# Antipodal point

In mathematics, the **antipodal point** of a point on the surface of a sphere is the point which is diametrically opposite to it — so situated that a line drawn from the one to the other passes through the center of the sphere and forms a true diameter.^{[1]}

This term applies to opposite points on a circle or any n-sphere.

An antipodal point is sometimes called an **antipode**, a back-formation from the Greek loan word *antipodes*, which originally meant "opposite the feet".

## Theory[edit]

In mathematics, the concept of *antipodal points* is generalized to spheres of any dimension: two points on the sphere are antipodal if they are opposite *through the centre*; for example, taking the centre as origin, they are points with related vectors **v** and −**v**. On a circle, such points are also called **diametrically opposite**. In other words, each line through the centre intersects the sphere in two points, one for each ray out from the centre, and these two points are antipodal.

The Borsuk–Ulam theorem is a result from algebraic topology dealing with such pairs of points. It says that any continuous function from *S*^{n} to **R**^{n} maps some pair of antipodal points in *S*^{n} to the same point in **R**^{n}. Here, *S*^{n} denotes the *n*-dimensional sphere in (*n* + 1)-dimensional space (so the "ordinary" sphere is *S*^{2} and a circle is *S*^{1}).

The **antipodal map** *A* : *S*^{n} → *S*^{n}, defined by *A*(*x*) = −*x*, sends every point on the sphere to its antipodal point. It is homotopic to the identity map if *n* is odd, and its degree is (−1)^{n+1}.

If one wants to consider antipodal points as identified, one passes to projective space (see also projective Hilbert space, for this idea as applied in quantum mechanics).

## Antipodal pair of points on a convex polygon[edit]

An antipodal pair of a convex polygon is a pair of 2 points admitting 2 infinite parallel lines being tangent to both points included in the antipodal without crossing any other line of the convex polygon.

## References[edit]

This article includes a list of references, but its sources remain unclear because it has insufficient inline citations. (August 2017) (Learn how and when to remove this template message) |

**^**Chisholm, Hugh, ed. (1911).*Encyclopædia Britannica*.**2**(11th ed.). Cambridge University Press. pp. 133–134. .

## External links[edit]

- Hazewinkel, Michiel, ed. (2001) [1994], "Antipodes",
*Encyclopedia of Mathematics*, Springer Science+Business Media B.V. / Kluwer Academic Publishers, ISBN 978-1-55608-010-4 - "antipodal".
*PlanetMath*.