Presentation is loading. Please wait.

Presentation is loading. Please wait.

MAT 2720 Discrete Mathematics

Published byLotte Kirkegaard Modified over 5 years ago

Similar presentations

Presentation on theme: "MAT 2720 Discrete Mathematics"— Presentation transcript:

1 MAT 2720 Discrete Mathematics
Section 8.7 Planar Graphs

2 Minimum to copy for this section...
Proofs with graphical components

3 Goals Define Planar Graphs The conditions for a graph to be planar
Series Reductions Homeomorphic Graphs

4 Example 1 The following are 2 ways of drawing the same graph, K4.

5 Definition A graph is planar if it can be drawn in the plane without its edges crossing.

6 Definition A graph is planar if it can be drawn in the plane without its edges crossing. K4 is planar K5 is NOT planar K3,3 is NOT planar

7 Definition A graph is planar if it can be drawn in the plane without its edges crossing. K4 is planar K5 is NOT planar K3,3 is NOT planar We will look at why.

8 Faces of a Planar Graph

9 Euler’s Formula for Graphs
If G is a connected, planar graph with e edges, v vertices, and f faces, then f=e-v+2

10 Euler’s Formula for Graphs
If G is a connected, planar graph with e edges, v vertices, and f faces, then f=e-v+2

11 Example 2 K3,3 is NOT planar

12 Example 2: Proof by Contradiction
Suppose K3,3 is planar 1. Every cycle has at least 4 edges.

13 Example 2: Proof by Contradiction
Suppose K3,3 is planar 1. Every cycle has at least 4 edges. 2.The no. of edges that bound faces is at least 4f (with some edges counted twice). f=e-v+2

14 Observations A graph contains K3,3 or K5 as a subgraph is NOT planar.

15 Eliminating edges (𝑎, 𝑏), (𝑏, 𝑐), and (𝑐, 𝑎)
Formal Solutions Eliminating edges (𝑎, 𝑏), (𝑏, 𝑐), and (𝑐, 𝑎) Since the graph contains a subgraph of 𝐾3,3, it is not planar.

16 Observations A graph contains a graph “somewhat” similar to K3,3 or K5 as a subgraph is NOT planar.

17 Series Reduction Edges in Series Series Reduction

18 Homeomorphic Two graphs are homeomorphic if they can be reduced to isomorphic graphs by a sequence of series reduction.

19 Example 3 Show that the following graphs are homeomorphic.

20 Formal Solutions The graphs are homeomorphic since they can be reduced to the same graph by a sequence of series reduction. Series Reduction: eliminating vertices 𝑎 and 𝑏 Series Reduction: eliminating vertices 𝑐 and 𝑑

21 Back to our Earlier Example...

22 Formal Solutions Series Reduction: eliminating vertex 𝑑 Eliminating edges (𝑎, 𝑏), (𝑏, 𝑐), and (𝑐, 𝑎) Since the graph contains a subgraph homeomorphic to 𝐾3,3, it is not planar

23 Kuratowski’s Theorem A graph is planar iff it does not contain a subgraph homeomorphic to 𝐾3,3 or 𝐾5 .

24 Example 3 Show that the following graph is not planar.

25 Example 3 Key: Locate the subgraph homeomorphic to K3,3 or K5

26 Example 3: Formal Solutions
Eliminating edges (a,b), (f,e), and (g,h) eliminating vertices g and h

27 Example 3: Formal Solutions
Eliminating edges (a,b), (f,e), and (g,h) eliminating vertices g and h Since the graph contains a subgraph homeomorphic to 𝐾3,3, it is not planar

Download ppt "MAT 2720 Discrete Mathematics"

Similar presentations

Graphs, Planar graphs Graph coloring

Graphs, Planar graphs Graph coloring
MCA 202: Discrete Mathematics under construction Instructor Neelima Gupta

MCA 202: Discrete Mathematics under construction Instructor Neelima Gupta
Walks, Paths and Circuits Walks, Paths and Circuits Sanjay Jain, Lecturer, School of Computing.

