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Basically, you require n-1 edges, to make a connected graph with n nodes. I would like to know if there is any theory behind finding the number of distinct ways you can select the n-1 edges, from the total n(n-1)/2 edges that are possible, such that the graph remains connected.

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This might be better here: math.stackexchange.com – squiguy Feb 3 at 4:37

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There are exactly nn-2 connected graphs with vertex set {1,...n} for n > 0. This result is known as Cayley's Formula.

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Just what i was looking for. Thank you so much! – Nicomoto Feb 3 at 4:50
Ive spent close to 3 hours thinking about this, finally i can read the proof and be satisfied! – Nicomoto Feb 3 at 4:50
I'm glad I could help! The fun thing about combinatorics is that it's so easy to ask a question that's really, really hard to answer. In fact, the question "How many connected graphs are there on n vertices with n+k edges?" is almost totally open for k > -1! (See this paper.) – charleyc Feb 3 at 5:01

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