The second virial coefficients B-ij (nm(3)) of poly(ethylene glycol) with. molecular weight M = 600-10(4) in water are measured by freezing point depression. B-12 represents the virial cross coefficient for two PEG solutes with different molecular weights M-1 and M-2. Bll can be well described by the scaling law M3(v) with nu similar or equal to 0.60. That is, the good solvent behavior is observed even for such low molecular weight. In terms of the hard-sphere model, the effective diameter of PEG ranges from 1.3 to 7.9 nm. Since the second virial coefficient is generally increased with decreasing temperature, our results at freezing point provide an upper bound. The virial cross coefficient is found to follow B-12 = B-11[1 + (M-2/M-1)nu](3)/8. This result indicates that the effective hard-sphere picture is also reasonable for dilute solutions of different polymer molecules in good solvents.