We have studied the rheological behavior of viscoelastic wormlike micellar solution in a mixed system of nonionic fluorinated surfactants, perfluoroalkyl sulfonamide ethoxylate, C 8 F 17 SO 2 N(C 3 H 7 )(CH 2 CH 2 O) n H abbreviated as C 8 F 17 EO n (n=10 and 20). Above critical micelle concentration, the surfactant, C 8 F 17 EO 20 forms small spherical micelles in water and the viscosity of the solution remains constant regardless of the shear rate, i.e., the solutions exhibit Newtonian behavior. However, upon successive addition of the C 8 F 17 EO 10 the viscosity of the solution increases and at certain C 8 F 17 EO 10 concentration, shear-thinning behavior is observed indicating the formation wormlike micelles. Contrary to what is expected, there is a viscosity increase with the addition of the hydrophilic C 8 F 17 EO 20 to C 8 F 17 EO 10 aqueous solutions at certain temperature and concentration, which could be attributed to an increase in rigidity of the surfactant layer and to the shifting of micellar branching to higher temperatures. The oscillatory-shear rheological behavior of the viscoelastic solution can be described by Maxwell model at low frequency. Small-angle X-ray scattering (SAXS) measurements confirmed the formation of small spherical micellar aggregates in the dilute aqueous C 8 F 17 EO 20 solution. The SAXS data shows the one-dimensional growth on the micellar size with increase in the C 8 F 17 EO 10 concentration. Thus, the present SAXS data supports the rheological data.