Quantum Mechanics: Non-relativistic Theory |
Contents
2 The principle of superposition | 8 |
5 The continuous spectrum | 15 |
7 The wave function and measurements | 23 |
Copyright | |
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Course of Theoretical Physics: Non-relativistic Theory. Quantum Mechanics Lev Davidovich Landau,E. M. Lifshit︠s︡ No preview available - 1977 |
Common terms and phrases
according angle antisymmetrical approximation asymptotic atom axes axis calculated classical mechanics coefficients collision commute complex conjugate components condition constant continuous spectrum coordinates corresponding Coulomb field definite values degeneracy denote dependence derived determined diagonal direction discrete spectrum eigenfunctions eigenvalues elastic scattering electron terms energy levels exponentially expression factor finite formula gives Hamiltonian Hence integral interaction irreducible representations linear magnetic matrix elements mean value molecule momenta motion neutron non-zero normal nucleons nucleus obtain operator orbital angular momentum particles perturbation theory physical quantity plane potential energy probability PROBLEM properties protons quantum mechanics quantum number quasi-classical region relation respect result rotation scalar scattering amplitude scattering cross-section Schrödinger's equation SOLUTION spherical spinor spinor of rank stationary Substituting suffixes symmetry tensor total angular momentum total spin transformation transition variables vector velocity vibrations wave function zero