Is Schrodinger Equation Describing A Turbulent Flow?

Spiros Koutandos () and Jaime B.Vigo
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Spiros Koutandos: Esperino, night school for people who work, Chios, Greece, EU
Jaime B.Vigo: The HVB Research Foundation. Department of Research and Development. P.O. Box 13150. USA. El Paso, Texas, 79913, USA

Scientific Review, 2015, vol. 1, issue 5, 99-101

Abstract: In this article we give a Navier-Stokes like equation with complex variables starting from Schrodinger equation. Two emerging quantities, alpha – describing the force density- and Omega-describing the current density rotation- are found. The flow processes two dimensional characteristics. A definition of pressure arises. The terms in this equation are well separated in real and imaginary parts. The article might be said to give some justification in favour of the ether. What is primary in all these is the description of the velocity in terms of the gradient of an unknown quantity, the wave function.Â

Keywords: Navier-Stokes; Turbulence; Schrodinger equation; Fluid; Force. (search for similar items in EconPapers)
Date: 2015
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