Topology/Simplicial complexes

A simplicial complex is a union of spaces known as simplicies, that are convex hulls of points in general position. In Euclidean space they can be thought of as a generalisation of the triangle. For the first few dimensions they are: the point, the line segment, the triangle and the tetrahedron.

Definition of a simplex
Given n+1 points $$\{a_0,a_1,\dots,a_n\}$$, in a space with dimension of at least n, such that no three points are colinear, the set


 * $$\mathcal{S}=\{t_0a_0+t_1a_1+\dots+t_na_n:\sum_{i=1}^n t_i = 1\text{ with }t_i\in [0,1]\}$$

is a simplex, and more specifically an n-simplex since it has n+1 verticies.

The standard n-simplex
For ease we will sometimes need a standardised co-ordinate system for a simplex. The standard n-simplex, a subset of Euclidean (n+1)-space, $$\mathbb{R}^{n+1}$$, is


 * $$\Delta_n=\{(t_0,t_1,\dots,t_n)\in \mathbb{R}^{n+1}: t_i\geq 0\text{ and }\sum^n_{i=0} t_i=1\}$$

Note that the set is expressed in a very similar manner, but the co-ordinates are fixed in $$\mathbb{R}^{n+1}$$.



Face of a Simplex
A face of an n-simplex $$\mathcal{S}$$ is any (n-1)-simplex formed by an n-1 element subset of the verticies of $$\mathcal{S}$$.

Defintion of a simplicial complex
A simplicial complex is a union of simplicies such that the intersection of any two simplicies is a simplex. Alternatively if $$\mathcal{C}$$ is a simplicial complex then

1. Every face of a simplex in $$\mathcal{C}$$ is a simplex in $$\mathcal{C}$$.

2. The intersection of two simplicies $$A, B \in \mathcal{C}$$ is a face of both of A and B.

Example
The triangulation of a polygon in the plane is a simplcial complex. In fact it hints at the existence of simplicial complexes existing for all polytopes, e.g. every polyhedron can be expressed as tetrahedrons meeting full face to full face.

Exercises
(under construction)