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In other words if a graph is $3$-regular does it need to have $4$ vertices? I ask because I have been asked to prove that if $n$ is an odd number and $G$ is an $n$-regular graph then $G$ must have an even number of vertices.

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    @GregorBruns I bet $K_{3,3}$ is even more famous than the Petersen graph.2017-01-25

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It seems from your last sentence that you're asking whether an $n$-regular graph must have exactly $n+1$ vertices (rather than at least $n+1$ vertices). If so, as Gregor commented, the answer is no.

For the proof you're trying to find, try counting the number of incidences in two different ways.

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    @Gregor: That appears to be a misunderstanding; I don't think it was maybe meant as 'at least'2012-12-05
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I'm not sure how much detailed answer you want. So this is a hint, and the proof itself is hidden: Consider simple graph (no parallel edges, no loops on a vector) on $n$ vertices and think how many edges from a vertex can exist. As well, what if $n=0$?

Well, if you consider the empty graph, than it is $k$-regular and has $0$ vertices, but that's another point.

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Generally, a non-empty $k$-regular graph has to have at least $k+1$ vertices.

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Moreover, if $k$ is odd and you don't allow loops, the number of vertices $n$ must be even. That's because for number of edges $m$ satisfies $2m=\sum_{v\in V} d(v)$ (each edge is counted on $2$ vertices) and hence $2m=kn$.

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    Ok, thanks again! I'll try to do my best. From my ['home site'](http://tex.stackexchange.com/) I'm used to provide as detailed answer as possible, including possibly related things.2012-12-05