(New page: For the graph of exercise 2, I found a,b,e,d,z. Therefore the total weight is 7. It is the shortest path. --rtabchou)
 
 
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For the graph of exercise 2, I found a,b,e,d,z. Therefore the total weight is 7. It is the shortest path.  --rtabchou
 
For the graph of exercise 2, I found a,b,e,d,z. Therefore the total weight is 7. It is the shortest path.  --rtabchou
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I'm not sure you are on the right problem.
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We need to determine if the graph is planar which it is not by corollary 3 of theorem 1 as 2*v-4=8 which is less than e=9.  You can use this corollary since there are no circuits of length 3.
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You can also look at the graph and see that it is a representation of K(3,3), and therefore, is not planar.

Latest revision as of 19:00, 3 December 2008

For the graph of exercise 2, I found a,b,e,d,z. Therefore the total weight is 7. It is the shortest path. --rtabchou

I'm not sure you are on the right problem. We need to determine if the graph is planar which it is not by corollary 3 of theorem 1 as 2*v-4=8 which is less than e=9. You can use this corollary since there are no circuits of length 3.

You can also look at the graph and see that it is a representation of K(3,3), and therefore, is not planar.

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