In 2007, Susskind joined the Faculty of Perimeter Institute for Theoretical Physics in Waterloo, Ontario, Canada, as an Associate Member. [3] It is the first book in a series called The Theoretical Minimum, based on Stanford Continuing Studies courses taught by world renowned physicist Leonard Susskind. The book is his most famous work and explains what he thinks would happen to the information and matter stored in a black hole when it evaporates. Susskind gave 3 lectures "The Birth of the Universe and the Origin of Laws of Physics" April 28-May 1, 2014 in the Cornell Messenger Lecture series which are posted on a Cornell website.[35]. Be the first one to, Leonard Susskind - All Stanford physics lectures, leonard-susskind-all-stanford-physics-lectures, Advanced embedding details, examples, and help, Leonard Susskind - All Stanford physics lectures in order, Advanced Quantum Mechanics Lecture 1-720p.mp4, Advanced Quantum Mechanics Lecture 10-720p.mp4, Advanced Quantum Mechanics Lecture 2-720p.mp4, Advanced Quantum Mechanics Lecture 3-720p.mp4, Advanced Quantum Mechanics Lecture 4-720p.mp4, Advanced Quantum Mechanics Lecture 5-720p.mp4, Advanced Quantum Mechanics Lecture 6-720p.mp4, Advanced Quantum Mechanics Lecture 7-720p.mp4, Advanced Quantum Mechanics Lecture 8-720p.mp4, Advanced Quantum Mechanics Lecture 9-720p.mp4, Demystifying the Higgs Boson with Leonard Susskind-720p.mp4, Einstein's General Theory of Relativity _ Lecture 1-240p.mp4, Einstein's General Theory of Relativity _ Lecture 10-360p.mp4, Einstein's General Theory of Relativity _ Lecture 11-360p.mp4, Einstein's General Theory of Relativity _ Lecture 12-360p.mp4, Einstein's General Theory of Relativity _ Lecture 2-240p.mp4, Einstein's General Theory of Relativity _ Lecture 3-240p.mp4, Einstein's General Theory of Relativity _ Lecture 4-360p.mp4, Einstein's General Theory of Relativity _ Lecture 5-240p.mp4, Einstein's General Theory of Relativity _ Lecture 6-240p.mp4, Einstein's General Theory of Relativity _ Lecture 7-240p.mp4, Einstein's General Theory of Relativity _ Lecture 8-240p.mp4, Einstein's General Theory of Relativity _ Lecture 9-240p.mp4, Lecture 1 _ Modern Physics - Classical Mechanics (Stanford)-240p.mp4, Lecture 1 _ Modern Physics - Quantum Mechanics (Stanford)-240p.mp4, Lecture 1 _ Modern Physics - Special Relativity (Stanford)-240p.mp4, Lecture 1 _ Modern Physics - Statistical Mechanics-360p.mp4, Lecture 1 _ New Revolutions in Particle Physics - Basic Concepts-360p.mp4, Lecture 1 _ New Revolutions in Particle Physics - Standard Model-360p.mp4, Lecture 1 _ Quantum Entanglements, Part 1 (Stanford)-240p.mp4, Lecture 1 _ Quantum Entanglements, Part 3 (Stanford)-240p.mp4, Lecture 1 _ String Theory and M-Theory-360p.mp4, Lecture 1 _ The Theoretical Minimum-720p.mp4, Lecture 1 _ Topics in String Theory-360p.mp4, Lecture 10 _ Modern Physics - Quantum Mechanics (Stanford)-240p.mp4, Lecture 10 _ Modern Physics - Statistical Mechanics-360p.mp4, Lecture 10 _ New Revolutions in Particle Physics - Basic Concepts-360p.mp4, Lecture 10 _ New Revolutions in Particle Physics - Standard Model-360p.mp4, Lecture 10 _ String Theory and M-Theory-360p.mp4, Lecture 10 _ The Theoretical Minimum-720p.mp4, Lecture 2 _ Modern Physics - Classical Mechanics (Stanford)-240p.mp4, Lecture 2 _ Modern Physics - Quantum Mechanics (Stanford)-240p.mp4, Lecture 2 _ Modern Physics - Special Relativity (Stanford)-240p.mp4, Lecture 2 _ Modern Physics - Statistical Mechanics-360p.mp4, Lecture 2 _ New Revolutions in Particle Physics - Basic Concepts-360p.mp4, Lecture 2 _ New Revolutions in Particle Physics - Standard Model-360p.mp4, Lecture 2 _ Quantum Entanglements, Part 1 (Stanford)-240p.mp4, Lecture 2 _ String Theory and M-Theory-360p.mp4, Lecture 2 _ The Theoretical Minimum-720p.mp4, Lecture 2 _ Topics in String Theory-360p.mp4, Lecture 3 _ Modern Physics - Classical Mechanics (Stanford)-240p.mp4, Lecture 3 _ Modern Physics - Quantum Mechanics (Stanford)-240p.mp4, Lecture 3 _ Modern Physics - Special Relativity (Stanford)-240p.mp4, Lecture 3 _ Modern Physics - Statistical Mechanics-360p.mp4, Lecture 3 _ New Revolutions in Particle Physics - Basic Concepts-360p.mp4, Lecture 3 _ New Revolutions in Particle Physics - Standard Model-360p.mp4, Lecture 3 _ Quantum Entanglements, Part 1 (Stanford)-240p.mp4, Lecture 3 _ String Theory and M-Theory-360p.mp4, Lecture 3 _ The Theoretical Minimum-720p.mp4, Lecture 3 _ Topics in String Theory-360p.mp4, Lecture 4 _ Modern Physics - Classical Mechanics (Stanford)-240p.mp4, Lecture 4 _ Modern Physics - Quantum Mechanics (Stanford)-240p.mp4, Lecture 4 _ Modern Physics - Special Relativity (Stanford)-240p.mp4, Lecture 4 _ Modern Physics - Statistical Mechanics-360p.mp4, Lecture 4 _ New Revolutions in Particle Physics - Basic Concepts-360p.mp4, Lecture 4 _ New Revolutions in Particle Physics - Standard Model-360p.mp4, Lecture 4 _ Quantum Entanglements, Part 1 (Stanford)-240p.mp4, Lecture 4 _ Quantum Entanglements, Part 3 (Stanford)-240p.mp4, Lecture 4 _ String Theory and M-Theory-360p.mp4, Lecture 4 _ The Theoretical Minimum-720p.mp4, Lecture 4 _ Topics in String Theory-360p.mp4, Lecture 5 _ Modern Physics - Classical Mechanics (Stanford)-240p.mp4, Lecture 5 _ Modern Physics - Quantum Mechanics (Stanford)-240p.mp4, Lecture 5 _ Modern Physics - Special Relativity (Stanford)-240p.mp4, Lecture 5 _ Modern Physics - Statistical Mechanics-360p.mp4, Lecture 5 _ New Revolutions in Particle Physics - Basic Concepts-360p.mp4, Lecture 5 _ New Revolutions in Particle Physics - Standard Model-360p.mp4, Lecture 5 _ Quantum Entanglements, Part 1 (Stanford)-240p.mp4, Lecture 5 _ Quantum Entanglements, Part 3 (Stanford)-240p.mp4, Lecture 5 _ String Theory and M-Theory-360p.mp4, Lecture 5 _ The Theoretical Minimum-720p.mp4, Lecture 5 _ Topics in String Theory-360p.mp4, Lecture 6 _ Modern Physics - Classical Mechanics (Stanford)-240p.mp4, Lecture 6 _ Modern Physics - Quantum Mechanics (Stanford)-240p.mp4, Lecture 6 _ Modern Physics - Special Relativity (Stanford)-240p.mp4, Lecture 6 _ Modern Physics - Statistical Mechanics-360p.mp4, Lecture 6 _ New Revolutions in Particle Physics - Basic Concepts-360p.mp4, Lecture 6 _ New Revolutions in Particle Physics - Standard Model-360p.mp4, Lecture 6 _ Quantum Entanglements, Part 1 (Stanford)-240p.mp4, Lecture 6 _ Quantum Entanglements, Part 3 (Stanford)-240p.mp4, Lecture 6 _ String Theory and M-Theory-360p.mp4, Lecture 6 _ The Theoretical Minimum-720p.mp4, Lecture 6 _ Topics in String Theory-360p.mp4, Lecture 7 _ Modern Physics - Classical Mechanics (Stanford)-240p.mp4, Lecture 7 _ Modern Physics - Quantum Mechanics (Stanford)-240p.mp4, Lecture 7 _ Modern Physics - Special Relativity (Stanford)-240p.mp4, Lecture 7 _ Modern Physics - Statistical Mechanics-360p.mp4, Lecture 7 _ New Revolutions in Particle Physics - Basic Concepts-360p.mp4, Lecture 7 _ New Revolutions in Particle Physics - Standard Model-360p.mp4, Lecture 7 _ Quantum Entanglements, Part 1 (Stanford)-240p.mp4, Lecture 7 _ Quantum Entanglements, Part 3 (Stanford)-240p.mp4, Lecture 7 _ String Theory and M-Theory-360p.mp4, Lecture 7 _ The Theoretical Minimum-720p.mp4, Lecture 7 _ Topics in String Theory-360p.mp4, Lecture 8 _ Modern Physics - Classical Mechanics (Stanford)-240p.mp4, Lecture 8 _ Modern Physics - Quantum Mechanics (Stanford)-240p.mp4, Lecture 8 _ Modern Physics - Special Relativity (Stanford)-240p.mp4, Lecture 8 _ Modern Physics - Statistical Mechanics-360p.mp4, Lecture 8 _ New Revolutions in Particle Physics - Basic Concepts-360p.mp4, Lecture 8 _ New Revolutions in Particle Physics - Standard Model-360p.mp4, Lecture 8 _ Quantum Entanglements, Part 1 (Stanford)-240p.mp4, Lecture 8 _ Quantum Entanglements, Part 3 (Stanford)-240p.mp4, Lecture 8 _ String Theory and M-Theory-360p.mp4, Lecture 8 _ The Theoretical Minimum-720p.mp4, Lecture 8 _ Topics in String Theory-360p.mp4, Lecture 9 _ Modern Physics - Classical Mechanics (Stanford)-240p.mp4, Lecture 9 _ Modern Physics - Quantum Mechanics (Stanford)-240p.mp4, Lecture 9 _ Modern Physics - Statistical Mechanics-360p.mp4, Lecture 9 _ New Revolutions in Particle Physics - Basic Concepts-360p.mp4, Lecture 9 _ New Revolutions in Particle Physics - Standard Model-360p.mp4, Lecture 9 _ Quantum Entanglements, Part 1 (Stanford)-240p.mp4, Lecture 9 _ Quantum Entanglements, Part 3 (Stanford)-240p.mp4, Lecture 9 _ String Theory and M-Theory-360p.mp4, Lecture 9 _ The Theoretical Minimum-720p.mp4, Lecture 9 _ Topics in String Theory-360p.mp4, Lectures 2 & 3 _ Quantum Entanglements, Part 3 (Stanford)-240p.mp4, Terms of Service (last updated 12/31/2014). Showing 17 distinct works. In his book, The Black Hole War: My Battle with Stephen Hawking to Make the World Safe for Quantum Mechanics, he writes: It would be a bad idea to park your BMW in the rainforest for 500 years. Self: The Nature of Existence. He is a member of the National Academy of Science and the American Academy of Arts and Sciences, and the recipient of numerous prizes including the science writing prize of the American . Now, physicist Leonard Susskind has teamed up with data engineer Art Friedman to present the theory and associated . The book, also published in 2014 by Penguin Books under the title Classical Mechanics: The Theoretical Minimum (ISBN978-0141976228), is complemented by video recordings of the complete lectures which are available on-line. comment. Susskind aims the courses at people with prior exposure to algebra, and calculus. The second book in the series, by Leonard Susskind and Art Friedman, was published in 2014 by Basic Books under the title Quantum Mechanics: The Theoretical Minimum (ISBN978-0465062904). His research interests include string theory, quantum field theory, quantum statistical mechanics and quantum cosmology. Susskind said he was working on a theory that represented particles 'as some kind of elastic string, like a rubber band.' [34] Homework and study outside of class is otherwise unnecessary. What is absolutely amazing, though, is that despite what he said at NASA Park, no one presents a better case for a Creator of life than Dr. Leonard Susskind himself! more We havent a clue. (Dr. Davies also hasnt yet figured out where that assembly line came from.) "Quantum Entanglements Part 3" is in fact a lecture series on special relativity and electromagnetic theory, and the order in which the lectures were given is 1, 4, 5, 6, 7, 2&3, 8 and 9 (in terms of the numbers given on the videos). It is written by theoretical physicist Leonard Susskind. Carroll, A., Kogut, J., Sinclair, D. K., Susskind, L. QUANTITATIVE APPROACH TO LOW-ENERGY QUANTUM CHROMODYNAMICS, HAMILTONIAN FORMULATION OF WILSONS LATTICE GAUGE THEORIES, ASYMPTOTIC FREEDOM AND ABSENCE OF VECTOR-GLUON EXCHANGE IN WIDE-ANGLE HADRONIC COLLISIONS. It is so fantastic that James Shapiro, a molecular biologist at University of Chicago, states that it outstrips scientific description., Touting evolution to explain the stunning complexity of the living world gets you nowhere.