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Revision as of 22:19, 10 September 2007 by PaulTanenbaum (talk | contribs) (Added order theoretic sense)(diff) ← Previous revision | Latest revision (diff) | Newer revision → (diff)A mathematical object X has the fixed point property if every suitably well-behaved mapping from X to itself has a fixed point. The term is most commonly used to describe topological spaces on which every continuous mapping has a fixed point. But another use is in order theory, where a partially ordered set P is said to have the fixed point property if every increasing function on P has a fixed point.
Properties
A retract of a space with the fixed point property also has the fixed point property.
A product of spaces with the fixed point property also has the fixed point property.
Examples
The closed interval
The closed interval has the fixed point property: Let f: → be a mapping. If f(0) = 0 or f(1) = 1, then our mapping has a fixed point at 0 or 1. If not, then f(0) > 0 and f(1) - 1 < 0. Thus the function g(x) = f(x) - x is a continuous real valued function which is positive at x=0 and negative at x=1. By the intermediate value theorem, there is some point x0 with g(x0) = 0, which is to say that f(x0) - x0 = 0, and so x0 is a fixed point.
The open interval does not have the fixed point property. The mapping f(x) = x has no fixed point on the interval (0,1).
The closed disc
The closed interval is a special case of the closed disc, which in any dimension has the fixed point property by the Brouwer fixed point theorem.
References
- Schröder, Bernd (2002). Ordered Sets. Birkhâuser Boston.
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