Five core shell Cu/Cu2O nanoparticles were fabricated by thermal evaporation method. The outer Cu2O shell was formed by expose the Cu nanoparticle to the air . X-ray difference studies show that the mole ratio of Cu/Cu2O in the four samples are 1:1, 3:1, 3:2, 4:21. The mean particle diameters were determinded from the X-ray peak profiles and the AFM images . The mean diameters are 7.2, 8.8, 9, 12.4 nm. Magnetization and ac magnetic susceptibility measurements were performed to study the magnetic properties. Dual Langevin function plus a linear diamgnetism term were may be used to describe the M-H curves, which represent the contribution from Cu spin polarized, Cu2O spin polarized, and diamgnetism respectively. No obvious change in the saturate magnetization of Cu moment was found, whereas that of Cu2O decreases with increased temperature. The average particle moments of both Cu and Cu2O component were found to increase when temperature is increased. On other hand, the diamgnetism and saturation magnetization of Cu increase as particle diameter is decreased.