In a recent paper (~) it was shown that there were difficulties in interpreting in a unified way the elastic (2) and quasi-free (a) electron scattering data from carbon by using the phenomenological spherical shell model (*). In fact, i t was impossible to obtain a set of single-particle wave function parameters which fitted both the elastic and quasifree scattering data. In paper (~) it was suggested that this result could probably be changed by considering the possible distortion of the single-particle wave functions by the short-range dynamical correlations arising from repulsive cores. One expects these correlations to have their grea%est effect on the high-momentum components of the single-particle wave functions, and consequently it is reasonable to assume that the elastic form factor, where one measures high-momentum components, will be very sensitive to these correlations. The recent results on 4He (4), and the consequent a t tempts to explain them (5), seem to confirm this hypothesis. The introduction of correlations has proved to be useful also in computing the electron elastic form factor of the eLi nucleus (5~). First results are presented in this note which show tha t if one computes the elast ic form factor with correlated wave functions, one obtains oscillator parameters similar to those given by the (o, e'p) reaction, that is sensibly state-dependent. The correlations were treated in the usual Jastrow method (6), so that the nuclear