%0 Journal Article
%T Computing the Ramsey Number $R(K_5-P_3,K_5)$
%A Jesse A. Calvert
%A Michael J. Schuster
%A Stanis£żaw P. Radziszowski
%J Computer Science
%D 2012
%I arXiv
%X We give a computer-assisted proof of the fact that $R(K_5-P_3, K_5)=25$. This solves one of the three remaining open cases in Hendry's table, which listed the Ramsey numbers for pairs of graphs on 5 vertices. We find that there exist no $(K_5-P_3,K_5)$-good graphs containing a $K_4$ on 23 or 24 vertices, where a graph $F$ is $(G,H)$-good if $F$ does not contain $G$ and the complement of $F$ does not contain $H$. The unique $(K_5-P_3,K_5)$-good graph containing a $K_4$ on 22 vertices is presented.
%U http://arxiv.org/abs/1203.6536v1