ETHNIC FACTORS, 226 EUROPE, 3, 276 EVACUATING (TRANSPORTATION), 8 EVALUATION, 30, 41, 198, 206, 240, 271 EVAPORATION, 92, 1<strong>39</strong> EVOKED RESPONSE (PSYCHOPHY- SIOLOGY), 246 EXCLUSION, 259 EXHAUST EMISSION, 174, 199 EXHAUST GASES, 174 EXOBIOLOGY, 302 EXPERIMENT DESIGN, 37, 38, <strong>39</strong> EXPERIMENTATION, <strong>39</strong>, 42, 92, 96, 107 EXPLOSIONS, 34, 37, <strong>39</strong>, 40 EXPLOSIVE DEVICES, 37 EXPLOSIVES, 33, 34, 38, <strong>39</strong>, 41, 42 EXPOSURE, 238, 241 EXTINCTION, 23, 24 EXTRATERRESTRIAL LIFE, 297, 298, 311 EXTRATERRESTRIAL RESOURCES, 300, 310 EXTRAVEHICULAR ACTIVITY, 14 EXTREME ULTRAVIOLET EXPLORER SATELLITE, 278 EXTREME ULTRAVIOLET RADI- ATION, 278 F F 2 REGION, 48 F-111 AIRCRAFT, 9 FABRICATION, 31, 50, 195 FACTORIAL DESIGN, 189 FAILURE, 8 FAILURE ANALYSIS, 33 FARM CROPS, 184 FATIGUE (BIOLOGY), 213 FATIGUE (MATERIALS), 9 FEEDFORWARD CONTROL, 11 FEMALES, 233, 238 FERMIONS, 270 FERROELECTRIC MATERIALS, 72 FERROELECTRICITY, 72 FETUSES, 2<strong>39</strong> FIBERS, 20 FIELD OF VIEW, 160 FIELD TESTS, 181 FIELD THEORY (PHYSICS), 85 FIGHTER AIRCRAFT, 8, 9 FILLETS, 45 FILM CONDENSATION, 68, 125 FILM THICKNESS, 75, 89, 109 FILTRATION, 98, 198 FINANCIAL MANAGEMENT, 272 FINITE ELEMENT METHOD, 31, 258 FIRES, 182, 186 FIRING (IGNITING), 36, <strong>39</strong> FLAME PROPAGATION, 26, 41 FLAME STABILITY, 22, 23 FLAMES, 152 FLAMMABLE GASES, 27 FLIGHT CREWS, 49 FLIGHT MANAGEMENT SYSTEMS, 6 FLIGHT PATHS, 6 FLIGHT SAFETY, 3, 4, 5, 7, 276 FLIGHT SIMULATORS, 157, 170 FLIGHT TESTS, 15, 300 FLOAT ZONES, 267 FLOTATION, 32 FLOW CHARACTERISTICS, 110, 204 FLOW DISTRIBUTION, 10, 19, 92, 116, 137, 145 FLOW MEASUREMENT, 127 FLOW STABILITY, 101, 106, 120 FLOW VELOCITY, 123, 126, 137, 141 FLOW VISUALIZATION, 106, 109, 119, 120 FLUID BOUNDARIES, 134 FLUID DYNAMICS, 65, 73, 90, 92, 95, 104, 105, 111, 129, 135, 144, 145, 146 FLUID FILMS, 109, 124 FLUID FLOW, 34, 64, 68, 74, 79, 85, 116, 124, 142 FLUID MECHANICS, 54, 111, 248 FLUID-SOLID INTERACTIONS, 79, 98 FLUIDICS, 79 FLUIDIZED BED PROCESSORS, 120 FLUIDS, 86 FLUTTER, 11 FLUTTER ANALYSIS, 11 FLUX DENSITY, 166, 171, 174, 175, 178, 179, 180, 187, 188, 191 FOAMS, 90, 92, 96 FORECASTING, 162, 204 FOREST FIRES, 157 FORESTS, 160, 163, 165, 166, 181, 184, 185, 192 FOURIER TRANSFORMATION, 257 FRACTURING, 220 FREE ENERGY, 262 FREEZING, 125 FREQUENCIES, 102, 106, 134 FREQUENCY DISTRIBUTION, 50 FUEL COMBUSTION, 22 FUEL INJECTION, 152 FUEL OILS, 43 FUEL SPRAYS, 152 FUEL SYSTEMS, 194, 266 FUNCTIONALS, 269 FURNACES, 43, 267 G GALACTIC CLUSTERS, 266 GALERKIN METHOD, 258 GALLIUM, 20 GALLIUM SELENIDES, 195 GAMMA RAY ASTRONOMY, 313 GAMMA RAY BURSTS, 313 GAMMA RAY SPECTROMETERS, 150 GAS ANALYSIS, 149, 182, 289 GAS CHROMATOGRAPHY, 180, 199, 289 GAS COMPOSITION, 176, 179, 183, 190 GAS DENSITY, 110 GAS DETECTORS, 149, 180 GAS EVOLUTION, 130 GAS EXCHANGE, 175, 177, 178, 180, 182, 187, 280 GAS FLOW, 76, 82, 120, 132, 134, 136 GAS INJECTION, 76, 105 GAS JETS, 101, 105 GAS MIXTURES, 27 GAS SPECTROSCOPY, 186 GAS TRANSPORT, 90 GAS TURBINE ENGINES, 194 GAS VISCOSITY, 110 GAS-LIQUID INTERACTIONS, 76, 105 GAS-SOLID INTERACTIONS, 82 GASEOUS DIFFUSION, 104 GATES (CIRCUITS), 54 GAUGE INVARIANCE, 261 GELATION, 98 GELS, 97 GEMINID METEOROIDS, 312 GENE EXPRESSION, 234 GENERAL OVERVIEWS, 20 GENES, 221, 229, 234 GENETIC ALGORITHMS, 55, 257 GENETIC CODE, 234 GENETICS, 215, 216, 221, 230, 234, 235, 236 GEOCHEMISTRY, 287, 300 GEOGRAPHIC DISTRIBUTION, 191 GEOLOGICAL SURVEYS, 166, 210 GLASS, 30 GLUTAMATES, 220 GOVERNMENTS, 272 GRADIENTS, 131 GRAIN BOUNDARIES, 100 GRANULAR MATERIALS, 79, 82, 83, 117, 118, 121 ST–5
