TTC - Quantum Mechanics The Physics of the Microscopic World -sup3r

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TTC - Quantum Mechanics The Physics of the Microscopic World -sup3r (Size: 176.89 MB)
 TTC - Quantum Mechanics Guidebook.pdf11.62 MB
 10 - Particles That Spin.m4a7.5 MB
 2 - The View from 1900.m4a7.28 MB
 17 - All the Myriad Ways.m4a7.27 MB
 21 - Bits, Qubits, and Ebits.m4a7.23 MB
 13 - Antisymmetric and Antisocial.m4a7.13 MB
 20 - Quantum Cryptography.m4a7.08 MB
 11 - Quantum Twins.m4a7.02 MB
 9 - States, Amplitudes, and Probabilities.m4a6.99 MB
 18 - Much Ado about Nothing.m4a6.94 MB
 5 - Standing Waves and Stable Atoms.m4a6.94 MB
 8 - Paradoxes of Interference.m4a6.92 MB
 22 - Quantum Computers.m4a6.9 MB
 1 - The Quantum Enigma.m4a6.88 MB
 6 - Uncertainty.m4a6.86 MB
 23 - Many Worlds or One.m4a6.83 MB
 14 - The Most Important Minus Sign in the World.m4a6.82 MB
 16 - Bell and Beyond.m4a6.82 MB
 12 - The Gregarious Particles.m4a6.78 MB
 7 - Complementarity and the Great Debate.m4a6.65 MB
 19 - Quantum Cloning.m4a6.63 MB
 24 - The Great Smoky Dragon.m4a6.54 MB
 4 - Particles of Light, Waves of Matter.m4a6.47 MB
 3 - Two Revolutionaries—Planck and Einstein.m4a6.43 MB
 15 - Entanglement.m4a6.38 MB

Description


1 - The Quantum Enigma2 - The View from 19003 - Two Revolutionaries—Planck and Einstein4 - Particles of Light, Waves of Matter5 - Standing Waves and Stable Atoms6 - Uncertainty7 - Complementarity and the Great Debate8 - Paradoxes of Interference9 - States, Amplitudes, and Probabilities10 - Particles That Spin11 - Quantum Twins12 - The Gregarious Particles13 - Antisymmetric and Antisocial14 - The Most Important Minus Sign in the World15 - Entanglement16 - Bell and Beyond17 - All the Myriad Ways18 - Much Ado about Nothing19 - Quantum Cloning20 - Quantum Cryptography21 - Bits, Qubits, and Ebits22 - Quantum Computers23 - Many Worlds or One24 - The Great Smoky DragonTTC - Quantum Mechanics Guidebook.pdf


One day in 1900, German physicist Max Planck told his son that he had made a breakthrough as important as Isaac Newton?s discovery of the workings of the universe. Planck had reached the surprising conclusion that light behaves as if it is packaged in discrete amounts, or quanta, a seemingly simple observation that would lead to a powerful new field of physics called quantum mechanics.
In the following decades, a series of great physicists built on Planck?s discovery, including Albert Einstein, Niels Bohr, Louis de Broglie, Werner Heisenberg, Erwin Schrodinger, Richard Feynman, and many others, developing quantum mechanics into the most successful physical theory ever devised?the general framework that underlies our understanding of nature at its most fundamental level.

Quantum mechanics gives us a picture of the world that is so radically counterintuitive that it has changed our perspective on reality itself, raising profound questions about concepts such as cause and effect, measurement, and information. Despite its seemingly mysterious nature, quantum mechanics has a broad range of applications in fields such as chemistry, computer science, and cryptography. It also plays an important role in the development and innovation of some of today?s most amazing?and important?technologies, including lasers, transistors, microscopes, semiconductors, and computer chips.

Quantum Mechanics: The Physics of the Microscopic World gives you the logical tools to grasp the paradoxes and astonishing insights of quantum mechanics in 24 half-hour lectures designed specifically for nonscientists and taught by award-winning Professor Benjamin Schumacher of Kenyon College.

No comparable presentation of this subject is so deep, so challenging, and yet accessible. Quantum Mechanics is generously illustrated with diagrams, demonstrations, and experiments and is taught by a professor who is both a riveting lecturer and a pioneer in the field, for Professor Schumacher is an innovator in the exciting new discipline of quantum information.

