Viviani's curve

In mathematics, Viviani's curve, also known as Viviani's window, is a figure eight shaped space curve named after the Italian mathematician Vincenzo Viviani. It is the intersection of a sphere with a cylinder that is tangent to the sphere and passes through the center of the sphere (see diagram). Before Viviani this curve was studied by Simon de La Loubère and Gilles de Roberval.[1][2]

Viviani's curve: intersection of a sphere with a tangent cylinder
The light blue part of the half sphere can be squared

The projection of Viviani's curve onto a plane perpendicular to the line through the crossing point and the sphere center is the lemniscate of Gerono.[3]

In 1692 Viviani tackled the task: Cut out of a half sphere (radius ) two windows, such that the remaining surface (of the half sphere) can be squared, i.e. a square with the same area can be constructed using only compasses and ruler. His solution has an area of (see below).

Equations

cylinder upright.

In order to keep the proof for squaring simple,

the sphere has the equation

and

the cylinder is upright with equation .

The cylinder has radius and is tangent to the sphere at point

Properties of the curve

Floor plan, elevation and side plan

Floor plan, elevation and side plan

Elimination of , , respectively yields:

The orthogonal projection of the intersection curve onto the

--plane is the circle with equation
--plane the parabola with equation
--plane the algebraic curve with the equation

Parametric representation

For parametric representation and the determination of the area

Representing the sphere by

and setting yields the curve

One easily checks, that the spherical curve fulfills the equation of the cylinder. But the boundaries allow only the red part (see diagram) of Viviani's curve. The missing second half (green) has the property

With help of this parametric representation it is easy to proof the statement: The area of the half sphere (containing Viviani's curve) minus the area of the two windows is :

Rational bezier representation

The quarter of Viviani's curve that lies in the all-positive quadrant of 3D space cannot be represented exactly by a regular bezier curve of any degree.

However, it can be represented exactly by a 3D rational bezier segment of degree 4, and there is an infinite family of rational bezier control points generating that segment.

One possible solution is given by the following five control points:

The corresponding rational parametrization is:

Squaring

The area of the upper right part of Viviani's window (see diagram) can be calculated by an integration:

Hence the total area of the spherical surface included by Viviani's curve is and

  • the area of the half sphere () minus the area of Viviani's window is , the area of a square with the sphere's diameter as the length of an edge.

Relation to other curves

  • The 8-shaped elevation (see above) is a Lemniscate of Gerono.
  • Viviani' curve is a special Clelia curve. For a Clelia curve the relation between the angles is
Viviani's curve (red) as intersection of the sphere and a cone (pink)

Subtracting 2× the cylinder equation from the sphere's equation and applying completing the square leads to the equation

which describes a right circular cone with its apex at , the double point of Viviani's curve. Hence

  • Viviani's curve can be considered not only as the intersection curve of a sphere and a cylinder but also as
a) the intersection of a sphere and a cone and as
b) the intersection of a cylinder and a cone.

See also

References

  1. Kuno Fladt: Analytische Geometrie spezieller Flächen und Raumkurven. Springer-Verlag, 2013, ISBN 3322853659, 9783322853653, p. 97.
  2. K. Strubecker: Vorlesungen der Darstellenden Geometrie. Vandenhoeck & Ruprecht, Göttingen 1967, p. 250.
  3. Costa, Luisa Rossi; Marchetti, Elena (2005), "Mathematical and Historical Investigation on Domes and Vaults", in Weber, Ralf; Amann, Matthias Albrecht (eds.), Aesthetics and architectural composition : proceedings of the Dresden International Symposium of Architecture 2004, Mammendorf: Pro Literatur, pp. 73–80.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.