Making sense of string theory | Brian Greene

2,832,103 views ・ 2008-04-23

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In the year 1919,
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a virtually unknown German mathematician, named Theodor Kaluza
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suggested a very bold and, in some ways, a very bizarre idea.
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He proposed that our universe
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might actually have more than the three dimensions
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that we are all aware of.
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That is in addition to left, right, back, forth and up, down,
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Kaluza proposed that there might be additional dimensions of space
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that for some reason we don't yet see.
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Now, when someone makes a bold and bizarre idea,
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sometimes that's all it is -- bold and bizarre,
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but it has nothing to do with the world around us.
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This particular idea, however --
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although we don't yet know whether it's right or wrong,
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and at the end I'll discuss experiments which, in the next few years,
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may tell us whether it's right or wrong --
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this idea has had a major impact on physics in the last century
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and continues to inform a lot of cutting-edge research.
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So, I'd like to tell you something about the story of these extra dimensions.
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So where do we go?
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To begin we need a little bit of back story. Go to 1907.
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This is a year when Einstein is basking in the glow
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of having discovered the special theory of relativity
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and decides to take on a new project,
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to try to understand fully the grand, pervasive force of gravity.
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And in that moment, there are many people around
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who thought that that project had already been resolved.
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Newton had given the world a theory of gravity in the late 1600s
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that works well, describes the motion of planets,
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the motion of the moon and so forth,
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the motion of apocryphal of apples falling from trees,
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hitting people on the head.
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All of that could be described using Newton's work.
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But Einstein realized that Newton had left something out of the story,
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because even Newton had written
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that although he understood how to calculate the effect of gravity,
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he'd been unable to figure out how it really works.
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How is it that the Sun, 93 million miles away,
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[that] somehow it affects the motion of the Earth?
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How does the Sun reach out across empty inert space and exert influence?
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And that is a task to which Einstein set himself --
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to figure out how gravity works.
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And let me show you what it is that he found.
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So Einstein found
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that the medium that transmits gravity is space itself.
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The idea goes like this:
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imagine space is a substrate of all there is.
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Einstein said space is nice and flat, if there's no matter present.
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But if there is matter in the environment, such as the Sun,
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it causes the fabric of space to warp, to curve.
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And that communicates the force of gravity.
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Even the Earth warps space around it.
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Now look at the Moon.
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The Moon is kept in orbit, according to these ideas,
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because it rolls along a valley in the curved environment
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that the Sun and the Moon and the Earth can all create by virtue of their presence.
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We go to a full-frame view of this.
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The Earth itself is kept in orbit
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because it rolls along a valley in the environment that's curved
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because of the Sun's presence.
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That is this new idea about how gravity actually works.
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Now, this idea was tested in 1919 through astronomical observations.
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It really works. It describes the data.
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And this gained Einstein prominence around the world.
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And that is what got Kaluza thinking.
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He, like Einstein, was in search of what we call a unified theory.
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That's one theory
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that might be able to describe all of nature's forces from one set of ideas,
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one set of principles, one master equation, if you will.
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So Kaluza said to himself,
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Einstein has been able to describe gravity
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in terms of warps and curves in space --
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in fact, space and time, to be more precise.
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Maybe I can play the same game with the other known force,
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which was, at that time, known as the electromagnetic force --
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we know of others today, but at that time
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that was the only other one people were thinking about.
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You know, the force responsible for electricity
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and magnetic attraction and so forth.
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So Kaluza says, maybe I can play the same game
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and describe electromagnetic force in terms of warps and curves.
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That raised a question: warps and curves in what?
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Einstein had already used up space and time,
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warps and curves, to describe gravity.
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There didn't seem to be anything else to warp or curve.
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So Kaluza said, well, maybe there are more dimensions of space.
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He said, if I want to describe one more force,
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maybe I need one more dimension.
