Review of the principles of quantum mechanics; spin and statistics; rotations and angular momentum; rules of composition of angular momentum; relativity; electromagnetic and fermi couplings; fermi couplings and the failure of parity; pion-nucleon coupling; strange particles; some consquences of strangeness; strong coupling schemes; decay of strange couplings; the question of a universal coupling coefficient; rules for strangeness changing decays -experiments; fundamental laws of electromagnetics and B-decay coupling; density of final states; the propagator of scalar particles; the propagator in configuration space; particles of spin 1; virtual reality and real photons; problems; spin-1/2 particles; extension of finite mass; properties of the four-component spinor; the Compton effect; direct pair production by Muons; high-order processes; self-energy of the electron; quantum electrodynamics; Meson theory; theory of B-decay; properties of B-decay coupling; summary of the course.
In 1965, Richard Feynman was awarded the Nobel Prize for Physics for his work in quantum electrodynamics.
In 1965, Richard Feynman was awarded the Nobel Prize for Physics for his work in quantum electrodynamics.
Richard P. Feynman was raised in Far Rockaway, New York, and received his Ph.D. from Princeton. He held professorships at both Cornell and the California Institute of Technology. In 1965 he received the Nobel Prize for his work on quantum electrodynamics. He died in 1988.
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