n-sphere

In mathematics, an $n$ -sphere or hypersphere is an $n$ -dimensional generalization of the 1-dimensional circle and 2-dimensional sphere to any non-negative integer $n$ . The $n$ -sphere is the setting for $n$ -dimensional spherical geometry.

Considered extrinsically, as a hypersurface embedded in $(n + 1)$ -dimensional Euclidean space, an $n$ -sphere is the locus of points at equal distance (the radius) from a given center point. Its interior, consisting of all points closer to the center than the radius, is an $(n + 1)$ -dimensional ball. In particular:

The $0$ -sphere is the pair of points at the ends of a line segment ( $1$ -ball).
The $1$ -sphere is a circle, the circumference of a disk ( $2$ -ball) in the two-dimensional plane.
The $2$ -sphere, often simply called a sphere, is the boundary of a $3$ -ball in three-dimensional space.
The $3$ -sphere is the boundary of a $4$ -ball in four-dimensional space.
The $(n - 1)$ -sphere is the boundary of an $n$ -ball.

Given a Cartesian coordinate system, the unit $n$ -sphere of radius $1$ can be defined as:

S^{n}=\left\{x\in \mathbb {R} ^{n+1}:\left\|x\right\|=1\right\}.

Considered intrinsically, when $n \geq 1$ , the $n$ -sphere is a Riemannian manifold of positive constant curvature, and is orientable. The geodesics of the $n$ -sphere are called great circles.

The stereographic projection maps the $n$ -sphere onto $n$ -space with a single adjoined point at infinity; under the metric thereby defined, $\mathbb {R} ^{n}\cup \{\infty \}$ is a model for the $n$ -sphere.

In the more general setting of topology, any topological space that is homeomorphic to the unit $n$ -sphere is called an $n$ -sphere. Under inverse stereographic projection, the $n$ -sphere is the one-point compactification of $n$ -space. The $n$ -spheres admit several other topological descriptions: for example, they can be constructed by gluing two $n$ -dimensional spaces together, by identifying the boundary of an $n$ -cube with a point, or (inductively) by forming the suspension of an $(n - 1)$ -sphere. When $n \geq 2$ it is simply connected; the $1$ -sphere (circle) is not simply connected; the $0$ -sphere is not even connected, consisting of two discrete points.

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