fluid dynamics In physics and engineering, fluid dynamics is a subdiscipline of fluid mechanics that describes the flow of fluids— liquids and gases. It has several subdisciplines, including ''aerodynamics'' (the study of air and other gases in motion) a ...

, the Stokes stream function is used to describe the streamlines and

flow velocity In continuum mechanics the flow velocity in fluid dynamics, also macroscopic velocity in statistical mechanics, or drift velocity in electromagnetism, is a vector field used to mathematically describe the motion of a continuum. The length of the f ...

in a three-dimensional

incompressible flow In fluid mechanics or more generally continuum mechanics, incompressible flow ( isochoric flow) refers to a flow in which the material density is constant within a fluid parcel—an infinitesimal volume that moves with the flow velocity. An ...

with

axisymmetry Rotational symmetry, also known as radial symmetry in geometry, is the property a shape has when it looks the same after some rotation by a partial turn. An object's degree of rotational symmetry is the number of distinct orientations in which i ...

. A surface with a constant value of the Stokes stream function encloses a streamtube, everywhere tangential to the flow velocity vectors. Further, the

volume Volume is a measure of occupied three-dimensional space. It is often quantified numerically using SI derived units (such as the cubic metre and litre) or by various imperial or US customary units (such as the gallon, quart, cubic inch). ...

flux Flux describes any effect that appears to pass or travel (whether it actually moves or not) through a surface or substance. Flux is a concept in applied mathematics and vector calculus which has many applications to physics. For transport ...

within this streamtube is constant, and all the streamlines of the flow are located on this surface. The

velocity field In continuum mechanics the flow velocity in fluid dynamics, also macroscopic velocity in statistical mechanics, or drift velocity in electromagnetism, is a vector field used to mathematically describe the motion of a continuum. The length of the f ...

associated with the Stokes stream function is

solenoidal In vector calculus a solenoidal vector field (also known as an incompressible vector field, a divergence-free vector field, or a transverse vector field) is a vector field v with divergence zero at all points in the field: \nabla \cdot \mathbf ...

—it has zero

divergence In vector calculus, divergence is a vector operator that operates on a vector field, producing a scalar field giving the quantity of the vector field's source at each point. More technically, the divergence represents the volume density of ...

. This stream function is named in honor of

George Gabriel Stokes Sir George Gabriel Stokes, 1st Baronet, (; 13 August 1819 – 1 February 1903) was an Irish English physicist and mathematician. Born in County Sligo, Ireland, Stokes spent all of his career at the University of Cambridge, where he was the Luc ...

Cylindrical coordinates

Consider a

cylindrical coordinate system A cylindrical coordinate system is a three-dimensional coordinate system that specifies point positions by the distance from a chosen reference axis ''(axis L in the image opposite)'', the direction from the axis relative to a chosen reference di ...

( ''ρ'' , ''φ'' , ''z'' ), with the ''z''–axis the line around which the incompressible flow is axisymmetrical, ''φ'' the

azimuthal angle An azimuth (; from ar, اَلسُّمُوت, as-sumūt, the directions) is an angular measurement in a spherical coordinate system. More specifically, it is the horizontal angle from a cardinal direction, most commonly north. Mathematically, ...

and ''ρ'' the distance to the ''z''–axis. Then the flow velocity components ''u_ρ'' and ''u_z'' can be expressed in terms of the Stokes stream function

\Psi

by: :

\begin
  u_\rho &= - \frac\, \frac,
  \\
  u_z    &= + \frac\, \frac.
  \end

The azimuthal velocity component ''u_φ'' does not depend on the stream function. Due to the axisymmetry, all three velocity components ( ''u_ρ'' , ''u_φ'' , ''u_z'' ) only depend on ''ρ'' and ''z'' and not on the azimuth ''φ''. The volume flux, through the surface bounded by a constant value ''ψ'' of the Stokes stream function, is equal to ''2π ψ''.

Spherical coordinates

spherical coordinates In mathematics, a spherical coordinate system is a coordinate system for three-dimensional space where the position of a point is specified by three numbers: the ''radial distance'' of that point from a fixed origin, its ''polar angle'' meas ...

( ''r'' , ''θ'' , ''φ'' ), ''r'' is the radial distance from the

origin Origin(s) or The Origin may refer to: Arts, entertainment, and media Comics and manga * Origin (comics), ''Origin'' (comics), a Wolverine comic book mini-series published by Marvel Comics in 2002 * The Origin (Buffy comic), ''The Origin'' (Bu ...

