“…Taking the chiral symmetry breaking Lagrangian and using the local Lorentz-boost and the scaling method, we had calculated' 13 ' the excitation energies of giant multipoles for the nuclear matter, but the calculated results are muchlarger than experimental values. Since the excitation energies of giant resonances have some relation to the restoring force parameters while the nuclear surface effects on the restoring force parameters are important,' 10,11 ' in the present paper we shall describe the giant monopole and quadrupole states of finite nuclei not only by using the local Lorentz-boost and scaling method in the chiral symmetry breaking model, but at the same time the nuclear surface and the density distribution will be also treated by using the Thomas-Fermi approximation. Some authors have shown^1 4 ' that it is a good approximation, especially on the average for physical quantities such as nuclear density, the ground state energy, and so on.…”