Spatial kinematics; general motion of particles; Euler angles; Newton-Euler methods for translation and rotation of rigid bodies; work-energy and impulse momentum principles applied to aerospace systems; Linear theory of free dynamic response of single and multi-degree of freedom systems; frequency response of first and second order systems with instrumentation applications. Credits 3. 3 Lecture Hours.
Spatial kinematics; general motion of particles; Euler angles; Newton-Euler methods for translation and rotation of rigid bodies; work-energy and impulse momentum principles applied to aerospace systems; Linear theory of free dynamic response of single and multi-degree of freedom systems; frequency response of first and second order systems with instrumentation applications. Credits 3. 3 Lecture Hours.
