To introduce analytical (Newtonian) dynamics useful in flight dynamic derivations and analyses.
To offer the tools for a rigorous derivation of the translational motion model.
To establish a relationship between translational and rotational dynamics of a flight vehicle.
To present the basic kinetic equations of aerospace flight, covering dynamics in moving frames, variable mass bodies, the N-body gravitational problem in space dynamics, and its specialization to two-body trajectories with analytical and numerical solutions.
Translational Motion of Aerospace Vehicles
Modeling,Simulation in Science(Birkhäuser)
2007-01-01
57 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
Translational Motion , Inertial Frame , Stationary Frame , True Anomaly , Bank Angle Engineering , Automotive Engineering , Mathematical Modeling and Industrial Mathematics , Computational Intelligence , Mathematical and Computational Engineering , Applications of Mathematics , Systems Theory, Control
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