Quantum TheoryPart 1 : Physical formulation of the quantum theory -- Part 2 : Mathematical formulation of the quantum theory -- Part 3 : Applications to simple systems. Further extensions of quantum theory formulation -- Part 4 : Methods of approximate solution of Schrodinger's equation -- Quantum theory of the process of measurement. |
Contents
Physical Formulation of the Quantum Theory | 1 |
FURTHER DEVELOPMENTS OF THE EARLY QUANTUM | 23 |
SUMMARY OF QUANTUM CONCEPTS INTRODUCED | 141 |
Copyright | |
9 other sections not shown
Common terms and phrases
angle angular frequency angular momentum apparatus arbitrary atom average causal Chap classical limit classical theory co-ordinate coefficients commute complete component concepts constant correspondence principle corresponding Coulomb cross section defined definite direction effect eigenfunctions eigenvalues electric field electron energy levels equal example experiment exponential fact force Fourier frequency given Hamiltonian harmonic oscillator Hermitean Hermitean operator indivisible integral interaction interference L₂ magnetic field matrix element means measurement momenta motion normalized observation obtain orbit orthogonal particle perturbation perturbation theory phase physical polarized position possible potential probability problem properties proton quantization quantum number quantum theory radiation reflected region relation representation result scattering Schrödinger's equation shown in Fig slit solution space spin tion transformation transition uncertainty principle vanish variables vector velocity wave equation wave function wave packet wavelength WKB approximation write zero