments come together in a knot,
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that makes a supercluster of galaxies.
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This one we're zooming in on
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is somewhere between 100,000 and a million galaxies in that small region.
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So we live in the boonies.
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We don't live in the center of the solar system,
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we don't live in the center of the galaxy
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and our galaxy's not in the center of the cluster.
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So we're zooming in.
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This is a region which probably has more than 100,000,
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on the order of a million galaxies in that region.
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We're going to keep zooming in. OK.
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And so I forgot to tell you the scale.
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A parsec is 3.26 light years.
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So a gigaparsec is three billion light years -- that's the scale.
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So it takes light three billion years to travel over that distance.
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Now we're into a distance sort of between here and here.
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That's the distance between us and Andromeda, right?
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These little specks that you're seeing in here, they're galaxies.
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Now we're going to zoom back out,
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and you can see this structure that,
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when we get very far out, looks very regular,
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but it's made up of a lot of irregular variations.
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So they're simple building blocks.
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There's a very simple fluid to begin with.
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It's got dark matter, it's got ordinary matter,
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it's got photons and it's got neutrinos,
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which don't play much role in the later part of the universe.
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And it's just a simple fluid and it, over time,
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develops into this complicated structure.
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And so you know when you first saw this picture,
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it didn't mean quite so much to you.
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Here you're looking across one percent of the volume of the visible universe
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and you're seeing billions of galaxies, right, and nodes,
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but you realize they're not even the main structure.
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There's a framework, which is the dark matter, the invisible matter,
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that's out there that's actually holding it all together.
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So let's fly through it, and you can see how much harder it is
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when you're in the middle of something to figure this out.
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So here's that same end result.
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You see a filament,
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you see the light is the invisible matter,
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and the yellow is the stars or the galaxies showing up.
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And we're going to fly around, and we'll fly around,
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and you'll see occasionally a couple of filaments intersect,
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and you get a large cluster of galaxies.
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And then we'll fly in to where the very large cluster is,
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and you can see what it looks like.
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And so from inside, it doesn't look very complicated, right?
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It's only when you look at it at a very large scale,
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and explore it and so forth, you realize it's a very intricate,
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complicated kind of a design, right?
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And it's grown up in some kind of way.
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So the question is,
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how hard would it be to assemble this, right?
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How big a contractor team would you need
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to put this universe together, right?
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That's the issue, right?
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And so here we are.
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You see how the filament --
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you see how several filaments are coming together,
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therefore making this supercluster of galaxies.
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And you have to understand, this is not how it would actually look
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if you -- first, you can't travel this fast,
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everything would be distorted,
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but this is using simple rendering and graphic arts kind of stuff.
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This is how, if you took billions of years to go around,
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it might look to you, right?
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And if you could see invisible matter, too.
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And so the idea is, you know, how would you put together the universe
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in a very simple way?
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We're going to start and realize that the entire visible universe,
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everything we can see in every direction with the Hubble Space Telescope
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plus our other instruments,
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was once in a region that was smaller than an atom.
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It started with tiny quantum mechanical fluctuations,
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but expanding at a tremendous rate.
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And those fluctuations
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were stretched to astronomical sizes, and those fluctuations
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eventually are the things we see in the cosmic microwave background.
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And then we needed some way to turn those fluctuations into galaxies
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and clusters of galaxies and make these kinds of structures go on.
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So I'm going to show you a smaller simulation.
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This simulation was run on 1,000 processors for a month
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in order to make just this simple visible one.
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So I'm going to show you one
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that can be run on a desktop in two days in the next picture.
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So you start out with teeny fluctuations
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when the universe was at this point,
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now four times smaller, and so forth.
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And you start seeing these networks, this cosmic web of structure forming.
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And this is a simple one, because it doesn't have the ordinary matter
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and it just has the dark matter in it.
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And you see how the dark matter lumps up,
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and the ordinary matter just trails along behind.
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So there it is.
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At the beginning it's very uniform.
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The fluctuations are a part in 100,000.
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There are a few peaks that are a part in 10,000,
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and then over billions of years, gravity just pulls in.
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This is light over density, pulls the material around in.
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That pulls in more material and pulls in more material.
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But the distances on the universe are so large
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and the time scales are so large that it takes a long time for this to form.
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And it keeps forming until the universe is roughly about half the size it is now,
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in terms of its expansion.
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And at that point, the universe mysteriously starts accelerating
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its expansion and cuts off the formation of larger-scale structure.
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So we're just seeing as large a scale structure as we can see,
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and then only things that have started forming already
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are going to form, and then from then on it's going to go on.
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So we're able to do the simulation, but this is two days on a desktop.
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We need, you know, 30 days on 1,000 processors
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to do the kind of simulation that I showed you before.
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So we have an idea of how to play seriously, creating the universe
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by starting with essentially less than an eyedrop full of material,
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and we create everything we can see in any direction, right,
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from almost nothing -- that is, something extremely tiny,
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extremely small -- and it is almost perfect,
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except it has these tiny fluctuations at a part in 100,000 level,
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which turn out to produce the interesting patterns and designs we see,
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that is, galaxies and stars and so forth.
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So we have a model, and we can calculate it, and we can use it
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to make designs of what we think the universe really looks like.
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And that design is sort of way beyond
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what our original imagination ever was.
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So this is what we started with 15 years ago,
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with the Cosmic Background Explorer -- made the map on the upper right,
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which basically showed us that there were large-scale fluctuations,
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and actually fluctuations on several scales. You can kind of see that.
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Since then we've had WMAP,
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which just gives us higher angular resolution.
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We see the same large-scale structure,
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but we see additional small-scale structure.
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And on the bottom right is if the satellite had flipped upside down
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and mapped the Earth, what kind of a map we would have got of the Earth.
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You can see, well, you can, kind of pick out
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all the major continents, but that's about it.
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But what we're hoping when we get to Planck, we'll have resolution
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about equivalent to the resolution you see of the Earth there,
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where you can really see the complicated pattern that exists on the Earth.
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And you can also tell, because of the sharp edges
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and the way things fit together, there are some non-linear processes.
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Geology has these effects,
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which is moving the plates around and so forth.
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You can see that just from the map alone.
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We want to get to the point in our maps of the early universe
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we can see whether there are any non-linear effects
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that are starting to move, to modify, and are giving us a hint about how
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space-time itself was actually created at the beginning moments.
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So that's where we are today,
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and that's what I wanted to give you
a flavor of.
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Give you a different view about what the design
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and what everything else looks like.
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Thank you.
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(Applause)
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