129 DIP-COUNTER CONVERSION F ACTORS Source x 10°" Shot Zuni 1.37 4.80 11.76 2.33 2.16 1.77 2.61 2.46 0.945 0.774 1.137 1.006 (C-21) (T-1B, 8,549) (S-1B, 8,544) (B-4) * x 10! Shot Flathead 3.36 2.51 3.73 4.03 3.23 + 0.39 0.726 (MS-5A, 8,052) 1.09 (MS-5B, 8,053) 1.285 (C21) 0.960 (T-3B, 8,585) 1.430 (S-3B, 8,581) 1.248 (B-4) * x 108 Shot Navajo 2.45 1.55 3.66 2.46 2,90 + 0.51 1,02 (C-21) 0.645 (T-1B, 8,350) 1.525 (S-1B, 8,326) 0.817 (B-4) * 1.709 (S-2B, 8,289) x 108 Shot Tewa Sample B.15. Table B.13 and doghouse /dip average ratio in Table * No OCC aliquot counted in dip counter; computed from } Tank unacidified and unstirred when sample taken. decay factors 2.59, 2.29, 2.61, and 2.40 for Shots Zuni, { Values in A corrected to 200 hours by average photonshown in decay-curve shapes are practically identical to those Flathead, Navajo, and Tewa, respectively, These Figure B.14 over this time period. occ Decay tank Ocean surface Method I Method II Fissions/(dip counts/min at 200 hrs) } YAG 39 B. Ocean surface Ocean surface McGinty _— _ 1.02 (B-6) 0.906 (S-1B, 8,254) occ Ocean surface YAG 40 1.853 (T-1B, 8,035) f 0.530 (C-21) * 4.537 (S-1B, 8,030) Decay tank OCC Ocean surface YAG 39 A. Fissions/(dip counts/min at 100 hrs) Station designators andbottle numbers are given in parentheses. a direct dip count and radiochemical analysis for Mo”, Unless otherwise noted, ali factors given are based on TABLE 4.7