Controlling the eccentricity of polar lunar orbits with low-thrust propulsion.
Winter, O.C., Mourão, D.C., Melo, C.F., Macau, E.N., Ferreira, J.L., Carvalho, J.P.S. (2009)
Mathematical Problems in Engineering
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Displaying similar documents to “Spin-stabilized spacecrafts: analytical attitude propagation using magnetic torques.”
Controlling the eccentricity of polar lunar orbits with low-thrust propulsion.
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Merkowitz, Stephen M. (2010)
Living Reviews in Relativity [electronic only]
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Celestino, Claudia C., Sousa, Cristina T., Yamaguti, Wilson, Kuga, Helio Koiti (2009)
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Orbital dynamics of a simple solar photon thruster.
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Mathematical Problems in Engineering
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Miss analysis in Lambert interceptions with application to a new guidance law.
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Mathematical Problems in Engineering
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Living Reviews in Relativity [electronic only]
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The Radiation Pressure and the Motion of the Artificial Satellites
Ladislav Sehnal (1980)
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Bisnovatyi-Kogan, G. S. (2001)
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Gravitational waveforms from spinning objects
Theocharis Apostolatos (1997)
Banach Center Publications
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According to general relativity, a binary consisting of spinning bodies will precess due to spin-orbit and spin-spin coupling. The corresponding modulation of its gravitational waves might be a serious problem for detecting such waves with simple post-Newtonian templates. A new family of templates that takes into account the complications arising from the orbital precession is proposed and its application and performance are discussed.
Numerical simulations in astrophysics: Supernovae explosions, magnetorotational model and neutrino emission.
Bisnovatyi-Kogan, G.S. (1999)
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GPS satellites orbits: resonance.
Damasceno Ferreira, Luiz Danilo, Vilhena de Moraes, Rodolpho (2009)
Mathematical Problems in Engineering
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