46
Table 1— FALLOUT-FORMATION PARAMETERS
Initial condition variables
Composition of the device
Composition and physical properties of the environmental materials at shot
point
Geometric parameters
Dimensions and location of the visible fireball and cloud as a function of time
after detonation
Dimensions of the apparent crater and crater lip
Spatial distribution of radioactivity in the fireball and cloud volume as a function of time after detonation
Spatial geometryof toroidal circulation of the rising fireball and cloud
Energy balance parameters
Air overpressures and ground-shock energies
Radiant energy emitted as a function of time after detonation
Temperature of fireball gas as a function of time after detonation
Material composition of fireball and influx. mixing, and ejection of gases and
particles as a function of particle size and time after detonation
Energetics (dynamics) of particle circulations in and about the rising fireball
and cloud
Related resultant parameters
Chemical composition of fallout particles
Radiochemical composition of particles as a function of particle diameter, including specific activity of the particles
Radioactivity and mass-distribution functions
Solubility of radioelements as a function of particle size
Shape, structure, and density of fallout particles and internal distributions of
crystalline and glass phases and of the radioelements within the fallout
particles
Table 2—- FALLOUT-DISTRIBUTION PARAMETERS
Initial-condition variables
Spatial distribution of radioactivity and mass of particles at the time of cloud
stabilization and at the times when particles start free-gravity fall
Particle-fall-rate parameters
Density distribution of fallout particles as a function of particle diameter.
shape, and number or mass
Atmospheric conditions (air density, viscosity, temperature, pressure, relative humidity, etc.) as a function of altitude over the fallout area
Particle shape and drag factors
Agglomeration effects (including incorporation of solid particles in raindrops)
Meteorological parameters
Wind speeds and direction as a function of altitude and time over the whole
fallout area
Vertical air motions
Effect of terrain features and diurnal heating and cooling on the air-flow
patterns
Deposition dynamics
Time of arrival of fallout particles at given locations on the ground or in the
air as a function of particle size
Duration of fallout deposition at given locations in the fallout area
(Table 2 continues on page 47)