Wave Mechanics: Advanced General Theory |
Contents
CLASSICAL MECHANICS AS THE LIMITING FORM OF WAVE | 1 |
Comparison of the Approximate Solutions of Schrödingers | 24 |
OPERATORS | 47 |
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Common terms and phrases
according angular momentum angular quantum antisymmetrical approximate assume atom axes characteristic functions characteristic values classical mechanics coefficients commutation components condition conjugate complex considered constant coordinates corresponding d'Alembert's equation defined definite degeneracy denoted density derived determined diagonal Dirac discrete electric electrons energy operator energy-levels equal equivalent expression fact factor field of force formula frequency integral latter M₂ magnetic field magnetic moment matrix elements means motion multiplied obtained operator H ordinary particle Pauli pendulum permutations perturbation energy perturbation theory photons point of view probability amplitudes probable value problem quantized quantum number reduces regard relation replaced represented resonance satisfy Schrödinger equation solution specified spectrum spin spin quantum stationary symmetrical tensor tion transformation transition unperturbed vanish variables vector velocity vibrations wave functions wave-mechanical Zeeman effect zero Σ Σ Σπί ΣΣ дх