The responses of Newtonian fluid and concentrated polymer solutions under shear are studied at single molecule level. In this experiment, Newtonian fluids are 57% sucrose solutions and high concentration polymer solutions are prepared by dissolving λ‐DNA in TE buffer at 5 μg/μl concentration. The Mn2+ ions are added in the concentrated polymer solution to investigate the polymer solution at cross‐linked state. Fluorescence tracer particles are introduced in various flows; to measure the velocity profiles. Dye labeled DNA molecules mixing with unlabeled ones are tracer molecules to observe the single molecule behaviors. The shear flow is generated by driving a plate on top of the fluid sample. Through the fluorescent microscopy, the dynamical behavior of individual molecule in the Newtonian fluid and concentrated DNA solution under shear is investigated. The velocity profiles are nonlinear and the ellipse ratio of individual DNA molecules is not homogeneous in sheared concentrated polymer solution. The concentrated polymer solutions also show a slow relaxation process after shear. Base on the measured velocity profiles and the post‐shear relaxation process, we propose that, the cross‐linked concentrated polymer solution seems to be a strongly coupled 3D polymer network.