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-collector, particle-size frequency distributions, Shots Zuni and Tewa --------------------------4.13 Comparison of incremental-collector, mass-arrival rates and variation with particle size, Shots Zuni and Tewa ~ ---------------Comparative particle-size variation with time, YAG 39, Shot Tewa--------4.14 4.15 Iustrative gamma-ray spectra- -----------+------------------+-A.l Collector designations - ---------------~----+----+-------+--+-------A.2 Shadowing interference in horizontal plane for TIR -------------------A.3 Maximum shadowing interference in vertical plane for TIR- -- -----------A.4 Minimum shadowing interference in vertical plane for TIR - -- -----------B.1 Ocean-penetration rates, Shots Flathead, Navajo, and Tewa----~----------B.2 Gamma decays of solid fallout particles, Shot Zuni ~--------~---------B.3 Gamma spectra of solid fallout particles, Shot Zuni- - -----------------B.4 Gamma spectra of solid fallout particles, Shot Zuni- ------------------B.5 Relation of inscribed to projected particle diameter- ~------------------B.6 Computed gamma-ionization rate above a uniformly contaminated smooth infinite plane~ -- ------~----~----------++------+---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 39, 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 3.7 138 139 140 141 142 143 144 145 146 147 148 149 165 166 167 168 206 263 264 265 266 267 268 299 300 301 302 303 304 305 306 307 - Shot Data ------------------------------------------------ 28 Station Locations in the Atoll Area ---------------------------+---Ship Locations at Times of Peak Activity - ---~----------------------- 30 31 Times of Arrival at Major and MinorStations in the Atoll Area -~---------- 61 Station Instrumentation - - - -- -----------~--------+-----+-------+--- Times of Arrival, Peak Activity, and Cessation at Major Stations ---------- 29 61 Penetration Rates Derived from Equivalent-Depth Determinations ---------Depths at Which Penetration Ceased from Equivalent-Depth Determinations---- 62 62 Exponent Values for Probe Decay Measurements- - - ------------------- 62 Maximum Penetration Rates Observed ---------------------------- 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- - - -- -- ---------- 62 63 63 64 64