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So he imagined that the world had four dimensions of space, not three,
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and imagined that electromagnetism was warps and curves
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in that fourth dimension. Now here's the thing:
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when he wrote down the equations describing warps and curves
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in a universe with four space dimensions, not three,
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he found the old equations that Einstein had already derived in three dimensions --
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those were for gravity --
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but he found one more equation because of the one more dimension.
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And when he looked at that equation,
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it was none other than the equation
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that scientists had long known to describe the electromagnetic force.
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Amazing -- it just popped out.
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He was so excited by this realization
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that he ran around his house screaming, "Victory!" --
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that he had found the unified theory.
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Now clearly, Kaluza was a man who took theory very seriously.
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He, in fact --
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there is a story that when he wanted to learn how to swim,
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he read a book, a treatise on swimming --
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(Laughter)
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-- then dove into the ocean.
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This is a man who would risk his life on theory.
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Now, but for those of us who are a little bit more practically minded,
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two questions immediately arise from his observation.
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Number one: if there are more dimensions in space, where are they?
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We don't seem to see them.
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And number two: does this theory really work in detail,
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when you try to apply it to the world around us?
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Now, the first question was answered in 1926
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by a fellow named Oskar Klein.
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He suggested that dimensions might come in two varieties --
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there might be big, easy-to-see dimensions,
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but there might also be tiny, curled-up dimensions,
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curled up so small, even though they're all around us,
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that we don't see them.
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Let me show you that one visually.
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So, imagine you're looking at something
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like a cable supporting a traffic light.
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It's in Manhattan. You're in Central Park -- it's kind of irrelevant --
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but the cable looks one-dimensional from a distant viewpoint,
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but you and I all know that it does have some thickness.
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It's very hard to see it, though, from far away.
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But if we zoom in and take the perspective of, say,
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a little ant walking around --
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little ants are so small that they can access all of the dimensions --
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the long dimension,
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but also this clockwise, counter-clockwise direction.
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And I hope you appreciate this.
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It took so long to get these ants to do this.
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(Laughter)
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But this illustrates the fact that dimensions can be of two sorts:
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big and small. And the idea that maybe the big dimensions around us
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are the ones that we can easily see,
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but there might be additional dimensions curled up,
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sort of like the circular part of that cable,
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so small that they have so far remained invisible.
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Let me show you what that would look like.
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So, if we take a look, say, at space itself --
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I can only show, of course, two dimensions on a screen.
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Some of you guys will fix that one day,
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but anything that's not flat on a screen is a new dimension,
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goes smaller, smaller, smaller,
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and way down in the microscopic depths of space itself,
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this is the idea,
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you could have additional curled up dimensions --
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here is a little shape of a circle -- so small that we don't see them.
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But if you were a little ultra microscopic ant walking around,
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you could walk in the big dimensions that we all know about --
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that's like the grid part --
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but you could also access the tiny curled-up dimension
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that's so small that we can't see it with the naked eye
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or even with any of our most refined equipment.
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But deeply tucked into the fabric of space itself,
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the idea is there could be more dimensions, as we see there.
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Now that's an explanation
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about how the universe could have more dimensions than the ones that we see.
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But what about the second question that I asked:
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does the theory actually work
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when you try to apply it to the real world?
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Well, it turns out that Einstein and Kaluza and many others
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worked on trying to refine this framework
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and apply it to the physics of the universe
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as was understood at the time, and, in detail, it didn't work.
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In detail, for instance,
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they couldn't get the mass of the electron
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to work out correctly in this theory.
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So many people worked on it, but by the '40s, certainly by the '50s,
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this strange but very compelling idea
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of how to unify the laws of physics had gone away.
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Until something wonderful happened in our age.
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In our era, a new approach to unify the laws of physics
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is being pursued by physicists such as myself,
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many others around the world,
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it's called superstring theory, as you were indicating.
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And the wonderful thing is that superstring theory
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has nothing to do at first sight with this idea of extra dimensions,
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but when we study superstring theory,
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we find that it resurrects the idea in a sparkling, new form.
