## Electromagnetic Fields and Interactions: Quantum theory of atoms and radiation |

### What people are saying - Write a review

We haven't found any reviews in the usual places.

### Contents

PART A The classical principles of electron theory | 1 |

Chapter All The classical model of the atom | 17 |

Chapter A HI The Hamiltonian form of the equations of motion | 36 |

Copyright | |

13 other sections not shown

### Other editions - View all

### Common terms and phrases

according amplitude angle angular frequency angular momentum applied approximation assume beam Bohr calculation coefficients commutation relations components conservation theorems constant coordinates correspondence principle corresponding Coulomb determined differential dipole Dirac dispersion distribution eigen eigenfunctions eigenvalues eigenvectors electric field electron emitted energy density energy values equation of motion expectation value experimental expression factor formula given Hamiltonian function Hamiltonian operator Hence Hermitian Hermitian operators Hilbert space hydrogen atom initial integral interaction introduced kinetic energy linear oscillator magnetic field magnitude matrix elements mean value measurement normalized orbital orthogonal particles perturbation polar polarizability position potential energy precession probability quantities quantum mechanics quantum numbers quantum theory radiation relativistic representation represented result rotation scalar product Schrodinger equation solution spectral lines spectrum spherical spin Stark effect symmetric theorem tion transition unitary vanishes vector velocity wave equation wave function wave packet wave theory wavelength z-axis Zeeman effect zero