GRAVITATION, 54, 84, 88, 110, 111, 133 GRAVITATIONAL EFFECTS, 65, 66, 67, 68, 69, 79, 101, 102, 111, 115, 116, 120, 121, 123, 131, 133, 137 GRAVITATIONAL FIELDS, 202, 293 GRAVITY WAVES, 86 GROUND PENETRATING RADAR, 293 GROUND STATIONS, 155, 194 GROUND WATER, 45, 199, 304 GROWTH, 212, 224, 226 GUN LAUNCHERS, 17 GUN PROPELLANTS, 33 GUNFIRE, 262 GUNS (ORDNANCE), 262 ST–6 H HABITABILITY, 296 HANDLING EQUIPMENT, 281 HARDENING (MATERIALS), 143 HARTREE APPROXIMATION, 260 HATCHES, 13, 16 HAZARDOUS MATERIALS, 199 HAZARDS, 38 HEALTH, 224, 240, 241, 242, 244 HEARING, 49 HEART DISEASES, 236 HEAT EXCHANGERS, 68 HEAT FLUX, 67, 68, 77, 127 HEAT SOURCES, 26 HEAT TRANSFER, 26, 36, 65, 67, 69, 73, 77, 78, 125, 129, 134, 267 HEAT TREATMENT, 30 HELICAL ANTENNAS, 52 HELICAL FLOW, 56 HELIUM, 234 HELMET MOUNTED DISPLAYS, 247 HELMETS, 49 HEMATOPOIETIC SYSTEM, 223 HEPATITIS, 238 HERBICIDES, 164, 165, 190 HERMETIC SEALS, 150 HETEROGENEITY, 231 HIGH DEFINITION TELEVISION, 171 HIGH LEVEL LANGUAGES, 251 HIGH RESOLUTION, 259 HIGH REYNOLDS NUMBER, 135 HIGH STRENGTH STEELS, 28 HISTOGRAMS, 227 HISTOLOGY, 218, 220 HISTORIES, 202 HMX, 34, 35, 36, 37, 40, 41, 42 HOLE BURNING, 150 HOMOGENEOUS TURBULENCE, 136 HONEYCOMB STRUCTURES, 9 HORMONE METABOLISMS, 231 HORMONES, 213, 215, 229, 231, 233, 237 HORSESHOE VORTICES, 120 HOT SURFACES, 78 HOT-WIRE ANEMOMETERS, 135 HUMAN BODY, 213 HUMAN FACTORS ENGINEERING, 6, 245, 247, 248, 273 HUMAN IMMUNODEFICIENCY VIRUS, 236, 238, 2<strong>39</strong> HUMAN PERFORMANCE, 3, 6, 12, 245, 248, 272 HUMIDITY, 165, 192 HYBRID COMPOSITES, 153 HYDROCARBONS, 174, 176, 177, 183, 184 HYDRODYNAMICS, 93, 117 HYDROGEN, 32, 234 HYDROLOGY, 181, 192, 210 HYDROLOGY MODELS, 200 HYPERSONIC SPEED, 64 HYSTERESIS, 123 I ICE, 7, 303 ICE FORMATION, 7 IGNITION, 23, 24, <strong>39</strong>, 40 IGNITION SYSTEMS, 41 IMAGE ANALYSIS, 163, 228, 312 IMAGE PROCESSING, 49, 227, 251, 265 IMAGERY, 156, 157, 159, 160, 167, 169, 170, 182 IMAGES, 156, 251 IMAGING SPECTROMETERS, 148, 149, 157, 170 IMAGING TECHNIQUES, 83, 89, 167, 168, 218, 223, 230, 231, 232 IMMUNE SYSTEMS, 219 IMMUNITY, 225, 240 IMMUNOLOGY, 215, 225 IMPACT, 115 IMPACT DAMAGE, 312 IMPACT TESTS, 40, 41 IMPACT VELOCITY, 115 IN SITU MEASUREMENT, 148, 207, 286, 290, 295, 297, 308, 311 INCOMPRESSIBLE FLOW, 58 INCOMPRESSIBLE FLUIDS, 109 INDEPENDENT VARIABLES, 2 INDIUM SELENIDES, 195 INDONESIA, 48, 203, 278 INDUSTRIES, 194 INERTIA, 93, 111, 138 INERTIAL CONFINEMENT FUSION, 109 INERTIAL NAVIGATION, 188 INFECTIOUS DISEASES, 219 INFLATABLE STRUCTURES, 309 INFORMATION DISSEMINATION, 194, 273, 274 INFORMATION FLOW, 253, 272 INFORMATION MANAGEMENT, 253, 273, 274 INFORMATION RETRIEVAL, 272 INFORMATION SYSTEMS, 157, 158, 168, 172, 178, 253, 272, 274, 275 INFORMATION THEORY, 253 INFORMATION TRANSFER, 253, 272, 274 INFRARED ASTRONOMY, 280 INFRARED IMAGERY, 77, 265, 295 INFRARED INSTRUMENTS, 198 INFRARED RADIATION, 205 INFRARED SCANNERS, 167, 169 INFRARED SIGNATURES, 311 INFRARED SPECTROMETERS, 149 INFRARED SPECTROSCOPY, 310, 311 INFRARED WINDOWS, 205 INHIBITORS, 218 INJECTION, 153, 265 INJECTORS, 152 INJURIES, 5, 237 INSERTS, 151 INSPECTION, 33 INSTALLING, 48 INSTRUMENT PACKAGES, 146, 147, 282, 283, 285, 289, 291, 296, 302, 307 INTEGRATED CIRCUITS, 52, 253 INTERFACIAL TENSION, 88, 107, 113, 122 INTERFEROMETERS, 97 INTERFEROMETRY, 74 INTERMETALLICS, 31 INTERMOLECULAR FORCES, 263 INTERNATIONAL SPACE STATION, 13, 14, 15, 16, 144, 145, 267 INTERNETS, 47, 250, 251, 254 INTERPLANETARY COMMUNICA- TION, 48 INTERPLANETARY DUST, 312 INTERSTITIALS, 117 INTRACRANIAL PRESSURE, 244 INVENTORIES, 183, 184, 185, 199 INVESTIGATION, 271 INVISCID FLOW, 86, 88 ION MOTION, 76 IONIC MOBILITY, 76 IONIZED GASES, 1<strong>39</strong>
