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Topology is the study or science of places. It derives its name from the Greek words τοπος meaning place and λογος meaning study, talk.

See also: earth science, physical geography, human geography, geomorphology

In architecture, topology is a term used to describe spatial effects which can not be described by topography, i.e., social, economical, spatial or phenomenological interactions.

In mathematics, topology is a branch concerned with the study of topological spaces. (The term topology is also used for a set of open sets used to define topological spaces, but this article focuses on the branch of mathematics. Wiring and computer network topologies are discussed in network topology.)

Topology is also concerned with the study of the so-called topological properties of figures, that is to say properties that do not change under bicontinuous one-to-one transformations (called homeomorphisms). Two figures that can be deformed one into the other are called homeomorphic, and are considered to be the same from the topological point of view. For example a solid cube and a solid sphere are homeomorphic.

However, it is not possible to deform a sphere into a circle by a bicontinuous one-to-one transformation. Dimension is in fact, a topological property. In a sense, topological properties are the deeper properties of figures.

The topology glossary contains definitions of terms used throughout topology.

1 History

2 Elementary introduction

3 Some theorems in general topology

4 Some useful notions from algebraic topology

5 Outline of the deeper theory

6 Generalizations

7 Related articles

8 External link

Table of contents


The root of topology was in the study of geometry in ancient cultures. Leonhard Euler's 1736 paper on Seven Bridges of Königsberg is regarded as one of the first results on geometry that does not depend on any measurements, i.e., one of the first topological results.

Maurice Fréchet introduced the concept of metric space in 1906.

Georg Cantor, the inventor of set theory, studied extensively on limits.

In 1914, Hausdorff coined the term "topological space" and gave definition to what is now called Hausdorff space.

The current concept of topological space was described by Kuratowski in 1922.

Elementary introduction

Topological spaces show up naturally in mathematical analysis, abstract algebra and geometry. This has made topology one of the great unifying ideas of mathematics. General topology, or point-set topology, defines and studies some useful properties of spaces and maps, such as connectedness, compactness and continuity. Algebraic topology is a powerful tool to study topological spaces, and the maps between them. It associates "discrete", more computable invariants to maps and spaces, often in a functorial way. Ideas from algebraic topology have had strong influence on algebra and algebraic geometry.

The motivating insight behind topology is that some geometric problems depend not on the exact shape of the objects involved, but rather on the "way they are connected together". One of the first papers in topology was the demonstration, by Leonhard Euler, that it was impossible to find a route through the town of Königsberg (now Kaliningrad) that would cross each of its seven bridges exactly once. This result did not depend on the lengths of the bridges, nor on their distance from one another, but only on connectivity properties: which bridges are connected to which islands or riverbanks. This problem, the Seven Bridges of Königsberg, is now a famous problem in introductory mathematics.

Similarly, the hairy ball theorem of algebraic topology says that "one cannot comb the hair on a ball smooth". This fact is immediately convincing to most people, even though they might not recognize the more formal statement of the theorem, that there is no nonvanishing continuous tangent vector field on the sphere. As with the Bridges of Königsberg, the result does not depend on the exact shape of the sphere; it applies to pear shapes and in fact any kind of blob (subject to certain conditions on the smoothness of the surface), as long as it has no holes.

In order to deal with these problems that do not rely on the exact shape of the objects, one must be clear about just what properties these problems do rely on. From this need arises the notion of topological equivalence. The impossibility of crossing each bridge just once applies to any arrangement of bridges topologically equivalent to those in Königsberg, and the hairy ball theorem applies to any space topologically equivalent to a sphere. Formally, two spaces are topologically equivalent if there is a homeomorphism between them. In that case the spaces are said to be homeomorphic, and they are considered to be essentially the same for the purposes of topology.

Formally, a homeomorphism is defined as a continuous bijection with a continuous inverse, which is not terribly intuitive even to one who knows what the words in the definition mean. A more informal criterion gives a better visual sense: two spaces are topologically equivalent if one can be deformed into the other without cutting it apart or gluing pieces of it together. The traditional joke is that the topologist can't tell the coffee cup she is drinking out of from the donut she is eating, since a sufficiently pliable donut could be reshaped to the form of a coffee cup by creating a dimple and progressively enlarging it, while shrinking the hole into a handle.

One simple introductory exercise is to classify the lowercase letters of the English alphabet according to topological equivalence. To be simple, it is assumed that the lines of the letters have nonzero width. Then in most fonts in modern use, there is a class {a,b,d,e,o,p,q} of letters with one hole, a class {c,f,h,k,l,m,n,r,s,t,u,v,w,x,y,z} of letters without a hole, and a class {i,j} of letters consisting of two pieces. g may either belong in the class with one hole, or be the sole element of a class of letters with two holes, depending on whether or not the tail is closed. For a more complicated exercise, it may be assumed that the lines have zero width; one can get several different classifications depending on which font is used.

Some theorems in general topology

Some useful notions from algebraic topology

See also list of algebraic topology topics.

Outline of the deeper theory

  • (Co)fibre sequences: Puppe sequence, computations
  • Homotopy groups of spheres
  • Obstruction theory
  • K-theory: KO-theory, algebraic K-theory
  • Stable homotopy theory
  • Brown's representability theorem
  • (Co)bordism
  • Signatures
  • Brown-Peterson BP and Morava K-theory
  • Surgery obstructions
  • H-spaces, infinite loop spaces, A rings
  • Homotopy theory of affine schemes
  • Intersection cohomology


Occasionally, one needs to use the tools of topology but a "set of points" is not available. In pointless topology one considers instead the lattice of open sets as the basic notion of the theory, while Grothendieck topologies are certain structures defined on arbitrary categories which allow the definition of sheaves on those categories, and with that the definition of quite general cohomology theories.

Related articles

External link

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