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2. Homology (mathematics) - Wikipedia

   en.wikipedia.org/wiki/Homology_(mathematics)

   In mathematics, the term homology, originally introduced in algebraic topology, has three primary, closely-related usages.The most direct usage of the term is to take the homology of a chain complex, resulting in a sequence of abelian groups called homology groups.

3. Homological algebra - Wikipedia

   en.wikipedia.org/wiki/Homological_algebra

   It has played an enormous role in algebraic topology. Its influence has gradually expanded and presently includes commutative algebra, algebraic geometry, algebraic number theory, representation theory, mathematical physics, operator algebras, complex analysis, and the theory of partial differential equations.

4. Algebraic topology - Wikipedia

   en.wikipedia.org/wiki/Algebraic_topology

   In algebraic topology and abstract algebra, homology (in part from Greek ὁμός homos "identical") is a certain general procedure to associate a sequence of abelian groups or modules with a given mathematical object such as a topological space or a group.

5. Singular homology - Wikipedia

   en.wikipedia.org/wiki/Singular_homology

   Since the number of homology theories has become large (see Category:Homology theory), the terms Betti homology and Betti cohomology are sometimes applied (particularly by authors writing on algebraic geometry) to the singular theory, as giving rise to the Betti numbers of the most familiar spaces such as simplicial complexes and closed manifolds.

6. Excision theorem - Wikipedia

   en.wikipedia.org/wiki/Excision_theorem

   In algebraic topology, a branch of mathematics, the excision theorem is a theorem about relative homology and one of the Eilenberg–Steenrod axioms.Given a topological space and subspaces and such that is also a subspace of , the theorem says that under certain circumstances, we can cut out (excise) from both spaces such that the relative homologies of the pairs (,) into (,) are isomorphic.

7. Eilenberg–Steenrod axioms - Wikipedia

   en.wikipedia.org/wiki/Eilenberg–Steenrod_axioms

   In mathematics, specifically in algebraic topology, the Eilenberg–Steenrod axioms are properties that homology theories of topological spaces have in common. The quintessential example of a homology theory satisfying the axioms is singular homology, developed by Samuel Eilenberg and Norman Steenrod.

8. Relative homology - Wikipedia

   en.wikipedia.org/wiki/Relative_homology

   In algebraic topology, a branch of mathematics, the (singular) homology of a topological space relative to a subspace is a construction in singular homology, for pairs of spaces. The relative homology is useful and important in several ways. Intuitively, it helps determine what part of an absolute homology group comes from which subspace.

9. Hurewicz theorem - Wikipedia

   en.wikipedia.org/wiki/Hurewicz_theorem

   In mathematics, the Hurewicz theorem is a basic result of algebraic topology, connecting homotopy theory with homology theory via a map known as the Hurewicz homomorphism. The theorem is named after Witold Hurewicz, and generalizes earlier results of Henri Poincaré.