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Scientific and Technical Aerospace
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Introduction Scientific and Technic
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Subject Divisions Table of Contents
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Subject Categories of the Division
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Subject Categories of the Division
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Subject Categories of the Division
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73 Nuclear Physics 263 Includes nuc
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Document Availability Information T
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Avail: NASA Public Document Rooms.
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Hardcopy & Microfiche Prices Code N
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ALABAMA AUBURN UNIV. AT MONTGOMERY
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���������� �
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03 AIR TRANSPORTATION AND SAFETY
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work of the JAA had established thi
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20010024868 Federal Aviation Admini
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20010023437 Defence Science and Tec
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The Models for Aeroelastic Validati
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20010025824 Pratt and Whitney Aircr
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20010023064 NASA Langley Research C
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17 SPACE COMMUNICATIONS, SPACECRAFT
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20010026207 NASA, Washington, DC US
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The objective of the proposed resea
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20010022640 Stanford Univ., Center
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ustion, showing that these can have
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20010026184 Oak Ridge National Lab.
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film. Subsequent electroless metal
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20010024029 Houston Univ., Dept. of
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equipment indicate a change in the
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interaction, the main gas products
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Contract(s)/Grant(s): W-7405-eng-48
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for detecting and measuring deviato
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work, additional significant effect
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20010026182 Oak Ridge National Lab.
