组合数学 (Fall 2019)/Problem Set 4: Difference between revisions
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* Fix any <math>B\in\mathcal{F}</math>. Show that the family <math>\{A\cap B\mid A\in\mathcal{F}, A\neq B\}</math> is an anti chain. | * Fix any <math>B\in\mathcal{F}</math>. Show that the family <math>\{A\cap B\mid A\in\mathcal{F}, A\neq B\}</math> is an anti chain. | ||
* Show that <math>|\mathcal{F}|\le 1+{k\choose \lfloor k/2\rfloor}</math>. | * Show that <math>|\mathcal{F}|\le 1+{k\choose \lfloor k/2\rfloor}</math>. | ||
==Problem 3 == | ==Problem 3 == | ||
Revision as of 05:32, 11 December 2019
Problem 1
(Matching vs. Star)
Given a graph [math]\displaystyle{ G(V,E) }[/math], a matching is a subset [math]\displaystyle{ M\subseteq E }[/math] of edges such that there are no two edges in [math]\displaystyle{ M }[/math] sharing a vertex, and a star is a subset [math]\displaystyle{ S\subseteq E }[/math] of edges such that every pair [math]\displaystyle{ e_1,e_2\in S }[/math] of distinct edges in [math]\displaystyle{ S }[/math] share the same vertex [math]\displaystyle{ v }[/math].
Prove that any graph [math]\displaystyle{ G }[/math] containing more than [math]\displaystyle{ 2(k-1)^2 }[/math] edges either contains a matching of size [math]\displaystyle{ k }[/math] or a star of size [math]\displaystyle{ k }[/math].
(Hint: Learn from the proof of Erdos-Rado's sunflower lemma.)
Problem 2
(Frankl 1986)
Let [math]\displaystyle{ \mathcal{F}\subseteq {[n]\choose k} }[/math] be a [math]\displaystyle{ k }[/math]-uniform family, and suppose that it satisfies that [math]\displaystyle{ A\cap B \not\subset C }[/math] for any [math]\displaystyle{ A,B,C\in\mathcal{F} }[/math].
- Fix any [math]\displaystyle{ B\in\mathcal{F} }[/math]. Show that the family [math]\displaystyle{ \{A\cap B\mid A\in\mathcal{F}, A\neq B\} }[/math] is an anti chain.
- Show that [math]\displaystyle{ |\mathcal{F}|\le 1+{k\choose \lfloor k/2\rfloor} }[/math].
Problem 3
An [math]\displaystyle{ n }[/math]-player tournament (竞赛图) [math]\displaystyle{ T([n],E) }[/math] is said to be transitive, if there exists a permutation [math]\displaystyle{ \pi }[/math] of [math]\displaystyle{ [n] }[/math] such that [math]\displaystyle{ \pi_i\lt \pi_j }[/math] for every [math]\displaystyle{ (i,j)\in E }[/math].
Show that for any [math]\displaystyle{ k\ge 3 }[/math], there exists a finite [math]\displaystyle{ N(k) }[/math] such that every tournament of [math]\displaystyle{ n\ge N(k) }[/math] players contains a transitive sub-tournament of [math]\displaystyle{ k }[/math] players. Express [math]\displaystyle{ N(k) }[/math] in terms of Ramsey number.