The interactions of non-ionic amphiphilic diblock copolymer poly(oxyethylene/oxybutylene)(E_(39)B_(18)) with anionic surfactant sodium dodecyl sulphate(SDS) and cationic surfactant hexadecyltrimethylammonium bromide(CTAB) were studied by using various techniques such as surface tension,conductivity,steady-state fluorescence and dynamic light scattering.Surface tension measurements were used to determine the critical micelle concentration(CMC) and thereby the free energy of micellization(△G_(mic)),free energy of adsorption(△G_(ads)),surface excess concentration(Γ) and minimum area per molecule(A).Conductivity measurements were used to determine the critical micelle concentration(CMC),critical aggregation concentration(CAC),polymer saturation point(PSP),degree of ionization(α) and counter ion binding(β). Dynamic light scattering experiments were performed to check the changes in physiochemical properties of the block copolymer micelles taken place due to the interactions of diblock copolymers with ionic surfactants.The ratio of the first and third vibronic peaks(I_1/I_3) indicated the polarity of the pyrene micro environment and was used for the detection of micelle as well as polymer-surfactant interactions.Aggregation number(N),number of binding sites(n) and free energy of binding (△G_b) for pure surfactants as well as for polymer-surfactant mixed micellar systems were determined by the fluorescence quenching method. The interactions of non-ionic amphiphilic diblock copolymer poly (oxyethylene / oxybutylene) (E_ (39) B_ (18)) with anionic surfactant sodium dodecyl sulphate (SDS) and cationic surfactant hexadecyltrimethylammonium bromide (CTAB) were studied by using various techniques such as surface tension, conductivity, steady-state fluorescence and dynamic light scattering. Surfacing measurements were used to determine the critical micelle concentration (CMC) and thus the free energy of micellization (ΔG_ (mic) (ads), surface excess concentration (Γ) and minimum area per molecule (A). Conductivity measurements were used to determine the critical micelle concentration (CMC), critical aggregation concentration (CAC), polymer saturation point ionization (α) and counter ion binding (β). Dynamic light scattering experiments were performed to check the changes in physiochemical properties of the block copolymer micelles place due due to the interactions of dibloc k copolymers with ionic surfactants. The ratio of the first and the third vibronic peaks (I_1 / I_3) indicated the polarity of the pyrene micro environment and was used for the detection of micelle as well as polymer-surfactant interactions. Agregation number (N), number of binding sites (n) and free energy of binding (ΔG_b) for pure surfactants as well as for polymer-surfactant mixed micellar systems were determined by the fluorescence quenching method.