Quasielastic scattering angular distributions have been measured for the 7Be + 9Be system at Elab = 17 , 19 and 21MeV in the angular range \( \theta_{{cm}}^{}\) = 24° - 57° . An optical model (OM) analysis of these data has been carried out in order to extract optical potential parameters and reaction cross-sections. One-proton stripping cross-sections were also measured for this system at Elab = 19 and 21MeV. These transfer angular-distribution data were compared with the finite-range distorted-wave Born approximation (FRDWBA) calculations. For the 7Li + 9Be system quasielastic scattering angular distributions were measured and emitted light charged particles were detected at Elab = 15.75 , 24.00 and 30.00MeV in the angular range \( \theta_{{cm}}^{}\) = 7° - 70° . Fusion cross-sections were obtained by reproducing the measured \( \alpha\) -evaporation spectra from the compound nucleus at backward angles with the statistical model calculations. The ratios of the experimental fusion cross-sections to the total reaction cross-sections (obtained from OM analysis) were found to be small. This result suggests that the break-up process has a strong influence on the fusion process leading to a reduction in the fusion cross-section.