Electromagnetic form factors of the neutron are calculated from recent inelastice-d- scattering measurements which were performed at the quasi-elastic peak and at momentum transfers below 5 f−2. The theory used in the analysis includes a realistic description of the deuteron structure and of the effect of interactions between the outgoing nucleons. We find that the rescattering corrections are very important in this region of momentum transfer. Concerning the charge form factor G2E of the neutron it is concluded that meaningful results cannot be given at the moment. The magnetic form factor of the neutron G2M/μ2 comes out still larger than but closer to the magnetic form factor G1M/μ1 of the proton compared to former analyses. More measurements around q2=1 f−2 seem to be very interesting in this respect.