A physical interpretation of the mathematical consequence of Lorentztransformation within spatial relativity theory is presented as a result of mynew physical model of existent fluctuating vacuum (FlcVcm). It is assumed thatthe FlcVcm is considered as a molecular dielectric, which consists from neutraldynamides, streamlined in a close-packed crystalline lattice. Every dynamide isa neutral pair, consistent by two massless opposite point-like elementaryelectric charges (ElmElcChrgs): electrino (-) and positrino (+). In a frozenequilibrium position two contrary pont-like ElmElcChrgs within every onedynamide are very closely installed one to another and therefore the aggregatepolarization of every dynamide and its electric field also have zero values.The aggregate electric field of every dynamide polarizes nearest neighborsdynamides in an account of which nearest dynamides interact between them-self,because of which their elementary excitations, phonons and photons, have a wavecharacter and behaviors. We suppose that the photon is an polarization resultof the phonon within the fluctuating vacuum considered as an ideal dielectricand therefore the photon could be considered as an elementary collectiveexcitation of the FlcVcm in the form of a solitary needle cylindrical harmonicoscillation. Hence the light, which is a packet of the photons, must movewithin FlcVcm with constant velocity and Dopler effect must be observed in bothcases, for the light and sound. Then all mathematical results of Lorentztransformation could be considered as results of a demand of an independence ofthe observation results from the reactive velocity of the observation frame.
展开▼
