Spherical conic

In mathematics, a spherical conic or sphero-conic is a curve on the sphere, the intersection of the sphere with a concentric elliptic cone. It is the spherical analog of a conic section (ellipse, parabola, or hyperbola) in the plane, and as in the planar case, a spherical conic can be defined as the locus of points the sum or difference of whose great-circle distances to two foci is constant.^[1] By taking the antipodal point to one focus, every spherical ellipse is also a spherical hyperbola, and vice versa. As a space curve, a spherical conic is a quartic, though its orthogonal projections in three principal axes are planar conics. Like planar conics, spherical conics also satisfy a "reflection property": the great-circle arcs from the two foci to any point on the conic have the tangent and normal to the conic at that point as their angle bisectors.

Not to be confused with Spherical cone.

Many theorems about conics in the plane extend to spherical conics. For example, Graves's theorem and Ivory's theorem about confocal conics can also be proven on the sphere; see confocal conic sections about the planar versions.^[2]

Just as the arc length of an ellipse is given by an incomplete elliptic integral of the second kind, the arc length of a spherical conic is given by an incomplete elliptic integral of the third kind.^[3]

An orthogonal coordinate system in Euclidean space based on concentric spheres and quadratic cones is called a conical or sphero-conical coordinate system. When restricted to the surface of a sphere, the remaining coordinates are confocal spherical conics. Sometimes this is called an elliptic coordinate system on the sphere, by analogy to a planar elliptic coordinate system. Such coordinates can be used in the computation of conformal maps from the sphere to the plane.^[4]

(1831). Mémoire de géométrie sur les propriétés générales des coniqes sphériques [Geometrical memoir on the general properties of spherical conics] (in French). L'Académie de Bruxelles. English edition:
— (1841). Two geometrical memoirs on the general properties of cones of the second degree, and on the spherical conics. Translated by Graves, Charles. Grant and Bolton.

Chasles, Michel

Chasles, Michel (1860). [Summary of a theory of confocal spherical conics]. Comptes rendus de l'Académie des Sciences (in French). 50: 623–633. Republished in Journal de mathématiques pures et appliquées. Ser. 2. 5: 425-454. PDF from mathdoc.fr.

"Résumé d'une théorie des coniques sphériques homofocales"

Glaeser, Georg; ; Odehnal, Boris (2016). "10.1 Spherical conics". The Universe of Conics: From the ancient Greeks to 21st century developments. Springer. pp. 436–467. doi:10.1007/978-3-662-45450-3_10.

Stachel, Hellmuth

Izmestiev, Ivan (2019). . Eighteen Essays in Non-Euclidean Geometry. European Mathematical Society. pp. 262–320. doi:10.4171/196-1/15.

"Spherical and hyperbolic conics"

(1927). "X. Cones and Sphero-Conics". A Treatise on the Analytic Geometry of Three Dimensions (7th ed.). Chelsea. pp. 249–267.

Salmon, George

(1882). "On non-Euclidean properties of conics" (PDF). American Journal of Mathematics. 5 (1): 358–381. doi:10.2307/2369551.

Story, William Edward

Sykes, Gerrit Smith (1877). . Proceedings of the American Academy of Arts and Sciences. 13: 375–395. doi:10.2307/25138501.

"Spherical Conics"

Tranacher, Harald (2006). [Spherical conics – didactically prepared] (PDF) (Thesis) (in German). Technischen Universität Wien.