The conformational characteristics of poly(ethylene oxide) (PEO) in methanol at 25 degrees C were investigated by static light scattering and viscometry for high molar mass (M-w) PEO fractions covering M-w = 3.42 x 10(5) -5.05 x 10(6) g mol(-1). No trace of downturn in the plot of angular dependence of Kc/R-0, at low angle was found. Experimental scaling laws for the second virial coefficient (A(2)), the third virial coefficient (A(3)), the radius of gyration (< R-G(2)>(1/2)) and the intrinsic viscosity ([eta]) were determined. The exponents characterizing these scaling laws confirmed that the PEO chain in methanol has a flexible conformation with relatively large excluded volume, but methanol is not as good solvent as water. On the other hand, the low value of interpenetration function (psi) and the relatively higher order of the dimensionless parameter Gamma I are considered to be an indication of local chain stiffness. All the results obtained in this study allow us to conclude that the overall chain conformation of PEO assumed in methanol is basically a random coil, but is intermittently mixed with helical structure. (c) 2007 Elsevier Ltd. All rights reserved.