Abstract
The proton and electron charge inner structures are considered in the frame of the non-local quantum hydrodynamics based on the non-local physical description. From calculations follow that proton and electron can be considered like charged balls (shortly CB model) which charges are concentrated mainly in the shell of these balls. The proton-electron collision in the frame of CB-model should be considered as collision of two resonators. In this case can be explained a number of character collisional features depending on the initial and final electron energies and the scattering angles.
Highlights
About the basic principles of the Generalized Quantum Hydrodynamics (GQH)
From calculations follow that proton and electron can be considered like charged balls which charges are concentrated mainly in the shell of these balls
As it is shown the theory of transport processes can be considered in the frame of the unified theory based on the non-local physical description
Summary
About the basic principles of the Generalized Quantum Hydrodynamics (GQH). I begin with the short reminding of basic principles of GQH created in particular in [1,2,3,4,5,6,7,8]. This fact unavoidably leads to fluctuations in mass and in other hydrodynamic quantities Existence of such “Knudsen layers” is not connected with the choice of space nets and fully defined by the reduced description for ensemble of particles of finite diameters in the conceptual frame of open physically small volumes, —with the chosen method of measurement. This entire complex of effects defines non-local effects in space and time. 3) Generalized Boltzmann physical kinetics leads to the strict approximation of non-local effects in space and time and after the transmission to the local approximation leads to parameter , which on the quantum level corresponds to the uncertainty principle “time-energy”. Conclusion: adiabatic theorem and consequences of this theory deliver the general quantization conditions for non-local quantum hydrodynamics
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