Homology (mathematics) 

Construction of homology groups

The procedure works as follows: Given the object X, one first defines a chain complex that encodes information about X. A chain complex is a sequence of abelian groups or modules A₀, A₁, A₂... connected by homomorphisms d_n : A_n -> A_n-1, such that the composition of any two consecutive maps is zero: d_n o d_n+1 = 0 for all n. This means that the image of the n+1-th map is contained in the kernel of the n-th, and we can define the n-th homology group of X to be the factor group (or factor module)

H_n(X) = ker(d_n) / im(d_n+1).

A chain complex is said to be exact if the image of the n+1-th map is always equal to the kernel of the n-th map. The homology groups of X therefore measure "how far" the chain complex associated to X is from being exact.

Examples

A gentler introduction with pictures would be nice

The motivating example comes from algebraic topology: the simplicial homology of a simplicial complex X. Here A_n is the free abelian group or module whose generators are the n-dimensional oriented simplexes of X. The mappings are called the boundary mappings and send the simplex with vertices (a[1], a[2], ..., a[n]) to the sum of (-1)ⁱ (a[1], ..., a[i-1], a[i+1], ..., a[n]) from i = 0 to i = n. If we take the modules to be over a field, then the dimension of the n-th homology of X turns out to be the number of "holes" in X at dimension n.

Using this example as a model, one can define a simplicial homology for any topological space X. We define a chain complex for X by taking A_n to be the free abelian group (or free module) whose generators are all continuous maps from n-dimensional simplices into X. The homomorphisms d_n arise from the boundary maps of simplices.

In abstract algebra, one uses homology to define derived functors[?], for example the Tor functors[?]. Here one starts with some covariant additive functor F and some module X. The chain complex for X is defined as follows: first find a free module F₁ and a surjective homomorphism p₁ : F₁ -> X. Then one finds a free module F₂ and a surjective homomorphism p₂ : F₂ -> ker(p₁). Continuing in this fashion, a sequence of free modules F_n and homorphisms p_n can be defined. By applying the functor F to this sequence, one obtains a chain complex; the homology H_n of this complex depends only on F and X and is, by definition, the n-th derived functor of F, applied to X.

Cohomology

Chain complexes form a category: A morphism from the chain complex (d_n : A_n -> A_n-1) to the chain complex (e_n : B_n -> B_n-1) is a sequence of homomorphisms f_n : A_n -> B_n such that f_n-1 o d_n = e_n-1 o f_n for all n. The n-th homology H_n can be viewed as a covariant functor from the category of chain complexes to the category of abelian groups (or modules).

If the chain complex depends on the object X in a covariant manner (meaning that any morphism X -> Y induces a morphism from X's chain complex to Y's), then the H_n are covariant functors from the category that X belongs to into the category of abelian groups (or modules).

The only difference between homology and cohomology is that in cohomology the chain complexes depend in a contravariant manner on X, and that therefore the homology groups (which are called cohomology groups in this context and denoted by Hⁿ) form contravariant functors from the category that X belongs to into the category of abelian groups or modules.

Properties

If (d_n : A_n -> A_n-1) is a chain complex such that all but finitely many A_n are zero, and the others are finitely generated abelian groups (or finite dimensional vector spaces), then we can defined the Euler characteristic

χ = ∑ (-1)ⁿ rank(A_n)

χ = ∑ (-1)ⁿ rank(H_n)

Every short exact sequence

0 -> A -> B -> C -> 0

... -> H_n(A) -> H_n(B) -> H_n(C) -> H_n-1(A) -> H_n-1(B) -> H_n-1(C) -> H_n-2(A) -> ...

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