Patch Adams Transcript

NOVA Official Website The Fabric of the Cosmos. THE FABRIC OF THE COSMOS QUANTUM LEAPPBS airdate 1. NARRATOR Lying just beneath everyday reality is a breathtaking world, where much of what we perceive about the universe is wrong. Physicist and best selling author Brian Greene takes you on a journey that bends the rules of human experience. BRIAN GREENE Columbia University Why dont we ever see events unfold in reverse order According to the laws of physics, this can happen. NARRATOR Its a world that comes to light as we probe the most extreme realms of the cosmos, from black holes to the Big Bang to the very heart of matter, itself. BRIAN GREENE Im going to have what hes having. NARRATOR Here, our universe may be one of numerous parallel realities, the three dimensional world, merely a mirage the distinction between past, present and future, just an illusion. BRIAN GREENE But how could this beHow could we be so wrong about something so familiar DAVID GROSS Does it bother usAbsolutely. STEVEN WEINBERG The University of Texas at Austin Theres no principle built into the laws of nature that says theoretical physicists have to be happy. NARRATOR Its a game changing perspective that opens up a whole new world of possibilities. The Rock Script taken from a transcript of the screenplay andor the Michael Bay movie with Nic Cage and Sean Connery. The first noncoding RNA to be characterised was an alanine tRNA found in bakers yeast, its structure was published in 1965. Bringing Architecture To The Next Level Pdf. To produce a purified alanine tRNA. Scientists confirm a SECOND great garbage patch in the Pacific and say its bigger than TEXAS. In the 1980s, researchers discovered a huge garbage patch in the. This is for educational use only, and is not to be reposted, reproduced or sold. This document is copyright 1972 Paramount Pictures. For your own personal academic. The Republican presidential candidates met for a primetime debate at the Reagan Library in California. The Official Athletic Site of Navy Football, partner of CBS Sports Digital. The most comprehensive coverage of the Midshipmen on the web. Coming up the realm of tiny atoms and particles, the quantum realm. The laws here seem impossible. BRIAN GREENE Theres a sense in which things dont like to be tied down to just one location. NARRATOR. yet theyre vital to everything in the universe. ALLAN ADAMS Massachusetts Institute of Technology Theres no disagreement between quantum mechanics and any experiment thats ever been done. NARRATOR What do they reveal about the nature of reality Take a Quantum Leap on the Fabric of the Cosmos, right now, on NOVA. BRIAN GREENE For thousands of years, weve been trying to unlock the mysteries of how the universe works. And weve done pretty well, coming up with a set of laws that describes the clear and certain motion of galaxies and stars and planets. But now we know at a fundamental level, things are a lot more fuzzy, because weve discovered a revolutionary new set of laws that have completely transformed our picture of the universe. From outer space, to the heart of New York City, to the microscopic realm, our view of the world has shifted, thanks to these strange and mysterious laws that are redefining our understanding of reality. They are the laws of quantum mechanics. Quantum mechanics rules over every atom and tiny particle in every piece of matter in stars and planets, in rocks and buildings, and in you and me. We dont notice the strangeness of quantum mechanics in everyday life, but its always there, if you know where to look. You just have to change your perspective and get down to the tiniest of scales, to the level of atoms and the particles inside them. Down at the quantum level, the laws that govern this tiny realm appear completely different from the familiar laws that govern big, everyday objects. And once you catch a glimpse of them, you never look at the world in quite the same way. Its almost impossible to picture how weird things can get down at the smallest of scales. But what if you could visit a place like this, where the quantum laws were obvious, where people and objects behave like tiny atoms and particles Youd be in for quite a show. Here, objects do things that seem crazy. I mean, in the quantum world, BRIAN GREENE 2 Theres a sense in which things dont like to be tied down to just one location. BRIAN GREENE. or to follow just one path. Its almost as if things were in more than one place at time. And what I do here can have an immediate effect somewhere else, even if theres no one there. And heres one of the strangest things of all if people behaved like the particles inside the atom, then, most of the time, you wouldnt know exactly where they were. Instead, they could be almost anywhere, until you looked for them. Hey. Im going to have what hes having. So, why