The vibrational and rotational energy distributions of ground state SrF(X(2)Sigma) formed in the reactions of electronically excited Sr(P-3(1)) with methylfluoride, ethylfluoride, and 1,1-difluoroethane have been studied by laser-induced fluorescence. Although the reactions of ground state Sr with these reactants are exothermic, no SrF products are observed for those reactions in this study. The fraction of available energy disposed into the sum of rotational and vibrational energy of the SrF(X(2)Sigma) product is approximately the same for all three reactions, i.e., 40%. The reaction of Sr(P-3(1)) with CH3F results in very low vibrational excitation in the SrF reaction product. The product vibration increases in going to C2H5F and C2H4F2. It is concluded that the alkyl group influences the energy disposal mechanism in these reactions, and some suggestions are given for a partial explanation of the observations.