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20010024162 Army Research Lab., Ade
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matching funds. MIRSL purchased an
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20010023557 North Dakota State Univ
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20010026217 Princeton Univ., NJ USA
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20010024108 Center for Naval Analys
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20010022631 Stanford Univ., Center
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undertaken to isolated it are descr
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20010022648 Stanford Univ., Center
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non-buoyant axisymmetric jet issuin
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point. The other turbulent problem
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20010024042 Houston Univ., Dept. of
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The research carried out in the Hea
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along the heater surface and depart
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cal transducers. Additionally, the
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tial for its successful commercial
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This project represents a combined
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20010024910 Johns Hopkins Univ., De
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e caused by a non-uniform temperatu
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metric shear cell, employed upon th
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20010024919 Alabama Univ., Huntsvil
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Newtonian fluids in the laboratory,
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Boussinesq convection where due to
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20010024930 Creare, Inc., Hanover,
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Illumination of a space-borne objec
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The hydrodynamics near steadily mov
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to be done is the full coupled syst
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liquid crystal host. Since the ulti
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the inorganic synthesis using press
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when the buoyancy is removed, for e
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20010024956 NASA Ames Research Cent
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2.2-second drop tower at NASA Glenn
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we have examined the dynamical beha
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position of the interface. An oscil
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the first time, non-intrusive, high
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’axial curvature pressure’. A t
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moons when disturbed by low velocit
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particle size was studied. In a den
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colliding drops. The viscous resist
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20010024983 Notre Dame Univ., Physi
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20010024986 TDA Research, Inc., Whe
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drop deposition, using Schiaffino a
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and extended to reduced gravity flo
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from an isolated bubble regime to a
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20010025000 Case Western Reserve Un
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our experimental measurements and w
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sured using a hot film probe flush
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the stationary bubble entrains anot
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we have collaborated on 3D experime
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of the most attractive characterist
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apply either steady shear flow perp
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20010025024 NASA, Washington, DC US
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neously the gamma scattered method
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20010023125 Colorado Univ., Lab. fo
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Contract(s)/Grant(s): F19628-95-C-0
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ics Technology Letters; March 2000;
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The BOREAS RSS-1 team collected sur
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ically corrected; however, files of
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with wavelength bands specific to t
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20010022099 NASA Goddard Space Flig
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within the polygon). There are thre
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A03, Hardcopy; A01, Microfiche Cana
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20010022233 NASA Goddard Space Flig
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20010022243 NASA Goddard Space Flig
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storms in Africa and smoke plumes f
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Greenland, with the objective of qu
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The BOReal Ecosystem-Atmosphere Stu
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The BOREAS TGB-8 team collected dat
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20010022587 NASA Goddard Space Flig
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Report No.(s): NASA/TM-2000-209891/
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20010022799 NASA Goddard Space Flig
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The BOREAS TF-10 team collected tow
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20010022989 NASA Goddard Space Flig
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20010023257 NASA Goddard Space Flig
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20010023281 NASA Goddard Space Flig
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cally Active Radiation (FPAR) absor
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tributing to the overall understand
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cal ’tour de force’ allows EPV
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20010023558 Texas Univ., Center for
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the atmospheric concentrations of m
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20010023278 Lembaga Penerbangan dan
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Atmospheric radiation in the infrar
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20010022976 Desert Research Inst.,
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The primary purpose of AASERT Grant
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with only small ice-covered areas r
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Task 2 - abstraction of Medical rec
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non-steroidal activators of the rec
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20010023796 Massachusetts Univ. Med
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20010024166 Chicago Univ., Chicago,
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20010025069 Cleveland Clinic Founda
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Prior to 1994, measurement of tumor
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20010025730 Illinois Univ., Broad o
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the processing for enhancement of s
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strides in detection, diagnosis, an
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20010025763 California Univ., Lawre
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The ability to detect carcinoma cel
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ations found in clinical and geneti
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20010021850 Michigan Univ., Dept. o
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20010021985 National Inst. of Healt
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20010023264 Department of Health an
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on the BBB in rats, researchers not
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navigation method shows an advantag
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ange, and for some combinations of
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consider two specific issues in app
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planning with the Remote Agent expe
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training courses for the CAD tools.
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In this report, we consider the pro
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of the neural network and hence, th
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65 STATISTICS AND PROBABILITY �
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from the Lagrangian of the system.
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The average U-235 neutron total cro
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20010026201 Sandia National Labs.,
- Page 289 and 290: to be 8.5-10.5 degrees which concur
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- Page 293 and 294: 20010026247 Abdus Salam Internation
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- Page 305 and 306: 20010023043 Jet Propulsion Lab., Ca
- Page 307 and 308: climatic variations. This can only
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- Page 315 and 316: is crucial to the successful landin
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- Page 349 and 350: A Abdelguerfi, Mahdi, 252 Abramo, R
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