Quantum potential energy as concealed motion
Quantum Physics
2018-08-23 v2
Abstract
It is known that the Schroedinger equation may be derived from a hydrodynamic model in which the Lagrangian position coordinates of a continuum of particles represent the quantum state. Using Routh\s method of ignorable coordinates it is shown that the quantum potential energy of particle interaction that represents quantum effects in this model may be regarded as the kinetic energy of additional concealed freedoms. The method brings an alternative perspective to Planck\s constant, which plays the role of a hidden variable, and to the canonical quantization procedure, since what is termed kinetic energy in quantum mechanics may be regarded literally as energy due to motion.
Cite
@article{arxiv.1410.0165,
title = {Quantum potential energy as concealed motion},
author = {Peter Holland},
journal= {arXiv preprint arXiv:1410.0165},
year = {2018}
}
Comments
8 pages. V2 cosmetic changes