math lessons - Cone (topology)

In topology, especially algebraic topology, the cone CX of a topological space X is the quotient space:

$CX = (X \times I)/(X \times \{0\})\,$

of the product of X with the unit interval I = [0, 1]. Intuitively we make X into a cylinder and collapse one end of the cylinder to a point.

If X sits inside Euclidean space, the cone on X is homeomorphic to the union of lines from X to another point. That is, the topological cone agrees with the geometric cone when defined. However, the topological cone construction is more general.

Examples

The cone over a point p of the real line is the interval {p} x [0,1].
The cone over two points {0,1} is a "V" shape with endpoints at {0} and {1}.
The cone over an interval I of the real line is a triangle.
The cone over a polygon P is a pyramid with base P.
The cone over a circle inspired the name; CS¹ is homeomorphic to the geometric cone (technically only a half-cone):

$\{(x,y,z) \in \mathbb R^3 \mid x^2 + y^2 = z^2 \mbox{ and } 0\leq z\leq 1\}.$

This in turn is homeomorphic to the closed disc.

In general, the cone over an n-sphere is homeomorphic to the closed (n+1)-ball.
The cone over an n-simplex is an (n+1)-simplex.

Properties

All cones are path-connected since every point can be connected to the vertex point. Furthermore, every cone is contractible to the vertex point by the homotopy

h_t(x,s) = (x, (1−t)s).

The cone is used in algebraic topology precisely because it embeds a space as a subspace of a contractible space.

Mathematics Encyclopedia and Lessons

Lessons

Popular
Subjects

References

Cone (topology)

Examples

Properties

See also

Mathematics Encyclopedia and Lessons

Lessons

Popular Subjects

References

Cone (topology)

Examples

Properties

See also

Popular
Subjects