Walks, Paths and Circuits Walks, Paths and Circuits Sanjay Jain, Lecturer, School of Computing.
9.7 Planar Graphs. Intro problem- 3 houses and 3 utilities K 3,3 problem: Can 3 houses be connected to 3 utilities so that no 2 lines cross? Similarly,

9.7 Planar Graphs. Intro problem- 3 houses and 3 utilities K 3,3 problem: Can 3 houses be connected to 3 utilities so that no 2 lines cross? Similarly,
CompSci 102 Discrete Math for Computer Science April 19, 2012 Prof. Rodger Lecture adapted from Bruce Maggs/Lecture developed at Carnegie Mellon, primarily.

CompSci 102 Discrete Math for Computer Science April 19, 2012 Prof. Rodger Lecture adapted from Bruce Maggs/Lecture developed at Carnegie Mellon, primarily.
Planar / Non-Planar Graphs Gabriel Laden CS146 – Spring 2004 Dr. Sin-Min Lee.

Planar / Non-Planar Graphs Gabriel Laden CS146 – Spring 2004 Dr. Sin-Min Lee.
Last time: terminology reminder w Simple graph Vertex = node Edge Degree Weight Neighbours Complete Dual Bipartite Planar Cycle Tree Path Circuit Components.

Last time: terminology reminder w Simple graph Vertex = node Edge Degree Weight Neighbours Complete Dual Bipartite Planar Cycle Tree Path Circuit Components.
Applied Combinatorics, 4th Ed. Alan Tucker

Applied Combinatorics, 4th Ed. Alan Tucker
Computational Geometry Seminar Lecture 1

Computational Geometry Seminar Lecture 1
Tucker, Applied Combinatorics, Section 1.4, prepared by Patti Bodkin

Tucker, Applied Combinatorics, Section 1.4, prepared by Patti Bodkin
Graph Colouring Lecture 20: Nov 25.

Graph Colouring Lecture 20: Nov 25.
Drawing of G. Planar Embedding of G Chord A chord of a cycle C is an edge not in C whose endpoints lie in C.

Drawing of G. Planar Embedding of G Chord A chord of a cycle C is an edge not in C whose endpoints lie in C.
CTIS 154 Discrete Mathematics II1 8.2 Paths and Cycles Kadir A. Peker.

CTIS 154 Discrete Mathematics II1 8.2 Paths and Cycles Kadir A. Peker.
Drawing of G. Planar Embedding of G Proposition 6.1.2 Proof. 1. Consider a drawing of K 5 or K 3,3 in the plane. Let C be a spanning cycle. 2. If the.

Drawing of G. Planar Embedding of G Proposition Proof. 1. Consider a drawing of K 5 or K 3,3 in the plane. Let C be a spanning cycle. 2. If the.
Curve Curve: The image of a continous map from [0,1] to R 2. Polygonal curve: A curve composed of finitely many line segments. Polygonal u,v-curve: A polygonal.

Curve Curve: The image of a continous map from [0,1] to R 2. Polygonal curve: A curve composed of finitely many line segments. Polygonal u,v-curve: A polygonal.
Chapter 15 Graph Theory © 2008 Pearson Addison-Wesley.

Chapter 15 Graph Theory © 2008 Pearson Addison-Wesley.
Chapter 6 Graph Theory R. Johnsonbaugh Discrete Mathematics 5 th edition, 2001.

Chapter 6 Graph Theory R. Johnsonbaugh Discrete Mathematics 5 th edition, 2001.
Module 5 – Networks and Decision Mathematics Chapter 23 – Undirected Graphs.

Module 5 – Networks and Decision Mathematics Chapter 23 – Undirected Graphs.
V Spanning Trees Spanning Trees v Minimum Spanning Trees Minimum Spanning Trees v Kruskal’s Algorithm v Example Example v Planar Graphs Planar Graphs v.

V Spanning Trees Spanning Trees v Minimum Spanning Trees Minimum Spanning Trees v Kruskal’s Algorithm v Example Example v Planar Graphs Planar Graphs v.
MAT 2720 Discrete Mathematics Section 8.7 Planar Graphs

MAT 2720 Discrete Mathematics Section 8.7 Planar Graphs

Similar presentations

Ads by Google