The Shipley collection of scientific papers, Volumen3501926 |
Términos y frases comunes
according angular velocity axes axis of spin called the gyromagnetic Cambridge University Press coefficients combination frequencies combination line spectra complex components of spin consider constant velocity orbits corresponding damping factor deformed spinning direction of motion dispersion charges disturbing couples doublet electric and magnetic Electromagnetic electron moving electron orbits electrons revolving electrostatic field equations of combination equations of motion equilibrium frequencies given fundamental frequencies give rise gyromagnetic equations gyrostatic H₁w harmonic series integral values internuclear electrons Kepler's Third Law L₂ line of motion magnetic axis magnetic field magnetic forces magnetic moment Maxwell's Maxwell's Equations McGill University molecular natural precessional frequency nuclear electrons nuclear systems nucleus obtain orbital motion orbital revolution oscillations perpendicular plane precessing protons radiation field re-radiating orbits repulsion result rotating Single Electron Systems slightly perturbed orbit solutions for w₂ spinning electron stable steady motion sufficient number takes the integral temperature undisturbed orbit variation visible spectrum w₁
Pasajes populares
Página 1 - The principle involved appears to be that boundary conditions adjust themselves so that the interior fields of the electron remain unchanged at the velocity under consideration. That this should be the case for electric fields we should expect, while the classical expression e X for the 'force' on an electron in a field .Sf remains unaltered, for moderate velocities at least.
Página 3 - We notice, now, from (8) that a spinning or gyrostatic electron moving with uniform velocity under no forces has a single precessional frequency v given by...