Catenoid

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A catenoid

A catenoid is a surface in 3-dimensional Euclidean space arising by rotating a catenary curve about its directrix. Not counting the plane, it is the first minimal surface to be discovered. It was found and proved to be minimal by Leonhard Euler in 1744.^[1]

Early work on the subject was published also by Jean Baptiste Meusnier.^[2] There are only two minimal surfaces of revolution (surfaces of revolution which are also minimal surfaces): the plane and the catenoid.^[3]

The catenoid may be defined by the following parametric equations:

x=c \cosh \frac{v}{c} \cos u

y=c \cosh \frac{v}{c} \sin u

z=v

where u and v are real parameters and c is a non-zero real constant.

In cylindrical coordinates:

\rho =c \cosh \frac{z}{c}

Where c is a real constant.

A physical model of a catenoid can be formed by dipping two circles into a soap solution and slowly drawing the circles apart.

The catenoid may be also defined approximately by the Stretched grid method as a facet 3D model

Helicoid transformation

Animation showing the deformation of a helicoid into a catenoid.

Because they are members of the same associate family of surfaces, one can bend a catenoid into a portion of a helicoid without stretching. In other words, one can make a (mostly) continuous and isometric deformation of a catenoid to a portion of the helicoid such that every member of the deformation family is minimal (having a mean curvature of zero). A parametrization of such a deformation is given by the system

x(u,v) = \cos \theta \,\sinh v \,\sin u + \sin \theta \,\cosh v \,\cos u

y(u,v) = -\cos \theta \,\sinh v \,\cos u + \sin \theta \,\cosh v \,\sin u

z(u,v) = u \cos \theta + v \sin \theta \,

for

(u,v) \in (-\pi, \pi] \times (-\infty, \infty)

, with deformation parameter

-\pi < \theta \le \pi

,

where $\theta = \pi$ corresponds to a right-handed helicoid, $\theta = \pm \pi / 2$ corresponds to a catenoid, and $\theta = 0$ corresponds to a left-handed helicoid.

Architecture

File:Igloo spirale.jpg

design of building igloos spiral

The Inuit learned to develop their igloo structures by implementing a catenoid shape which offers optimal balance between height and diameter of the structure without risk of collapsing under the weight of compacted snow.^[4]

References

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↑ Catenoid at MathWorld
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External links

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Catenoid - WebGL model

de:Minimalfläche#Die Katenoiden

[euleri-1] Lua error in package.lua at line 80: module 'strict' not found.

[salvert-2] Lua error in package.lua at line 80: module 'strict' not found.

[3] Catenoid at MathWorld

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Catenoid

Contents

Helicoid transformation

Architecture

References

External links

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