1
$\begingroup$

The question is:

Show that there is a two-colouring of the complete graph $K_n$ on $n$ vertices with at most

$\displaystyle {n \choose k} 2^{1-{k \choose 2}}$

monochromatic subgraphs $K_k$.

(Hint: Compute expectation of the number of monochromatic $K_k$. )

I'm confused about what a two-colouring is. Diestel (Graph Theory) says a $k$-colouring is a vertex partition into $k$ independent sets. But for $n \geq 2$ I don't see how you can do this on $K_n$. Can someone work out what "two-colouring" means in this context?

If I assume it means colouring each edge one of two colours randomly, I can prove the result. But I don't see why it should mean this. It's just me doing what's easy.

Thanks!

  • 0
    It could mean coloring each $\it vertex$ one of two colors.2011-05-26
  • 1
    It means coloring each edge one of two colors. (The other interpretation is clearly false.)2011-05-26
  • 1
    Why not just clarify with the instructor/professor?2011-05-26
  • 1
    Shouldn't the terminology of the problem then say _2-edge-coloring_ as the default is usually '... _vertex_ ...' ?2011-05-26

1 Answers 1