Think Like a Physicist

Working on the principle that any discovery made by the human mind can be explained in its essentials to the curious learner, Professor Schumacher teaches you how to reason like a physicist in working out the features of the quantum world. After taking this course, the following apparently inexplicable phenomena will make sense to you as logical outcomes of quantum processes:

That quantum particles travel through space in the form of waves that spread out and are in many places at the same time

That quantum mechanics takes us to a bedrock level of reality where objects are utterly simple, identical in every respect

That two quantum particles can interact at a distance in a way that seems almost telepathic?a phenomenon that Albert Einstein called ?spooky?

That even in the complete vacuum of empty space, there is still a vast amount of energy bubbling into and out of existence

Regarding the last phenomenon, you could say that quantum mechanics not only changes our view of everything, it also changes our view of ?nothing!?

Quantum Puzzles

Quantum mechanics has even entered popular language with expressions such as ?quantum leap,? which is often used inaccurately to mean a radical transformation. In quantum mechanics, a quantum leap is the minimum change in the energy level of an electron, related to the discrete units of light energy discovered by Max Planck.

Another familiar expression is the ?uncertainty principle,? an idea formulated by Werner Heisenberg in the 1920s. Again, popular usage can be misleading, since one often hears the term used to mean the unavoidable disturbance caused by making an observation. But in quantum mechanics the concept refers to an elementary feature of the microworld?that certain properties have no well-defined values at all.

Little wonder that quantum mechanics is one of the few fields in which philosophical speculation goes hand in hand with scientific breakthroughs. Consider these quantum puzzles that have striking philosophical implications:

Schrodinger?s cat: Erwin Schrodinger noted that the standard Copenhagen interpretation of quantum mechanics makes it possible for a cat to be considered simultaneously dead and alive when exposed to a potentially lethal quantum situation.

Bell?s theorem: John Bell showed that we must either give up the idea that particles have definite properties before they are measured, or we must imagine that all the particles in the universe are connected by a web of instantaneous communication links.

Many-worlds interpretation: In a scenario adopted by many science fiction authors, Hugh Everett III argued that every possible outcome of every quantum event takes place in a limitless branching series of parallel universes?of which we see only one.

Clear, Enlightening, and Thorough

Quantum Mechanics begins by exploring the origin of quantum mechanics and its golden age of discoveries in the early 20th century before taking you deeply into the key concepts and methods of the discipline. Then Professor Schumacher rounds out the course with a discussion of selected topics, including the potentially revolutionary applications of quantum cryptography and quantum computing. Throughout, he adheres to the following very helpful ground rules, tailored to give those without any previous preparation in math and physics a clear, enlightening, and thorough introduction to quantum mechanics:

He presents the real theory of quantum mechanics, not a superficial popularization.

He simplifies the subject to highlight fundamental principles.

He uses thought experiments, or hypothetical examples, as a tool for probing quantum phenomena.

He teaches you rudimentary symbols and rules that allow you to calculate the outcome of various quantum experiments.

One thought experiment that Professor Schumacher returns to involves a Mach-Zehnder interferometer, a simple arrangement of mirrors and detectors that illustrates basic properties and paradoxes of quantum mechanics. By considering the different paths that a photon can take through the interferometer, you discover such key principles as constructive and destructive interference, Max Born?s probabilistic explanation of quantum phenomena, and Niels Bohr?s concept of complementarity that led to the Copenhagen interpretation?the view of quantum mechanics since the 1920s.

Lucid, witty, and intensely interesting, Dr. Schumacher?s lectures are illustrated with scores of insightful graphics. You are also introduced to a celebrated visual aid used by physicists themselves: the Feynman diagram, made famous by Nobel Prize?winner Richard Feynman as a cartoon-like shorthand for keeping track of quantum particles as they ceaselessly interact, change their identities, and even move backward through time!

Be Part of a Great Tradition

Richard Feynman was a graduate student of the eminent theoretical physicist John A. Wheeler?and so was Professor Schumacher, who earned the last Ph.D. that Dr. Wheeler supervised. Wheeler, in turn, was mentored by Niels Bohr, who studied with Ernest Rutherford, one of the pioneers of nuclear physics at the turn of the 20th century. Therefore, as you watch Quantum Mechanics, you are part of an unbroken chain of thinkers who have transmitted ideas and added to them across the decades, pondering, probing, and making remarkable discovery after discovery to uncover the secrets of our physical world

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TTC - Quantum Mechanics The Physics of the Microscopic World -sup3r