Combinatorics (Fall 2010)/Ramsey theory: Difference between revisions
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== Ramsey's Theorem == | == Ramsey's Theorem == | ||
{{Theorem|Ramsey's Theorem| | |||
:Let <math>r, s, k</math> be positive integers. Then there exists an integer <math>N</math> with the following property: | |||
:If <math>|X|\ge N</math> and <math>f:{X\choose r}\rightarrow[s]</math> is an arbitrary <math>s</math>-coloring of <math>{X\choose r}</math>, then there exists a subset <math>Y\subseteq Y</math> with <math>Y\ge k</math> such that <math>{Y\choose r}</math> is monochromatic. | |||
}} | |||
=== Ramsey number === | === Ramsey number === | ||
Revision as of 09:57, 17 November 2010
Ramsey's Theorem
Ramsey's Theorem - Let [math]\displaystyle{ r, s, k }[/math] be positive integers. Then there exists an integer [math]\displaystyle{ N }[/math] with the following property:
- If [math]\displaystyle{ |X|\ge N }[/math] and [math]\displaystyle{ f:{X\choose r}\rightarrow[s] }[/math] is an arbitrary [math]\displaystyle{ s }[/math]-coloring of [math]\displaystyle{ {X\choose r} }[/math], then there exists a subset [math]\displaystyle{ Y\subseteq Y }[/math] with [math]\displaystyle{ Y\ge k }[/math] such that [math]\displaystyle{ {Y\choose r} }[/math] is monochromatic.
Ramsey number
The "Happy Ending" problem
The happy ending problem - Any set of 5 points in the plane, no three on a line, has a subset of 4 points that form the vertices of a convex quadrilateral.
See the article [1] for the proof.
We say a set of points in the plane in general positions if no three of the points are on the same line.
Theorem (Erdős-Szekeres 1935) - For any positive integer [math]\displaystyle{ n\ge 3 }[/math], there is an [math]\displaystyle{ N(n) }[/math] such that any set of at least [math]\displaystyle{ N(n) }[/math] points in general position in the plane (i.e., no three of the points are on a line) contains [math]\displaystyle{ n }[/math] points that are the vertices of a convex [math]\displaystyle{ n }[/math]-gon.