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So, let me just tell you how that goes.
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Superstring theory -- what is it?
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Well, it's a theory that tries to answer the question:
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what are the basic, fundamental, indivisible, uncuttable constituents
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making up everything in the world around us?
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The idea is like this.
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So, imagine we look at a familiar object, just a candle in a holder,
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and imagine that we want to figure out what it is made of.
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So we go on a journey deep inside the object and examine the constituents.
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So deep inside -- we all know, you go sufficiently far down, you have atoms.
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We also all know that atoms are not the end of the story.
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They have little electrons that swarm around a central nucleus
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with neutrons and protons.
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Even the neutrons and protons have smaller particles inside of them known as quarks.
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That is where conventional ideas stop.
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Here is the new idea of string theory.
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Deep inside any of these particles, there is something else.
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This something else is this dancing filament of energy.
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It looks like a vibrating string --
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that's where the idea, string theory comes from.
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And just like the vibrating strings that you just saw in a cello
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can vibrate in different patterns,
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these can also vibrate in different patterns.
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They don't produce different musical notes.
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Rather, they produce the different particles making up the world around us.
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So if these ideas are correct,
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this is what the ultra-microscopic landscape of the universe looks like.
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It's built up of a huge number
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of these little tiny filaments of vibrating energy,
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vibrating in different frequencies.
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The different frequencies produce the different particles.
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The different particles are responsible
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for all the richness in the world around us.
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And there you see unification,
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because matter particles, electrons and quarks,
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radiation particles, photons, gravitons, are all built up from one entity.
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So matter and the forces of nature all are put together
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under the rubric of vibrating strings.
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And that's what we mean by a unified theory.
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Now here is the catch.
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When you study the mathematics of string theory,
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you find that it doesn't work
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in a universe that just has three dimensions of space.
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It doesn't work in a universe with four dimensions of space, nor five, nor six.
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Finally, you can study the equations, and show that it works
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only in a universe that has 10 dimensions of space
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and one dimension of time.
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It leads us right back to this idea of Kaluza and Klein --
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that our world, when appropriately described,
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has more dimensions than the ones that we see.
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Now you might think about that and say, well,
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OK, you know, if you have extra dimensions, and they're really tightly curled up,
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yeah, perhaps we won't see them, if they're small enough.
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But if there's a little tiny civilization of green people walking around down there,
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and you make them small enough, and we won't see them either. That is true.
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One of the other predictions of string theory --
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no, that's not one of the other predictions of string theory.
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(Laughter)
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But it raises the question:
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are we just trying to hide away these extra dimensions,
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or do they tell us something about the world?
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In the remaining time, I'd like to tell you two features of them.
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First is, many of us believe that these extra dimensions
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hold the answer to what perhaps is the deepest question
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in theoretical physics, theoretical science.
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And that question is this: when we look around the world,
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as scientists have done for the last hundred years,
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there appear to be about 20 numbers that really describe our universe.
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These are numbers like the mass of the particles,
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like electrons and quarks, the strength of gravity,
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the strength of the electromagnetic force --
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a list of about 20 numbers
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that have been measured with incredible precision,
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but nobody has an explanation
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for why the numbers have the particular values that they do.
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Now, does string theory offer an answer?
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Not yet.
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But we believe the answer for why those numbers have the values they do
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may rely on the form of the extra dimensions.
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And the wonderful thing is, if those numbers
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had any other values than the known ones,
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the universe, as we know it, wouldn't exist.
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This is a deep question.
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Why are those numbers so finely tuned
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to allow stars to shine and planets to form,
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when we recognize that if you fiddle with those numbers --
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if I had 20 dials up here
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and I let you come up and fiddle with those numbers,
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almost any fiddling makes the universe disappear.
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So can we explain those 20 numbers?
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And string theory suggests that those 20 numbers
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have to do with the extra dimensions.
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Let me show you how.
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So when we talk about the extra dimensions in string theory,
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it's not one extra dimension,
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as in the older ideas of Kaluza and Klein.
