ILLUSTRATIONS
1.1
Fallout Monitoring Network, Pacific Hemisphere .
1.2
Fallout Monitoring Network, Atlantic Hemisphere.
2.1
Winds Aloft for Castle Events. .....+s2ee-
2.2
Meteorological Trajectories for Burst No. 1, Bravo
2.3
Meteorological Trajectories for Burst No. 2, Romeo
2.1
Meteorological Trajectories for Burst No. 3, Koon.
Meteorological Trajectories for Burst No. lh, Union .
Meteorological Trajectories for Burst No. 5, Yankee.
2.7
Meteorological Trajectories for Burst No. 6, Nectar.
Total Fallout From Castle Series as of July 1, 195k,
2.5
2.6
3.1
Pacific
3.2
e
oe
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e
e
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ea
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8
10
13
1k
16
17
20
e
Total Failout From Castle Series as of July 1, 195h,
Atiantic
3.3
3.4
3.5
3.6
3.7
3.8
3.9
3.10
3.11
Hemisphere
e
Hemisphere.
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.
21
oe
Total Fallout From Bravo, Pacific Hemisphere . .
ah
Total Fallout From Bravo, Atlantic Hemisphere. .
25
mS
Total Fallout From Romeo. Pacific Hemisphere . .
Total Fallout From Romeo, Atlantic Hemisphere. .
Total Fallout From Nectar. . . «+» cere eeecre vee
27
28
29
30
31
32
3.12
Maximum Activity on Sampling Day at Individual Stations,
Pacific Hemisphere . . 2 + ee es ee ee we we ewe owe
36
3.13
Maximum Activity on Sampling Day at Individual Stations,
Total Fallout From Union, Pacific Hemisphere . .
Total Fallout From Union, Atlantic Hemisphere. .
Total Fallout From Yankee, Pacific Hemisphere. .
Total Fallout From Yankee, Atlantic Hemisphere .
Atlantic
Hemisphere.
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37
A.1 - A.186 Radioactive Fallout in the 2-hour Periods Beginning
February
28
oe
May
31,
195k.
ee.°e#e#e
8
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A.187 = A.188 Average Daily Fallout During Month of June,
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40-225
. 226-227