In this work the method of quantitative determination of two-body contributions to the fine and the hyperfine structure, resulting from the excitations from electronic closed shells to open shells and from open shells to empty shells, is described. On the basis of experimental data, both own and available in the literature, the configuration (5d+6s) 3 in the lanthanum atom was analyzed. Our investigations indicate that the operator H hfs = 3 X K=1 T (κk)K e · T (K) n describes the partition of the observed hyperfine splittings into the contributions of ranks K=1, 2 and 3 within the experimental accuracy, while the operator T (κk)1 e · T (1) n = µ 0 µ B 2π N X i=1 » b l i ˙ r −3 1 − √ 10 " b s i b C 2 i " (1) ˙ r −3 2 + b s i ˙ r −3 0 – · T (1) n does not fully account for the partition of the interactions of rank K=1 into contributionsκk = 01, 12 and 10.