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