First homology group

Definition

Below are given a number of equivalent definitions of the first homology group of a topological space, using different homology theories. All these homology groups turn out to be isomorphic, via obvious choices of isomorphisms.

Singular homology definition

This definition is a particular case of the definition of singular homology.

For a topological space ${\displaystyle X}$, the first homology group ${\displaystyle H_1(X)}$ is defined as the quotient ${\displaystyle Z_1(X)/B_1(X)}$ where the groups are defined as follows:

• We define a singular 1-simplex as a continuous map from the closed unit interval to ${\displaystyle X}$. In other words, a singular 1-simplex is a path.
• We define the singular 1-chain group ${\displaystyle C_1(X)}$ as the free group with generators the singular 1-simplices. The elements of this singular 1-chain group, called singular 1-chains, and are defined as formal ${\displaystyle \mathbb{Z}}$-linear combinations of singular simplices.
• We define the boundary of a singular 1-chain ${\displaystyle \sum a_i{f}_i}$, where ${\displaystyle f_i}$ are simplices and ${\displaystyle a_i}$ are integers, as a formal sum of points in ${\displaystyle X}$ given by ${\displaystyle \sum a_i[f_i(1)-f_i(0)]}$.
• The singular 1-cycle group ${\displaystyle Z_1(X)}$ as the subgroup of ${\displaystyle C_1(X)}$ comprising those singular 1-chains whose boundary is zero. In other words, it is those singular 1-chains such that adding up all their initial points gives the same result as adding up all their terminal points.
• The singular 1-boundary group ${\displaystyle B_1(X)}$ is the subgroup comprising those singular 1-chains that arise as the sum of the singular simplices that bound a function from the 2-simplex to ${\displaystyle X}$.

The homology group ${\displaystyle H_1(X)}$ is defined as ${\displaystyle Z_1(X)/B_1(X)}$.

More intuitively, each element of the homology group, called a homology class, represents a choice of singular cycle (i.e., a formal sum of singular 1-simplices) up to adding or subtracting singular boundaries, i.e., those cycles that arise as the boundary of a 2-simplex.

Simplicial homology definition

Cellular homology definition and the CW complex case