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http://en.wikipedia.org/wiki/N-sphere#Spherical_coordinates
An n-sphere is the surface or boundary of an (n + 1)-dimensional ball, and is an n-dimensional manifold.
For n ≥ 2, the n-spheres are the simply connected n-dimensional manifolds of constant, positive curvature.
The n-spheres admit several other topological descriptions:
for example, they can be constructed by gluing two n-dimensional Euclidean spaces together, by identifying the boundary of an n-cube with a point,
or (inductively) by forming the suspension of an (n − 1)-sphere.

4-sphere
Equivalent to the quaternionic projective line, HP1. SO(5)/SO(4).

http://en.wikipedia.org/wiki/Quaternionic_projective_line
In mathematics, quaternionic projective space is an extension of the ideas of real projective space and complex projective space,
to the case where coordinates lie in the ring of quaternions H. Quaternionic projective space of dimension n is usually denoted by

\mathbb{HP}^n

and is a closed manifold of (real) dimension 4n. It is a homogeneous space for a Lie group action, in more than one way.

Projective line
From the topological point of view the quaternionic projective line is the 4-sphere, and in fact these are diffeomorphic manifolds.
The fibration mentioned previously is from the 7-sphere, and is an example of a Hopf fibration.