The Feynman Lectures on Physics, Volume 3This revised edition of Feynman’s legendary lectures includes extensive corrections Feynman and his colleagues received and Caltech approved, making this the definitive edition ofThe Feynman Lectures on Physics. For all readers interested in physics. 
What people are saying  Write a review
User ratings
5 stars 
 
4 stars 
 
3 stars 
 
2 stars 
 
1 star 

Review: The Feynman Lectures on Physics
User Review  Chaitanya  GoodreadsDidn't know about it earlier & I regret that. One of best Introduction to undergraduate physics. The book does it's job of lightning fire of physics in mind of the seekers. Though it may not be good ... Read full review
Review: The Feynman Lectures on Physics
User Review  Plucino  GoodreadsLegendary. This physics course was delivered at prestigious Caltech during academic years 196163 by a passionate Nobel laureate, a genius who felt so uneasy with quantum mechanics that he sort of ... Read full review
Contents
The Relation of Wave and Particle  21 
Probability Amplitudes  31 
The Hamiltonian Matrix  78 
Copyright  
5 other sections not shown
Common terms and phrases
aparticle absolute square ammonia ammonia molecule amplitude to find angle angular momentum apparatus axis beam benzene Bose particles carriers Chapter classical classical mechanics classical physics coefficients conservation coordinate corresponding course crystal definite energy density depends described detector diamagnetism direction electric field energy levels equal equation experiment factor Feynman find the electron frequency give Hamiltonian happens hole hydrogen atom interaction lattice lectures LHC photon light look magnetic field means molecule motion multiplied neutron nucleus operator oscillating paramagnetism parity phase physics polarized positive positronium possible potential precession probability amplitude problem produce proton quantum mechanics result rotation rotation matrix scattering Schrodinger set of base shown in Fig solution spin onehalf particle spinone stationary SternGerlach superconducting Suppose symmetry temperature theory thing twostate system values vary vector vector potential velocity wave function wave number write zaxis zcomponent zdirection zero