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Quantum Mechanics Lecture 1 (January 14, 2008)
Quantum Theory, science, physics, relativity, electromagnetism, cosmology, black hole, mechanics, modern, classical, particle theory of light, Heisenberg Uncertainty Principle, Schroedinger Equation, mathematics
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Introductory MIT Courses, Physics
Selection of courses to explore Physics at MIT.
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2007 Annual Schrödinger Lecture - Discovering the quantum universe: the Large Hadron Collider proje
Professor Jim Virdee is Professor of Physics at Imperial College London
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Toward Quantum Computing - PDF - December 9, 2009
Lunch 'n Learn presentation: Imagine a computer that made direct use of quantum mechanical phenomena. Such a machine would likely operate exponentially faster than our present computers. Zahid Hasan is leading an international scientific collaboration that has observed an exciting and strange behavior in electrons' spin within a new material that could be harnessed to transform computing and electronics. The team believes that the discovery is an advancement in the fundamental physics of quantu
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Toward Quantum Computing - December 9, 2009
Lunch 'n Learn presentation: Imagine a computer that made direct use of quantum mechanical phenomena. Such a machine would likely operate exponentially faster than our present computers. Zahid Hasan is leading an international scientific collaboration that has observed an exciting and strange behavior in electrons' spin within a new material that could be harnessed to transform computing and electronics. The team believes that the discovery is an advancement in the fundamental physics of quantu
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22.012 Seminar: Fusion and Plasma Physics (MIT)
This course uses lectures and discussion to introduce the range of topics relevant to plasma physics and fusion engineering. An introductory discussion of the economic and ecological motivation for the development of fusion power is also presented. Contemporary magnetic confinement schemes, theoretical questions, and engineering considerations are presented by expert guest lecturers. Students enrolled in the course also tour the Plasma Science and Fusion Center experimental facilities.
Author(s): Molvig, Kim

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Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative C

Main Production Area 'High Alps'

thumbnailMain production area 'High Alps', picture by the Ministry of Life, Vienna

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22.101 Applied Nuclear Physics (MIT)
This course explores elements of nuclear physics for engineering students. It covers basic properties of the nucleus and nuclear radiations; quantum mechanical calculations of deuteron bound-state wave function and energy; n-p scattering cross section; transition probability per unit time and barrier transmission probability. It also covers binding energy and nuclear stability; interactions of charged particles, neutrons, and gamma rays with matter; radioactive decays; and energetics and general
Author(s): Yip, Sidney

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Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative C

How do Neurons Work?
Dr. Paul Wiseman is an Associate Professor in both Physics and Chemistry and holds the Fessenden Professorship in Science Innovation.
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The Coming Revolutions in Particle Physics
Dr. Chris Quigg (Theoretical Physics Department Fermi National Accelerator Laboratory)
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Can relativity be considered complete?
Prof. Dr. Nicolas Gisin (Group of Applied Physics, University of Geneva): Großer Hörsaal der Physik
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Wave propagation in random media: diffusion vs. localization
Dr. Thomas Wellens (Physikalisches Institut, Univ. Freiburg): As it is well known, waves are fundamentally distinct from (classical) particles in their ability to display interference. However, in presence of disorder, interferences tend to be washed out. In this case, wave propagation reduces to a simple diffusion process - like a random walk of a classical particle ("soccer ball in the forest"). But under appropriate circumstances, some interferences may also survive the disorder average and i
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PHY24 Lecture 9 (November 27, 2006)
Course - Group - PHY24 Lecture 9 (November 27, 2006) - Stanford > Modern Theoretical Physics (Fall 2006) > PHY24 Lecture 9 (November 27, 2006)
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PHY24 Lecture 8 (November 13, 2006)
Course - Group - PHY24 Lecture 8 (November 13, 2006) - Stanford > Modern Theoretical Physics (Fall 2006) > PHY24 Lecture 8 (November 13, 2006)
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PHY24 Lecture 7 (November 6, 2006)
Course - Group - PHY24 Lecture 7 (November 6, 2006) - Stanford > Modern Theoretical Physics (Fall 2006) > PHY24 Lecture 7 (November 6, 2006)
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PHY24 Lecture 6 (October 30, 2006)
Course - Group - PHY24 Lecture 6 (October 30, 2006) - Stanford > Modern Theoretical Physics (Fall 2006) > PHY24 Lecture 6 (October 30, 2006)
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PHY24 Lecture 5 (October 23, 2006)
Course - Group - PHY24 Lecture 5 (October 23, 2006) - Stanford > Modern Theoretical Physics (Fall 2006) > PHY24 Lecture 5 (October 23, 2006)
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PHY24 Lecture 4 (October 16, 2006)
Course - Group - PHY24 Lecture 4 (October 16, 2006) - Stanford > Modern Theoretical Physics (Fall 2006) > PHY24 Lecture 4 (October 16, 2006)
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PHY24 Lecture 3 (October 9, 2006)
Course - Group - PHY24 Lecture 3 (October 9, 2006) - Stanford > Modern Theoretical Physics (Fall 2006) > PHY24 Lecture 3 (October 9, 2006)
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PHY24 Lecture 2 (October 2, 2006)
Course - Group - PHY24 Lecture 2 (October 2, 2006) - Stanford > Modern Theoretical Physics (Fall 2006) > PHY24 Lecture 2 (October 2, 2006)
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