Vorticity

In continuum mechanics, vorticity is a pseudovector (or axial vector) field that describes the local spinning motion of a continuum near some point (the tendency of something to rotate[1]), as would be seen by an observer located at that point and traveling along with the flow. It is an important quantity in the dynamical theory of fluids and provides a convenient framework for understanding a variety of complex flow phenomena, such as the formation and motion of vortex rings.[2][3]

Mathematically, the vorticity is the curl of the flow velocity :[4][3]

where is the nabla operator. Conceptually, could be determined by marking parts of a continuum in a small neighborhood of the point in question, and watching their relative displacements as they move along the flow. The vorticity would be twice the mean angular velocity vector of those particles relative to their center of mass, oriented according to the right-hand rule. By its own definition, the vorticity vector is a solenoidal field since

In a two-dimensional flow, is always perpendicular to the plane of the flow, and can therefore be considered a scalar field.

  1. ^ Lecture Notes from University of Washington Archived October 16, 2015, at the Wayback Machine
  2. ^ Moffatt, H.K. (2015), "Fluid Dynamics", in Nicholas J. Higham; et al. (eds.), The Princeton Companion to Applied Mathematics, Princeton University Press, pp. 467–476
  3. ^ a b Guyon, Etienne; Hulin, Jean-Pierre; Petit, Luc; Mitescu, Catalin D. (2001). Physical Hydrodynamics. Oxford University Press. pp. 105, 268–310. ISBN 0-19-851746-7.
  4. ^ Acheson, D.J. (1990). Elementary Fluid Dynamics. Oxford University Press. p. 10. ISBN 0-19-859679-0.

Vorticity

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