Dynamics starts with fundamentals of Newtonian mechanics. Further topics include kinematics, particle dynamics, motion relative to accelerated reference frames, work and energy, impulse and momentum, systems of particles and rigid body dynamics. Applications to aerospace engineering are discussed, including introductory topics in orbital mechanics, flight dynamics, inertial navigation and attitude dynamics.
16.07 Dynamics, Fall 2004.
Dynamics
2004
Miscellaneous
Electronic Resource
English
normal modes , Newtonian relativity , spring mass systems , angular impulse , cartesian coordinates , potential energy , coupled oscillators , momentum , central force motion , Keppler's laws , forced vibration , orbits , vibration , isolation , equations of motion , 3D rigid body kinematics , spin stabilization , linear impulse , coordinate systems , energy , relative motion , inertia tensor , dynamics , intrinsic coordinates , 2D rigid body kinematics , variable mass systems , wave propagation , rotating axes , central foce motion , Newton's second law , gravitational attraction , 2D rigid body dynamics , accelerometers , pendulums , conservation laws for systems of particles , torque-free motion , conservative forces , mommentum , 3d rigid body dynamics , rocket equation , work , carteian coordinates , translating axes , inertial forces , orbit transfer , Curvilinear motion , gyroscopic motion
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