Advanced quantum mechanics lecture 1


September 23, 2013) after a brief review of the prior quantum mechanics course, leonard susskind introduces the concept of symmetry, and present a specific.



Advanced quantum mechanics lecture 6


October 28, 2013) leonard susskind introduces quantum field theory and its connection to quantum harmonic oscillators. Gravity aside, quantum field theory.



Advanced quantum mechanics lecture 7


November 4, 2013) leonard susskind extends the presentation of quantum field theory to multi-particle systems, and derives the particle creation and.



Advanced quantum mechanics lecture 3

October 7, 2013) leonard susskind derives the energy levels of electrons in an atom using the quantum mechanics of angular momentum, and then moves on.



Advanced quantum mechanics lecture 5

October 21, 2013) leonard susskind introduces the spin statistics of fermions and bosons, and shows that a single complete rotation of a fermion is not an.



Advanced quantum mechanics lecture 2


September 30, 2013) leonard susskind presents an example of rotational symmetry and derives the angular momentum operator as the generator of this.



Advanced quantum mechanics lecture 8


November 11, 2013) leonard susskind completes the discussion of quantum field theory and the second quantization procedure for bosons. Originally.



Advanced quantum mechanics lecture 4

October 14, 2013) building on the previous discussion of atomic energy levels, leonard susskind demonstrates the origin of the concept of electron spin and.



Advanced quantum mechanics lecture 9


Originally presented by the stanford continuing studies program. Stanford university: continuing studies program:.



Advanced quantum mechanics lecture 10

Originally presented by the stanford continuing studies program. Stanford university: continuing studies program:.