A general method for the computation of Cartesian coordinates and partial derivatives of the two-body problem
An edition of A general method for the computation of Cartesian coordinates and partial derivatives of the two-body problem (1966)
By Goodyear, W. H.
Publish Date
1966
Publisher
National Aeronautics and Space Administration; for sale by the Clearinghouse for Federal Scientific and Technical Information, Springfield, Va.
Language
eng
Pages
97
Description:
subjects: Two-body problem, Computer programs, Carbon, Isotopes, Electron precipitation, Orbiting geophysical observatories, Solar radio bursts, X-ray sources, Galactic, X-ray astronomy, Cosmic background radiation, X-rays, Radio astronomy, Observations, Cosmic rays, Magnetospheric currents, Magnetosphere, Computer simulation, Symmetry (Physics), Space and time, Gamma rays, Geodetic satellites, GEOS (Artificial satellite), Cosmic magnetic fields, Geomagnetism, Magnetotails, Explorer XXXIII (Artificial satellite), Magnetic properties, Explorer XXXV (Artificial satellite), Interplanetary magnetic fields, Magnetic anomolies, Nucleosynthesis, Proton precipitation, Atmosphere, Effect of solar wind on, Solar wind, Wakes (Fluid dynamics), Ovservations, Pioneer (Space probes), Positrons, Astrodynamics, Mathematics, Mass spectrometry, Planets, Atmospheres, Research, Stars, Corona, Rotation, Solar cosmic rays, Auroras, Interplanetary medium, Solar magnetic fields, Solar flares, Relativistic Particles, Catalogs, Data processing, Heat, Natural Convection, Convection (Astrophysics), Gamma ray bursts, Neutron stars, Evolution, Low mass stars, Radiative transfer, Double layers (Astrophysics), Supergiant stars, Kerr effect, Angular momentum, Laser communication systems, Aerospace telemetry, Geomagnetic micropulsations, Magnetohydrodynamic waves, Magnetohydrodynamic instabilities, IMP (Artificial satellite), Measurement, Cosmic ray variations, Double stars, Spectra, Plasmasphere, Jupiter probes, Exploration, Deuterium, Helium, Heavy nuclei, Interstellar matter, Spectral energy distribution, Magnetic storms, Auroral electrons, Atmospheric radiation, Magnetic fields, Gamma ray telescopes, Synchrotron radiation, X-ray bursts, Microwaves, Electron distribution, Energy bands, Exciton theory, Comets, Radio sources (Astronomy), Albedo, Remote sensing, Solar radiation, Artificial satellites, Optical observations, Atmospheric effects, Syncom (Communications satellite), Magnetospheric boundary layer, Models, Galactic cosmic rays, Nucleation, Cosmic grains, Upper air temperature, Atmospheric temperature, Gravitation, Relativity (Physics), Iron Meteorites, Phosphides, Gravitational fields, Mathematical models, Orbits, Particles (Nuclear physics), Radiation, Hubble Space Telescope (Spacecraft), Blackbody radiation, Temperature and radiation, Open clusters, Galaxies, Motion in line of sight, Masses, Meteorites, Meteorite craters, Penetrometer, Lunar soil, Surface, Lunar geology, Photodissociation, Polar wandering, Carbonaceous chondrites (Meteorites), Magnetite, Solar radio emission, Astrophysics, Plasma astrophysics, Radio waves, Scintillation, Tropospheric radio wave propagation, Sunspots