List of electromagnetism equations

In differential geometry, the Björling problem is the problem of finding a minimal surface passing through a given curve with prescribed normal (or tangent planes). The problem was posed and solved by Swedish mathematician Emanuel Gabriel Björling,^[1] with further refinement by Schwarz.^[2]

The problem can be solved by extending the surface from the curve using complex analytic continuation. If $c(s)$ is a real analytic curve in ℝ³ defined over an interval I, with $c'(s)\neq 0$ and a vector field $n(s)$ along c such that $||n(t)||=1$ and $c'(t)\cdot n(t)=0$ , then the following surface is minimal:

X(u,v)=\Re \left(c(w)-i\int _{w_{0}}^{w}n(w)\wedge c'(w)\,dw\right)

where $w=u+iv\in \Omega$ , $u_{0}\in I$ , and $I\subset \Omega$ is a simply connected domain where the interval is included and the power series expansions of $c(s)$ and $n(s)$ are convergent.^[3]

A classic example is Catalan's minimal surface, which passes through a cycloid curve. Applying the method to a semicubical parabola produces the Henneberg surface, and to a circle (with a suitably twisted normal field) a minimal Möbius strip.^[4]

A unique solution always exists. It can be viewed as a Cauchy problem for minimal surfaces, allowing one to find a surface if a geodesic, asymptote or lines of curvature is known. In particular, if the curve is planar and geodesic, then the plane of the curve will be a symmetry plane of the surface.^[5]

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Björling Surfaces, at the Indiana Minimal Surface Archive: http://www.indiana.edu/~minimal/archive/Bjoerling/index.html

↑ E.G. Björling, Arch. Grunert , IV (1844) pp. 290
↑ H.A. Schwarz, J. reine angew. Math. 80 280-300 1875
↑ Kai-Wing Fung, Minimal Surfaces as Isotropic Curves in C³: Associated minimal surfaces and the Björling's problem. MIT BA Thesis. 2004 http://ocw.mit.edu/courses/mathematics/18-994-seminar-in-geometry-fall-2004/projects/main1.pdf
↑ W.H. Meeks III, The classification of complete minimal surfaces in R3 with total curvature greater than 8, Duke Math. J. 48 (1981), 523–535.
↑ Björling problem. Encyclopedia of Mathematics. URL: http://www.encyclopediaofmath.org/index.php?title=Bj%C3%B6rling_problem&oldid=23196

[1] E.G. Björling, Arch. Grunert , IV (1844) pp. 290

[2] H.A. Schwarz, J. reine angew. Math. 80 280-300 1875

[3] Kai-Wing Fung, Minimal Surfaces as Isotropic Curves in C³: Associated minimal surfaces and the Björling's problem. MIT BA Thesis. 2004 http://ocw.mit.edu/courses/mathematics/18-994-seminar-in-geometry-fall-2004/projects/main1.pdf

[4] W.H. Meeks III, The classification of complete minimal surfaces in R3 with total curvature greater than 8, Duke Math. J. 48 (1981), 523–535.

[5] Björling problem. Encyclopedia of Mathematics. URL: http://www.encyclopediaofmath.org/index.php?title=Bj%C3%B6rling_problem&oldid=23196

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List of electromagnetism equations

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