Irreversibility in an ideal fluid

When a real fluid is expelled quickly from a tube, it forms a jet separated from the surrounding fluid by a thin, turbulent layer. On the other hand, when the same fluid is sucked into the tube, it enters from all directions, forming a sink-like flow. We show that, even for the ideal flow described...

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Veröffentlicht in:	American journal of physics 2014-11, Vol.82 (11), p.1040-1046
1. Verfasser:	Jenkins, Alejandro
Format:	Artikel
Sprache:	eng
Schlagworte:	Asymmetry Boundary conditions Eulers equations Physics Viscosity
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description	When a real fluid is expelled quickly from a tube, it forms a jet separated from the surrounding fluid by a thin, turbulent layer. On the other hand, when the same fluid is sucked into the tube, it enters from all directions, forming a sink-like flow. We show that, even for the ideal flow described by the time-reversible Euler equation, an experimenter who only controls the pressure in a pump attached to the tube would see jets form in one direction exclusively. The asymmetry between outflow and inflow therefore does not depend on viscous dissipation, but rather on the experimenter's limited control of initial and boundary conditions. This illustrates, in a rather different context from the usual one of thermal physics, how irreversibility may arise in systems whose microscopic dynamics are fully reversible.
doi_str_mv	10.1119/1.4890941
format	Article
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subjects	Asymmetry Boundary conditions Eulers equations Physics Viscosity
title	Irreversibility in an ideal fluid
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