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Let G be an undirected graph with distinct edge weights. Let T be the MST in G. Let (u, v) be any edge in T. Show that there is a cut (S; V-S) such that (u; v) is the minimum weight edge in this cut.

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Is this a homework assignment? –  rmalouf Mar 15 '11 at 1:33
    
@rmalouf it is a interview preparation question from one book. –  SecureFish Mar 15 '11 at 1:42
    
I feel it is related to the light-weight therom in the CLRS book. –  SecureFish Mar 15 '11 at 1:43
    
What is a cut? A bridge? Then count the edges of the mst and if it is even then there is an Euler Circuit? –  Phpdna Mar 15 '11 at 2:24
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2 Answers 2

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I'll give it a shoot, let's consider a cut such that e = (u, v) is the only of its edges belonging to T. Suppose there's another edge e' in the cut with w(e') < w(e), then we could form another ST including e' and dropping e, which would have smaller weight, absurd.

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@epitaph, I think we can always find this kind of cut, I mean its edge is safe to MST, it is not min-wt edge for all cuts, but it is min-weight edge for some cut. –  SecureFish Mar 15 '11 at 5:02
    
How can proof that such cut exist? –  SecureFish Mar 15 '11 at 5:03
    
T is spanning, so every vertex of G is either uphill or downhill (respect to the root) of u; S = { v | v downhill u } is such a cut set –  andreabedini Mar 15 '11 at 5:28
    
I try hard, but I don't understand anything! –  Phpdna Mar 15 '11 at 12:14
    
@bebOs, I am trying to figure out the whole proof. Your argument proof that: the light weight edge is safe to the set of MST, for a cut that respects A. (u,v) is any edge within MST, we can always find a cut that respects A and (u,v) across the cut according to the light weight theory. Then follow what you wrote –  SecureFish Mar 15 '11 at 19:14
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we start with |V| cuts. We merge two cuts in every loop. Finally we end up with 1 cut. The MST is a subset of the edges in this cut. Thus for every merge, we have chosen (one of)the light edge (u,v) for that cut. Finally, we have |V|-1 edges. Conversely, for every edge in the tree, there's a cut which was "bridged". So, if an edge (u,v) is in MST, there's a cut (S,V-S) corresponding to which it was the light edge.

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