Dual universal coefficient theorem

From Topospaces

A more detailed page on the same theorem, but from a purely algebraic perspective, is at Groupprops:Dual universal coefficient theorem for group cohomology

Statement

For coefficients in an abelian group

Suppose is a topological space and is an abelian group. The dual universal coefficients theorem relates the homology groups of with coefficients in and the cohomology groups of with coefficients in as follows:

First, for any , there is a natural short exact sequence of abelian groups:

Second, the sequence splits (not necessarily naturally), and we get:

For coefficients in the integers

This is the special case where . In this case, we case:


Related facts

Particular cases

Case of free abelian groups

In the case that is a free abelian group, we get:

Further, if is finitely generated, then, under these circumstances, is simply the torsion-free part of .

Note that this always applies to the case , because is a free abelian group of rank equal to the number of connected components. Thus, we get:

In particular, if is finitely generated, then is free abelian and equals the torsion-free part of .

In the case that both and are free abelian groups, and the latter has finite rank, we get: