New Revolutions in Particle Physics: Basic Concepts
by Stanford Continuing Studies Program
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Description
Revolutionary new concepts about elementary particles, space and time, and the structure of matter began to emerge in the mid-1970s. Theory got far ahead of experiment with radical new ideas such as “grand unification” and “supersymmetry,” but the concepts have never been experimentally tested. Now all that is about to change; the LHC— the Large Hadron Collider—has finally been built and is about to confront theory with experiment. The next three quarters of our ongoing physics series with Leonard Susskind will be devoted to these theoretical ideas and how they will be tested. The Basic Concepts course marks the beginning of a three-quarter sequence of courses that will explore the new revolutions in particle physics. During this quarter, basic concepts will be covered, including the fundamental particles such as electrons, photons, neutrinos, quarks, and gluons. We will also encounter the four basic forces of nature: gravity, electromagnetism, the strong or nuclear force, and the weak force. The series will continue in the Winter with quantum field theory, symmetries, and the “standard model.” In the Spring, we will discuss supersymmetry, grand unification, string theory, and cosmology. While these courses build upon one another, each course also stands on its own, individually covering topics that relate to modern particle physics. This course was originally presented in Stanford's Continuing Studies program. Released with a Creative Commons BY-NC-ND license.
| Name | Description | Released | Price | ||
|---|---|---|---|---|---|
| 1 | VideoThe Basic Concepts Lecture 1 (October 5, 2009) | science, physics, particle, quantum field theory, molecule, Planck's constant, mass, atom, electron, gamma, light, photon, quanta, electromagnetic wave, field, electric, magnetic, momentum, frequency, magnitude, Newton, Einstein | 1/15/10 | Free | View In iTunes |
| 2 | VideoThe Basic Concepts Lecture 2 (October 12, 2009) | science, physics, theoretical, particle, nature, matter, quantum field theory, light wave, Planck's constant, energy, photon, quanta, electromagnetic wave, momentum, frequency, magnitude, schrodinger equation, oscillation, level, Newton | 1/20/10 | Free | View In iTunes |
| 3 | VideoThe Basic Concepts Lecture 3 (October 19, 2009) | science, physics, quantum mechanics, field theory, particle, wave, momentum, occupation number, harmonic oscillation, position, reaction, annihilation, wave function, probability, atom, decay, photon, creation, energy | 1/25/10 | Free | View In iTunes |
| 4 | VideoThe Basic Concepts Lecture 4 (October 26, 2009) | science, physics, particle physics, simple quantum field, vectors, field theory, particle, wave, momentum, occupation number, harmonic oscillation, position, reaction, annihilation, wave function, probability, atom, decay, photon, creation, energy, bra-ke | 2/1/10 | Free | View In iTunes |
| 5 | VideoThe Basic Concepts Lecture 5 (November 2, 2009) | science, physics, particle physics, simple quantum field, vectors, field theory, particle, wave, momentum, energy, phase velocity, wave, quantum mechanics, velocity, oscillation, Schrodinger, momentum, fermions, Fermi-Dirac statistics, harmonic oscillat | 2/8/10 | Free | View In iTunes |
| 6 | VideoThe Basic Concepts Lecture 6 (November 9, 2009) | science, physics, particle physics, simple quantum field, vectors, field theory, particle, wave, momentum, energy, phase velocity, wave, quantum mechanics, velocity, momentum, fermions, Fermi-Dirac statistics, Dirac equation, relativity, quantum, mechanic | 2/16/10 | Free | View In iTunes |
| 7 | VideoThe Basic Concepts Lecture 7 (November 13, 2009) | classical quantum physics, science, biology, engineering, abstract math, formula, angular momentum, elementary particles, spin, rotation, kinetic energy, propulsion, atom, vector, velocity, speed, direction, moment of inertia, particle, crossproduct, simu | 2/24/10 | Free | View In iTunes |
| 8 | VideoThe Basic Concepts Lecture 8 (November 16, 2009) | classical quantum physics, science, biology, engineering, abstract math, formula, particle, spin, Dirac equation, isotopic spin, cyclic permutation, matrix, vector, commutation relations, Pauli spin matrices, probability, energy, frequency, boson, fermion | 3/3/10 | Free | View In iTunes |
| 9 | VideoThe Basic Concepts Lecture 9 (December 3, 2009) | classical quantum mechanics, physics, science, biology, engineering, abstract math, formula, particle, Lagrangian, space, time, derivative, scalar boson field, motion, cross-section, collision, energy, mass, non-linear equation, wave, dirac equation, elec | 3/8/10 | Free | View In iTunes |
| 10 | VideoThe Basic Concepts Lecture 10 (December 14, 2009) | science, physics, particle physics, quantum field theory, particle interactions, lagrangian, wave, momentum, energy, phase velocity, wave, quantum mechanics, velocity, momentum, relativity, quantum, mechanical, wave, particle movement, initial state, elec | 3/15/10 | Free | View In iTunes |
| Total: 10 Episodes |
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