最 低 价:¥61.60
定 价:¥78.00
作 者:Richard P. Feynman, Robert B. Leighton, Matthew Sands 著
出 版 社:世界图书出版公司
出版时间:2004 年11月
I S B N:7506272490
| Feynman et al,Thees are the lectures in physics that I gave last year and the year before to the freshman and sophomore classes at Caltech.The lectures are,of course,not verbatim-they have been edited,sometimes extensively and sometimes lessso.The lectures form only part of the complete courese.The whole group of 180students gathered in a big lecture room twice a week to hear these lectres and then they broke up into small groups of 15 to 20 stud.. << 查看详细 |
| chapter 1. quantum behavior . 1-1 atomic mechanics 1-1 1-2 an experiment with bullets 1-1 1-3 an experiment with waves 1-3 1-4 an experiment with electrons 1-4 1-5 the interference of electron waves 1-5 1-6 watching the electrons 1-6 1-7 first principles of quantum mechanics 1-9 1-8 the uncertainty principle 1-11 chapter 2. the relation of wave and particle viewpoints 2-1 probability wave amplitudes 2-1 2-2 measurement of position and momentum 2-2 2-3 crystal diffraction 2-4 2-4 the size of an atom 2-5 2-5 energy levels 2-7 2-6 philosophical implications 2-8 chapter 3. probability amplitudes 3-1 the laws of combining amplitudes 3-1 3-2 the two-slit interference pattern 3-5 3-3 scattering from a crystal 3-7 .3-4 identical particles 3-9 chapter 4. identical particles 4-1 bose particles and fermi particles 4-1 4-2 states with two bose particles 4-3 4-3 states with n bose particles 4-6 4-4 emission and absorption of photons 4-7 4-5 the blackbody spectrum 4-8 4-6 liquid helium 4-12 4-7 the exclusion principle 4-12 chapter 5. spin one 5-1 filtering atoms with a stern-gerlach apparatus 5-1 5-2 experiments with filtered atoms 5-5 5-3 stern-gerlach filters in series 5-6 5-4 base states 5-8 5-5 interfering amplitudes 5-10 5-6 the machinery of quantum mechanics 5-12 5-7 transforming to a different base 5-15 5-8 other situations 5-16 chapter 6. spin one-htlf 6-1 transforming amplitudes 6-1 6-2 transforming to a rotated coordinate system 6-3 6-3 rotations about the z-axis 6-6 6-4 rotations of 180~ and 90~ about y 6-9 6-5 rotations about x 6-11 6-6 arbitrary rotations 6-12 chapter 7. the dependence of amplitudes on time 7-1 atoms at rest; stationary states 7-1 7-2 uniform motion 7-3 7-3 potential energy; energy conservation 7-6 7-4 forces; the classical limit 7-9 7-5 the "precession" of a spin one-half particle 7-10 chapter 8. the hnmiltonian matrix 8-1 amplitudes and vectors 8-1 8-2 resolving state vectors 8-3 8-3 what are the base states of the world ? 8-5 8-4 how states change with time 8-7 8-5 the hamiltonian matrix 8-10 8-6 the ammonia molecule 8-11 chapter 9. the ammonia maser 9-1 the states of an ammonia molecule 9-1 9-2 the molecule in a static electric field 9-5 9-3 transitions in a time-dependent field 9-9 9-4 transitions at resonance 9-11 9-5 transitions off resonance 9-13 9-6 the absorption of light 9-14 chapter 10. other two-state systems .. 10-1 the hydrogen molecular ion 10-1 10-2 nuclear forces 10-6 10-3 the hydrogen molecule 10-8 10-4 the benzene molecule 10-10 10-5 dyes 10-12 10-6 the hamiltonian of a spin one-half particle in a magnetic field 10-12 10-7 the spinning electron in a magnetic field 10-15 chapter 11. mope two-state systems 11-1 the pauli spin matrices 11-1 11-2 the spin matrices as operators 11-5 11-3 the solution of the two-state equations 11-8 11-4 the polarization states of the photon 11-9 11-5 the neutral k-meson 11-12 11-6 generalization to n-state systems 11-20 chapter 12. the hyperfine splrrring in hydrogen 12-1 base states for a system with two spin one-half particles 12-1 12-2 the hamiltonian for the ground state of hydrogen 12-3 12-3 the energy levels 12-7 12-4 the zeeman splitting 12-9 12-5 the states in a magnetic field 12-12 12-6 the projection matrix for spin one 12-14 chapter 13. propagation in a crystal lattice 13-1 states for an electron in a one-dimensional lattice 13-1 13-2 states of definite energy 13-3 13-3 time-dependent states 13-6 13-4 an electron in a three-dimensional lattice 13-7 13-5 other states in a lattice 13-8 13-6 scattering by imperfections in the lattice 13-10 13-7 trapping by a lattice imperfection 13-12 13-8 scattering amplitudes and bound states 13-13 chapter 14. semiconductors 14-1 electrons and holes in semiconductors 14-1 14-2 impure semiconductors 14--4 14-3 the hall effect 14-7 14-4 semiconductor junctions 14-8 14-5 rectification at a semiconductor junction 14-10 14-6 the transistor 14-11 chapter 15. the independent particle approximation 15-1 spin waves 15-1 15-2 two spin waves 15-4 15-3 independent particles 15-6 15-4 the benzene molecule 15-7 15-5 more organic chemistry 15-10 15-6 other uses of the approximation 15-12 chapter 16. the dependence of amplitudes on position 16-1 amplitudes on a line 16-1 16-2 the wave function 16-5 16-3 states of definite momentum 16-7 16-4 normalization of the states in x 16-9 16-5 the schrodinger equation 16-11 16-6 quantized energy levels 16-14 chapter 17. symmetry and conservation laws 17-1 symmetry 17-1 17-2 symmetry and conservation 17-3 17-3 the conservation laws 17-7 17-4 polarized light 17-9 17-5 the distintegration of the λ 17-11 17-6 summary of the rotation matrices 17-15 chapter 18. angular momentum 18-1 electric dipole radiation 18-1 18-2 light scattering 18-3 18-3 the annihilation of positronium 18-5 18-4 rotation matrix for any spin 18-9 18-5 measuring a nuclear spin 18-13 18-6 composition of angular momentum 18-14 added note 1: derivation of the rotation matrix 18-19 added note 2: conservation of parity in photon emission 18-22 chapter 19. the hydrogen atom and the periodic table 19-1 schrodinger's equation for the hydrogen atom 19-1 19-2 spherically symmetric solutions 19-2 19-3 states with an angular dependence 19-6 19-4 the general solution for hydrogen 19-10 19-5 the hydrogen wave functions 19-12 19-6 the periodic table 19-13 chapter 20. operators 20-1 operations and operators 20-1 20-2 average energies 20-3 20-3 the average energy of an atom 20-6 20-4 the position operator 20-8 20-5 the momentum operator 20-9 20-6 angular momentum 20-14 20-7 the change of averages with time 20-15 chapter 21. the schrtdinger equation in a classical context: a seminar on superconductivity 21-1 schrodinger's equation in a magnetic field 21-1 21-2 the equation of continuity for probabilities 21-3 21-3 two kinds of momentum 21-4 21-4 the meaning of the wave function 21-6 21-5 superconductivity 21-7 21-6 the meissner effect 21-8 21-7 flux quantization 21-10 21-8 the dynamics of superconductivity 21-12 21-9 the josephson junction 21-14 feynman's epilogue appendix index ... |
内容加载中,请稍后...
商品评论(0条)