Abstarct: This thesis presents the results of the nuclear magnetic dipole moment and electrical quadrupole moment of the nuclei with J=1 (6Li, 2H, 14N (before and after their scattering interaction with 17O near the Coulomb barrier. The interaction potential between the nuclei is achieved using the double-folding model. In this thesis, the wave functions of the interacting nuclei and , replace the density functions and in the double-folding model. The wave functions of the interacting nuclei have been obtained through the D-dimensional Schrodinger equation with the pseudo-coulomb potential plus ring-shaped potential and pseudo-Harmonic plus ring-shaped potential by the Nikiforov-Uvarov solution method. In the following by replacement of nuclei wave functions instead of density distribution functions we have compared the results of interaction potential values (direct and exchange nucleon-nucleon and coulomb) between nuclei under the pseudo-coulomb potential plus ring-shaped potential and pseudo-Harmonic plus ring-shaped potential , and also to investigate the effect of the obtained interaction potential on the quadruple momentum and magnetic moment of the nuclei and observes their changes relative to the distance between the interacting nuclei.