## Intermediate quantum mechanics |

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### Contents

MISCELLANEOUS RESULTS FROM | 3 |

IDENTICAL PARTICLES AND SYMMETRY | 18 |

TWOELECTRON ATOMS | 29 |

Copyright | |

22 other sections not shown

### Common terms and phrases

amplitude angles angular momentum antisymmetric assume atomic electrons average Born approximation calculation Chapter classical Clebsch-Gordan coefficients coefficients collisions commute components configuration consider contribution coordinates corresponding Coulomb defined density dependence derive determinantal diagonal differential cross section dipole Dirac equation Dirac matrices effect eigenfunctions eigenstate eigenvalue elastic scattering emission evaluated exchange term factor field given gives Hamiltonian Hartree Hartree-Fock helium Hence hydrogen identical particles ij|g|ij ij|g|ji incident particle incomplete shell inelastic integral ionization potential Klein-Gordon equation linear combinations magnetic matrix elements method momenta multiplet nonrelativistic nuclear nuclei obtain operator orbitals orthogonal oscillator strength Pauli perturbation phase shifts physical polarization potential Quantum Mechanics quantum numbers radiation radius relativistic result satisfy Schrodinger equation Slater determinant solutions spin spin-orbit interaction sum rule Table theorem Theory of Atomic Thomas-Fermi tion transition variation vector Verify wave function zero