3.11 Distribution of Activity of YAG 40 Tewa Particles with Size and Type -------
64
3.12 Physical, Chemical, and Radiological Properties of Slurry Particles -------
65
3.15 Fissions and Fraction of Device (Mo*’) Per Unit Area------------------
66
3.13 Compounds Identified in Slurry- Particle Insoluble Solids ---------------3.14 Radiochemical Properties of Slurry Particles, YAG 40, Shot Flathead- -----3.16 Surface Density of Fallout Components in Terms of Original Composition- - - - 3.17 Radiochemical Fission- Product R-Values- ------------------------3.18 Radiochemical Actinide Product/Fission Ratios of Fallout and
Standard Cloud Samples- - --------+-------------------------
3.19 Radiochemical Product/Fission Ratios of Cloud Samples and
Selected Fallout Samples ----------------------+----+--------
3.20 Estimated Product/Fission Ratios by Gamma Spectrometry - - -----------3.21 Theoretical Corrections to Reference Fission- Product Composition,
Shot Zuni - - -- -- ---- -- -- --- --- 2 ee ee ee ee er ee eee ee
3.22 Computed Ionization Rate 3 Feet Above a Uniformly Contaminated Plane ----4.1 Activity Per Unit Area for Skiff Stations, Shot Cherokee - - --------------4.2 Evaluation of Measurement and Data Reliability- ---------------------4.3 Comparison of Predicted and Observed Times of Arrival and Maximum
Particle-Size Variation with Time- --------------------------4.4 Relative Bias of Standard-Platform Collections - -- -------------------4.5 Comparison of How Island Collections - ----------------------------
65
65
67
67
68
68
69
69
70
124
124
126
127
128
4.6 Surface Density of Activity Deposited on the Ocean- - ----- -------------- 128
4.7 Dip-Counter Conversion Factors- - ------------+-------2------- eer ce 129
4.8 Fraction of Device per Square Foot ------------------------------- 130
4.9 Gamma Dosage by ESL Film Dosimeter and Integrated TIR Measurements- - - - - 131
4.10 Percent of Film Dosimeter Reading Recorded by TIR ------------------ 132
4.11 Comparison of Theoretical Doghouse Activity of Standard-Cloud Samples
by GammaSpectrometry and Radiochemistry -- ------------------ 132
4.12 Comparison of Activities Per Unit Area Collected by the High Volume
4.13
B.1
B.2
B.3
B.4
Filter and Other Sampling Instruments- -- --~-------------------Normalized Ionization Rate (SC), Contamination Index, and Yield Ratio - ---- Observed Ionization Rate, TIR--------------------------+-------Incremental Collector Data --------------+------ 22 - 2-2-0 -------Measured Rate of Particle Deposition, Shots Zuni and Tewa - ------------Calculated Rate of Mass Deposition, Shots Zuni and Tewa- - --------------
B.5 Measured Rate of Particle Deposition, Supplementary Data,
133
134
170
176
198
200
Shots Zuni and Tewa- ------------------------------------ 202
B.6 Calculated Rate of Mass Deposition, Supplementary Data,
Shots Zuni and Tewa- -- -- -------------------------------- 204
B.7 Counting and Radiochemical Results for Individual Particles,
Shots Zuni and Tewa- -- -- ----------------+---------------- 208
B.8 Weight, Activity, and Fission Values for Sized Fractions from
Whim Sample YFNB 29 ZU- -------------------------------- 209
B.9 Frequencies and Activity Characteristics of Particle Size and
Particle Type Groups, Shots Zuni and Tewa - -- ------------------ 210
B.10 Survey of Shot Tewa Reagent Films for Slurry Particle Traces ----------- 213
B.11 Total Activity and Mass of Slurry Fallout - ------------------------- 214
B.12 Gamma Activity and Fission Content of OCC and AOC, Collectors
by Mo” Analysis ----------+---------------------------- 215
B.13 Observed Doghouse Gamma Activity- Fission Content Relationship --------- 217
B.14 Dip-Counter Activity and Fission Content of AOC, Collectors- ------------ 218
B.15
Dip Probe and Doghouse-Counter Correlation with Fission Content --------- 220
13