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Can any body tell me that how many maximum subgraphs of a graph can possibly be there. it would be good if you can give me some explanation of the answer that how one can calculate that. Thanks

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May I ask how this is related to algorithms? It's just a bit of math –  harold Sep 11 '11 at 14:56
    
@harold I disagree, there is probably a recursive algorithm here :) –  nicolaskruchten Sep 11 '11 at 15:03
    
@nicolaskruchten well I disagree with the disagreement, the way the OP stated it he's looking for the number of valid subgraphs of the complete graph (because that number would be maximum compared to all other graphs with equally many nodes) and there's no algorithm there. –  harold Sep 11 '11 at 16:32
    
@harold I would like to know what procedure and/or formula could simultaneously answer the question and not count as an 'algorithm' in your view :) –  nicolaskruchten Sep 11 '11 at 18:38
    
@nicolaskruchten any formula, formula's aren't algorithms, they are more abstract than that and don't define how to evaluate them. –  harold Sep 11 '11 at 19:06

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This sounds like homework, so here's a few hints: The definition of a subgraph is that it consists of a subset of the nodes of the graph, and of a subset of those edges from the original graph that go between the selected nodes. (Edit: My original reply was erroneous, as "a subset of" was missing.) In other words, the question "how many subgraphs are there" has the same answer as "in how many ways can we pick subsets of the nodes", which is essentially the same question as "given a set V, how many subsets of V are there"? Edit: Thus, as @andrew cooke points out, although it is simple to express how many possible node subsets there are, the number of possible edge subsets for each node subset depends on the structure of the graph, so there is no simple formula for this.

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The set of all subgraphs isn't just the set of all subsets of nodes and edges... Consider the graph A-B-C-D: Nodes A and B and edge CD doesn't comprise a subgraph. Neither is it the set of all subsets of edges-and-associated-nodes, as A-B C-D isn't a subgraph either. –  nicolaskruchten Sep 11 '11 at 15:00
    
@nicolaskruchten: he didn't say that any of those are subgraphs. what are you talking about? –  Karoly Horvath Sep 11 '11 at 15:20
    
@nicolaskruchten: Your observations are correct, but as yi_H says, that's not what I said. I said to pick a subset of the nodes and then pick all edges where both edge endpoints are in the selected subset. –  Aasmund Eldhuset Sep 11 '11 at 15:56
    
OK fair enough I misread that. I still think there's a problem with this answer in that if you have, for example, a fully-connected graph of 5 nodes, there exist subgraphs which contain 4 of those nodes and yet don't contain all of the edges connected to all of those 4 nodes. Or for that matter all 5 nodes with only a subset of the edges. This is a combinatorics problem, just not a straightforward one. –  nicolaskruchten Sep 11 '11 at 18:34
    
@nicolaskruchten: That is indeed an error on my part. I've corrected it; thanks. –  Aasmund Eldhuset Sep 11 '11 at 20:01

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