4.4 Gamma-energy spectra of slurry particles, Shot Cherokee --------------4.5 Photon decay of slurry particles, Shot Cherokee --~-~-----....---------4.6 Predicted and observed fallout pattern, Shot Flathead------------------4.7 Predicted and observed fallout pattern, Shot Navajo-------------------4.8 Predicted and observed fallout pattern, Shot Zuni ------.---.---------4.9 Predicted and observed fallout pattern, Shot Tewa--------------------4.10 Close and distant particle collections, Shot Zuni --------------------. 4.11 Cloud model for fallout prediction --------------~--.--..--------4.12 Comparison of incremental-coliector, particle-size frequency distributions, Shots Zuni and Tewa --------------.------------ 138 139 140 141 142 143 144 145 146 4.13 Comparison of incrementai-collector, mass-arrival rates and 4.14 4.15 A.l A.2 A.3 A.4 B.1 B.2 B.3 B.4 B.5 B.6 Comparative particle-size variation with time, YAG 39, Shot Tewa--------- 148 variation with particle size, Shots Zuni and Tewa ----------------- 147 Illustrative gamma-ray spectra- ---------------------.---------+-Collector designations - -------------------------------------Shadowing interference in horizontal plane for TIR -------------------Maximum shadowing interference in vertical plane for TIR- -------------Minimum shadowing interference in vertical plane for TIR --------------Ocean-penetration rates, Shots Flathead, Navajo, and Tewa-------------Gamma decays of solid fallout particles, Shot Zuni -------------------- Gamma spectra of solid fallout particles, Shot Zuni- - ------------------ 264 Gamma spectra of solid fallout particles, Shot Zuni- ------------------- 265 Relation of inscribed to projected particle diameter- ------------------- 266 Computed gamma-ionization rate above a uniformly contaminated smooth infinite plane- -- -- -------------------------------- 267 B.7 Gamma-ionization-decay rate, Site How ------------------------ ~-B.8 Surface-monitoring-device record, YAG 39, Shot Zuni- ----------------B.9 Surface-monitoring-device record, YAG 38, Shot Flathead--------------B.10 Surface-monitoring-device record, YAG 40, Shot Flathead -------------B.11 Surface-monitoring-device record, YAG 39, Shot Navajo ------------<-B.12 Surface-monitoring-device record, YAG 40, Shot Navajo --------------B.13 ‘Surface-monitoring-device record, YAG 40, Shot Tewa ---------------B.14 Normalized dip-counter-decay curves - --------------------------B.15 Gamma spectra of slurry-particle insoluble solids, Shot Flathead --------B.16 Gamma spectra of slurry-particle reaction area, Shot Flathead----------TABLE:s 2.1 2.2 2.3 2.4 3.1 3.2 3.3 3.4 3.5 3.6 3.7 149 165 166 167 168 206 263 268 299 300 301 302 303 304 305 306 307 - Shot Data ------------------------------------------------ 28 Station Instrumentation - - - -- --------------------------------+-+Station Locations in the Atoll Area ------------------------------- 29 30 Times af Arrival, Peak Activity, and Cessation at Major Stations ---------- 61 Penetration Rates Derived from Equivalent-Depth Determinations ---------Depths at Which Penetration Ceased from Equivalent-Depth Determinations---- 62 62 Ship Locations at Times of Peak Activity --------------------------- Times of Arrival at Major and MinorStations in the Atoll Area -----------Maximum Penetration Rates Observed - ---------------------------- Exponent Values for Probe Decay Measurements - - -------------------X-Ray Diffraction Analyses and Specific Activities of Individual Particles, Shot Zuni- -- -- -------------------------+------3.8 Distribution of Particle Densities, Shot Zuni- -- -- -- -----------------3.9 Radiochemical Properties of Altered and Unaltered Particles, Shot Zuni-----3.10 Activity Ratios for Particles from Shots Zuni and Tewa----------------- 12 31 61 62 62 63 63 64 64