Engineering Mechanics: Dynamics

acting force amplitude angle of rotation angular momentum angular velocity Assume axis of rotation ball body with respect Calculate center of gravity centroidal coefficient of friction components consider cylinder D'Alembert's principle defined Denoting diagram direction disk displacement displacement-time distance dynamic equal equation of motion equilibrium expression external forces figure find the velocity fixed axis forces acting frequency ft/sec² gravity force horizontal plane impact inertia forces initial velocity instant kinetic energy length magnitude mass maximum moment of inertia moments of inertia moving Neglect friction numerical data obtain oscillation particle pendulum position PROBLEM SET produced product of inertia pulley radius of gyration reaction rectilinear motion represented resultant right circular rigid body rotor shaft shown in Fig simple harmonic motion slender prismatic bar Solution speed spring static tion v₁ vector velocity-time vertical plane W₁ W₂ weight Q wheel zero