do we believe these bizarre lawsWell, for over 7. And in experiment after experiment, the quantum laws have always been right. ALLAN ADAMS Its the best theory we have. SETH LLOYD Massachusetts Institute of Technology There are literally billions of pieces of confirming evidence for quantum mechanics. WALTER LEWIN Massachusetts Institute of Technology It has passed so many tests of so many bizarre predictions. ALLAN ADAMS Theres no disagreement between quantum mechanics and any experiment thats ever been done. BRIAN GREENE The quantum laws become most obvious when you get down to tiny scales, like atoms, but consider this Im made of atoms so are you. The Fabric of the Cosmos, a fourhour series based on the book by renowned physicist and author Brian Greene, takes us to the frontiers of physics to see how. Student records and transcripts may be requested from several different sources, depending upon the students last date of attendance or graduation date. Please. Get up to the minute entertainment news, celebrity interviews, celeb videos, photos, movies, TV, music news and pop culture on ABCNews. As of 30 November 2015, the games. Net and the team would like to thank everyone who was involved in the community. So is everything else we see in the world around us. So it must be the case that these weird quantum laws are not just telling us about small things, theyre telling us about reality. So how did we discover them, these strange laws that seem to contradict much of what we thought we knew about the universe Not long ago, we thought we had it pretty much figured out, the rules that govern how planets orbit the sun, how a ball arcs through the sky, how ripples move across the surface of a pond. These laws were all spelled out in a series of equations called classical mechanics, and they allowed us to predict the behavior of things with certainty. It all seemed to be making perfect sense, until about a hundred years ago, when scientists were struggling to explain some unusual properties of light for example, the kind of light that glowed from gases when they were heated in a glass tube. When scientists observed this light through a prism, they saw something theyd never expected. PETER GALISON Harvard University If you heated up some gas and looked at it through a prism, it formed lines, not the continuous spectrum that you see projected by a piece of cut glass on your table, but very distinct lines. DAVID KAISER Massachusetts Institute of Technology It wouldnt give out a smear, kind of a complete rainbow of light it would give out, sort of, pencil beams of light, at very specific colors. PETER GALISON And it was something of a mystery, how to understand what was going on. BRIAN GREENE An explanation for the mysterious lines of color would come from a band of radical scientists, who, at the beginning of the 2. And some of the most startling insights came from the mind of Niels Bohr, a physicist who loved to discuss new ideas over ping pong. Bohr was convinced that the solution to the mystery lay at the heart of matter itself, in the structure of the atom. He thought that atoms resembled tiny solar systems, with even tinier particles called electrons orbiting around a nucleus, much the way the planets orbit around the sun. But Bohr proposed that, unlike the solar system, electrons could not move in just any orbit, instead, only certain orbits were allowed. PETER GALISON And he had a, a really surprising and completely counter physical idea, which was that there were definite states, fixed orbits that these electrons could have, and only those orbits. BRIAN GREENE Bohr said that when an atom was heated, its electrons would become agitated and leap from one fixed orbit to another. Each downward leap would emit energy, in the form of light in very specific wavelengths. And thats why atoms produce very specific colors. This is where we get the phrase quantum leap. S. CNN. com Transcripts. Return to Transcripts main page. CNN 1. 0Note This page is continually updated as new transcripts become available. If you cannot find a specific segment, check back later. December 0. 1, 2. November 3. 0, 2. November 2. 9, 2. November 2. 8, 2. November 2. 7, 2. November 2. 1, 2. November 2. 0, 2. November 1. 7, 2. November 1. 6, 2. November 1. 5, 2. November 1. 4, 2. November 1. 3, 2. November 1. 0, 2. November 0. 9, 2. November 0. 8, 2. November 0. 7, 2. November 0. 6, 2. November 0. 3, 2. November 0. 2, 2. November 0. 1, 2. October 3. 1, 2. 01. October 3. 0, 2. 01. October 2. 7, 2. 01. October 2. 6, 2. 01. October 2. 5, 2. 01. October 2. 4, 2. 01. October 2. 3, 2. 01. October 2. 0, 2. 01. October 1. 9, 2. 01. October 1. 8, 2. 01. October 1. 7, 2. 01. October 1. 6, 2. 01. October 1. 3, 2. 01. October 1. 2, 2. 01. October 1. 1, 2. 01. October 1. 0, 2. 01. 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