Relativity ReexaminedQuantum theory and relativity -- Some problems about restricted relativity -- Gravitation and relativity quantized atomic clocks -- A badly needed distinction between mathematical sets of coordinates and physical frames of reference -- Special relativity Doppler effect -- Relativity and gravitation -- A gravistatic problem with spherical symmetry -- Remarks and suggestions. |
Contents
A New Approach to an Old Problem | 1 |
Accuracy and Reliability of Quantized Atomic | 5 |
Where Could the Mass of Potential Energy | 20 |
Copyright | |
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acceleration accuracy action and reaction actually assume assumption atomic clocks Bohr Bohr's Bridgman Brillouin Carstoiu Chapter charge Q classical mechanics complete computation constant velocity corresponds definition discussion distance Doppler effect E₁ E₂ Einstein Einstein's theory electromagnetism electron electron volts emission emitted energy density energy levels equations experimental experiments Fock formula frame of reference geometry gravistatics gravitation propagates gravity field gravity potential gravity red shift gravity waves inertial infinite infinity interaction kinetic laboratory Lorentz transformation mass density mass mt mass-energy relation measure Mössbauer Mössbauer effect motion moving Newton observed obtain optical particles perturbation photons physical meaning Poincaré potential energy principle principle of relativity problem quantized quantum theory radiation recoil red shift reference at rest represents role scientific sets of coordinates signals similar Sommerfeld space special relativity specified spectral line sphere symmetry tion total energy v₁ velocity of light y-rays yields zero