, ''θ'' is the

zenith angle The zenith (, ) is an imaginary point directly "above" a particular location, on the celestial sphere. "Above" means in the vertical direction ( plumb line) opposite to the gravity direction at that location ( nadir). The zenith is the "highe ...

and ''φ'' is the

. In axisymmetric flow, with ''θ'' = 0 the rotational symmetry axis, the quantities describing the flow are again independent of the azimuth ''φ''. The flow velocity components ''u_r'' and ''u_θ'' are related to the Stokes stream function

\Psi

through: :

\begin
  u_r      &= + \frac\, \frac,
  \\
  u_\theta &= - \frac\, \frac.
  \end

Again, the azimuthal velocity component ''u_φ'' is not a function of the Stokes stream function ''ψ''. The volume flux through a stream tube, bounded by a surface of constant ''ψ'', equals ''2π ψ'', as before.

Vorticity

The

vorticity In continuum mechanics, vorticity is a pseudovector field that describes the local spinning motion of a continuum near some point (the tendency of something to rotate), as would be seen by an observer located at that point and traveling along wi ...

is defined as: :

\boldsymbol = \nabla \times \boldsymbol = \nabla \times \nabla \times \boldsymbol

, where

\boldsymbol=-\frac\boldsymbol,

with

\boldsymbol

the

unit vector In mathematics, a unit vector in a normed vector space is a vector (often a spatial vector) of length 1. A unit vector is often denoted by a lowercase letter with a circumflex, or "hat", as in \hat (pronounced "v-hat"). The term ''direction v ...

in the

\phi\,

–direction. : As a result, from the calculation the vorticity vector is found to be equal to: :

\displaystyle -\frac \left(\frac + \frac\left(\frac\frac\right)\right) \end.

Comparison with cylindrical

The cylindrical and spherical coordinate systems are related through :

z = r\, \cos\theta\,

and

\rho = r\, \sin\theta.\,

Alternative definition with opposite sign

As explained in the general

stream function The stream function is defined for incompressible ( divergence-free) flows in two dimensions – as well as in three dimensions with axisymmetry. The flow velocity components can be expressed as the derivatives of the scalar stream function. T ...

article, definitions using an opposite sign convention – for the relationship between the Stokes stream function and flow velocity – are also in use.

Zero divergence

In cylindrical coordinates, the

of the velocity field u becomes: :

\begin
  \nabla \cdot \boldsymbol &= 
  \frac \frac\Bigl( \rho\, u_\rho \Bigr) 
  + \frac 
  \\
  &=
  \frac \frac \left( - \frac \right)
  + \frac \left( \frac \frac \right)
  = 0,
\end

as expected for an incompressible flow. And in spherical coordinates:Batchelor (1967), p. 601. :

\begin
  \nabla \cdot \boldsymbol &= 
  \frac \frac( u_\theta\, \sin\theta)
  + \frac \frac\Bigl( r^2\, u_r \Bigr) 
  \\
  &=
  \frac \frac \left( - \frac \frac \right)
  + \frac \frac \left( \frac \frac \right)
  = 0.
\end

Streamlines as curves of constant stream function

From calculus it is known that the

gradient In vector calculus, the gradient of a scalar-valued differentiable function of several variables is the vector field (or vector-valued function) \nabla f whose value at a point p is the "direction and rate of fastest increase". If the gr ...

vector

\nabla \Psi

is normal to the curve

\Psi = C

(see e.g. Level set#Level sets versus the gradient). If it is shown that everywhere

\boldsymbol \cdot \nabla \Psi = 0,

using the formula for

\boldsymbol

in terms of

\Psi,

then this proves that level curves of

\Psi

are streamlines. ;Cylindrical coordinates: In cylindrical coordinates, :

\nabla \Psi =  \boldsymbol_\rho +  \boldsymbol_z

. and :

\boldsymbol = u_\rho \boldsymbol_\rho + u_z \boldsymbol_z = -   \boldsymbol_\rho +   \boldsymbol_z.

So that :

\nabla \Psi \cdot \boldsymbol =  (-  ) +    = 0.

;Spherical coordinates: And in spherical coordinates :

\nabla \Psi =  \boldsymbol_r +   \boldsymbol_\theta

and :

\boldsymbol = u_r \boldsymbol_r + u_\theta \boldsymbol_\theta =   \boldsymbol_r -   \boldsymbol_\theta .

So that :

\nabla \Psi \cdot \boldsymbol =  \cdot   +   \cdot \Big( -   \Big) = 0 .

Notes

References

* * Originally published in 1879, the 6th extended edition appeared first in 1932. *
Reprinted in: {{DEFAULTSORT:Stokes stream function Fluid dynamics