ผลต่างระหว่างรุ่นของ "01204211/homework9 graph theory 2"
Jittat (คุย | มีส่วนร่วม) |
Jittat (คุย | มีส่วนร่วม) |
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| (ไม่แสดง 2 รุ่นระหว่างกลางโดยผู้ใช้คนเดียวกัน) | |||
| แถว 3: | แถว 3: | ||
'''Due:''' 18 Dec 2015 | '''Due:''' 18 Dec 2015 | ||
| − | '''H.1''' (LPV- | + | '''H.1''' (LPV-7.3.9) Prove that at least one of <math>G</math> and <math>\bar{G}</math> is connected. (Note that <math>\bar{G}</math> is a [https://en.wikipedia.org/wiki/Complement_graph complement graph] of <math>G</math>.) |
| − | '''H.2''' | + | '''H.2''' <del>''TBA''</del> ''There is no problem H.2. Please skip this problem.'' |
| − | '''H.3''' (LPV-10.3.1) In class, we proved the [https://en.wikipedia.org/wiki/Hall's_marriage_theorem Hall's marriage theorem]. In this problem, you will show that if a bipartite graph <math>G=(A\cup B,E)</math> satisfies the condition that every node has the same degree <math>d\geq 1</math>, the <math>G</math> has a perfect matching. | + | '''H.3''' (LPV-8.3.2) How many labeled trees on ''n'' nodes are stars? How many are paths? |
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| + | '''H.4''' (LPV-8.5.4) Prove that if a tree has a node of degree ''d'', then it has at least ''d'' leaves. | ||
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| + | '''H.5''' (LPV-10.3.1) In class, we proved the [https://en.wikipedia.org/wiki/Hall's_marriage_theorem Hall's marriage theorem]. In this problem, you will show that if a bipartite graph <math>G=(A\cup B,E)</math> satisfies the condition that every node has the same degree <math>d\geq 1</math>, the <math>G</math> has a perfect matching. | ||
(Hint: first prove that (1) <math>|A|=|B|</math>, and (2) for any subset <math>X\subseteq A</math> of size <math>k</math>, the number of nodes in <math>B</math> that are connected to some node in <math>X</math> is at least <math>k</math>, then apply the Hall's theorem.) | (Hint: first prove that (1) <math>|A|=|B|</math>, and (2) for any subset <math>X\subseteq A</math> of size <math>k</math>, the number of nodes in <math>B</math> that are connected to some node in <math>X</math> is at least <math>k</math>, then apply the Hall's theorem.) | ||
| − | '''H. | + | '''H.6''' (LPV-10.4.9) Let ''G'' be a bipartite graph with ''m'' nodes on both sides. Prove that if each node has degree larger than ''m/2'', then it has a perfect matching. |
(Hint: prove that ''G'' is good. Is is possible to find a subset of nodes on the left side that violates condition (2) for the Hall's marriage theorem?) | (Hint: prove that ''G'' is good. Is is possible to find a subset of nodes on the left side that violates condition (2) for the Hall's marriage theorem?) | ||
รุ่นแก้ไขปัจจุบันเมื่อ 19:44, 17 ธันวาคม 2558
- This is part of 01204211-58
Due: 18 Dec 2015
H.1 (LPV-7.3.9) Prove that at least one of and is connected. (Note that is a complement graph of .)
H.2 TBA There is no problem H.2. Please skip this problem.
H.3 (LPV-8.3.2) How many labeled trees on n nodes are stars? How many are paths?
H.4 (LPV-8.5.4) Prove that if a tree has a node of degree d, then it has at least d leaves.
H.5 (LPV-10.3.1) In class, we proved the Hall's marriage theorem. In this problem, you will show that if a bipartite graph satisfies the condition that every node has the same degree , the has a perfect matching.
(Hint: first prove that (1) , and (2) for any subset of size , the number of nodes in that are connected to some node in is at least , then apply the Hall's theorem.)
H.6 (LPV-10.4.9) Let G be a bipartite graph with m nodes on both sides. Prove that if each node has degree larger than m/2, then it has a perfect matching.
(Hint: prove that G is good. Is is possible to find a subset of nodes on the left side that violates condition (2) for the Hall's marriage theorem?)
