Kelvin's circulation theorem

A theorem in fluid dynamics that pertains to the dynamics of vortices and the use of ideal-fluid potential-flow equations. The theorem states that the circulation (defined as the line integral of the component of velocity tangential to the closed contour) in an inviscid and incompressible fluid subject to only conservative forces is constant. By using Stokes' theorem of integral calculus, it may be shown that the circulation is also related to the flux of vorticity (defined as the curl of the velocity field) normal to the area transcribed by the contour.

The principal use of Kelvin's theorem is in the study of incompressible, inviscid fluid flows. If a body is moving through such a fluid, the vorticity far from the body is, by definition, zero. Then according to Kelvin's theorem, the vorticity in the fluid will everywhere be zero and the flow will be irrotational. This permits the reduction of the governing equations from the Euler equations to the Laplace equation and presents the many mathematical techniques of potential theory for solving fluid-flow problems. See Laplace's irrotational motion, Vortex

Kelvin's circulation theorem

[′kel·vənz ‚sər·kyə′lā·shən ‚thir·əm] (fluid mechanics) The theorem that, if the external forces acting on an inviscid fluid are conservative and if the fluid density is a function of the pressure only, then the circulation along a closed curve which moves with the fluid does not change with time.

See Kelvin scale

单词	kelvin, lord william thomson
释义	DictionarySeeKelvin scale Kelvin's circulation theorem Kelvin's circulation theorem A theorem in fluid dynamics that pertains to the dynamics of vortices and the use of ideal-fluid potential-flow equations. The theorem states that the circulation (defined as the line integral of the component of velocity tangential to the closed contour) in an inviscid and incompressible fluid subject to only conservative forces is constant. By using Stokes' theorem of integral calculus, it may be shown that the circulation is also related to the flux of vorticity (defined as the curl of the velocity field) normal to the area transcribed by the contour. The principal use of Kelvin's theorem is in the study of incompressible, inviscid fluid flows. If a body is moving through such a fluid, the vorticity far from the body is, by definition, zero. Then according to Kelvin's theorem, the vorticity in the fluid will everywhere be zero and the flow will be irrotational. This permits the reduction of the governing equations from the Euler equations to the Laplace equation and presents the many mathematical techniques of potential theory for solving fluid-flow problems. See Laplace's irrotational motion, Vortex Kelvin's circulation theorem [′kel·vənz ‚sər·kyə′lā·shən ‚thir·əm] (fluid mechanics) The theorem that, if the external forces acting on an inviscid fluid are conservative and if the fluid density is a function of the pressure only, then the circulation along a closed curve which moves with the fluid does not change with time. See Kelvin scale Kelvin, Lord William Thomson Kelvin, Lord William Thomson, Scottish physicist, 1824-1907. kelvin (K) - a unit of thermodynamic temperature equal to 1/273.16 of the thermodynamic temperature of the triple point of water.Kelvin scale - temperature scale in which the triple point of water is assigned the value of 273.16 K.Kelvin thermometer
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Kelvin's circulation theorem

Kelvin's circulation theorem

Kelvin's circulation theorem

Kelvin, Lord William Thomson

Kelvin,