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This is what string theory says about the extra dimensions.
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They have a very rich, intertwined geometry.
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This is an example of something known as a Calabi-Yau shape --
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name isn't all that important.
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But, as you can see,
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the extra dimensions fold in on themselves
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and intertwine in a very interesting shape, interesting structure.
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And the idea is that if this is what the extra dimensions look like,
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then the microscopic landscape of our universe all around us
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would look like this on the tiniest of scales.
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When you swing your hand,
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you'd be moving around these extra dimensions over and over again,
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but they're so small that we wouldn't know it.
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So what is the physical implication, though, relevant to those 20 numbers?
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Consider this. If you look at the instrument, a French horn,
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notice that the vibrations of the airstreams
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are affected by the shape of the instrument.
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Now in string theory,
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all the numbers are reflections of the way strings can vibrate.
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So just as those airstreams
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are affected by the twists and turns in the instrument,
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strings themselves will be affected
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by the vibrational patterns in the geometry within which they are moving.
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So let me bring some strings into the story.
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And if you watch these little fellows vibrating around --
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they'll be there in a second -- right there,
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notice that they way they vibrate is affected
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by the geometry of the extra dimensions.
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So, if we knew exactly what the extra dimensions look like --
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we don't yet, but if we did --
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we should be able to calculate the allowed notes,
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the allowed vibrational patterns.
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And if we could calculate the allowed vibrational patterns,
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we should be able to calculate those 20 numbers.
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And if the answer that we get from our calculations
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agrees with the values of those numbers
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that have been determined
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through detailed and precise experimentation,
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this in many ways would be the first fundamental explanation
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for why the structure of the universe is the way it is.
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Now, the second issue that I want to finish up with is:
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how might we test for these extra dimensions more directly?
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Is this just an interesting mathematical structure
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that might be able to explain
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some previously unexplained features of the world,
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or can we actually test for these extra dimensions?
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And we think -- and this is, I think, very exciting --
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that in the next five years or so we may be able to test
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for the existence of these extra dimensions.
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Here's how it goes. In CERN, Geneva, Switzerland,
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a machine is being built called the Large Hadron Collider.
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It's a machine that will send particles around a tunnel,
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opposite directions, near the speed of light.
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Every so often those particles will be aimed at each other,
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so there's a head-on collision.
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The hope is that if the collision has enough energy,
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it may eject some of the debris from the collision
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from our dimensions, forcing it to enter into the other dimensions.
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How would we know it?
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Well, we'll measure the amount of energy after the collision,
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compare it to the amount of energy before,
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and if there's less energy after the collision than before,
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this will be evidence that the energy has drifted away.
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And if it drifts away in the right pattern that we can calculate,
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this will be evidence that the extra dimensions are there.
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Let me show you that idea visually.
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So, imagine we have a certain kind of particle called a graviton --
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that's the kind of debris we expect to be ejected out,
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if the extra dimensions are real.
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But here's how the experiment will go.
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You take these particles. You slam them together.
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You slam them together, and if we are right,
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some of the energy of that collision
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will go into debris that flies off into these extra dimensions.
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So this is the kind of experiment
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that we'll be looking at in the next five, seven to 10 years or so.
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And if this experiment bears fruit,
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if we see that kind of particle ejected
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by noticing that there's less energy in our dimensions
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than when we began,
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this will show that the extra dimensions are real.
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And to me this is a really remarkable story,
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and a remarkable opportunity. Going back to Newton with absolute space --
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didn't provide anything but an arena, a stage
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in which the events of the universe take place.
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Einstein comes along and says,
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well, space and time can warp and curve -- that's what gravity is.
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And now string theory comes along and says,
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yes, gravity, quantum mechanics, electromagnetism,
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all together in one package,
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but only if the universe has more dimensions than the ones that we see.
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And this is an experiment that may test for them in our lifetime.
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Amazing possibility.
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Thank you very much.
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(Applause)
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