Milne-Thomson circle theorem

In fluid dynamics the Milne-Thomson circle theorem or the circle theorem is a statement giving a new stream function for a fluid flow when a cylinder is placed into that flow.[1][2] It was named after the English mathematician L. M. Milne-Thomson.

Let $f(z)$ be the complex potential for a fluid flow, where all singularities of $f(z)$ lie in $|z|>a$ . If a circle $|z|=a$ is placed into that flow, the complex potential for the new flow is given by[3]

w=f(z)+{\overline {f\left({\frac {a^{2}}{\bar {z}}}\right)}}=f(z)+{\overline {f}}\left({\frac {a^{2}}{z}}\right).

with same singularities as $f(z)$ in $|z|>a$ and $|z|=a$ is a streamline. On the circle $|z|=a$ , $z{\bar {z}}=a^{2}$ , therefore

w=f(z)+{\overline {f(z)}}.

Example

Consider a uniform irrotational flow $f(z)=Uz$ with velocity $U$ flowing in the positive $x$ direction and place an infinitely long cylinder of radius $a$ in the flow with the center of the cylinder at the origin. Then $f\left({\frac {a^{2}}{\bar {z}}}\right)={\frac {Ua^{2}}{\bar {z}}},\ \Rightarrow \ {\overline {f\left({\frac {a^{2}}{\bar {z}}}\right)}}={\frac {Ua^{2}}{z}}$ , hence using circle theorem,

w(z)=U\left(z+{\frac {a^{2}}{z}}\right)

represents the complex potential of uniform flow over a cylinder.

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References

Batchelor, George Keith (1967). An Introduction to Fluid Dynamics. Cambridge University Press. p. 422. ISBN 0-521-66396-2.
Raisinghania, M.D. Fluid Dynamics.
Tulu, Serdar (2011). Vortex dynamics in domains with boundaries (PDF) (Thesis).

External links

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[1] Batchelor, George Keith (1967). An Introduction to Fluid Dynamics. Cambridge University Press. p. 422. ISBN 0-521-66396-2.

[2] Raisinghania, M.D. Fluid Dynamics.

[3] Tulu, Serdar (2011). Vortex dynamics in domains with boundaries (PDF) (Thesis).

Milne-Thomson circle theorem

Example

See also

References

External links