Engineering Mechanics, Part 2 |
Contents
CONCURRENT FORCES IN A PLANE | 3 |
PARALLEL FORCES IN A PLANE | 61 |
GENERAL CASE OF FORCES IN A PLANE | 104 |
Copyright | |
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acceleration active forces algebraic sum angular momentum angular velocity applied assume axial force axis of rotation ball block Calculate center of gravity centroid coefficient of friction components conclude concurrent forces consider constant coordinate axes curve cylinder D'Alembert's principle defined Determine direction disk displacement distance equal expression figure force F forces acting free body funicular given forces gravity force hinge horizontal plane inclined plane inertia forces kinetic energy length line of action magnitude moment of inertia moments of inertia Neglecting friction numerical data obtain oscillation parallel forces particle pendulum polygon of forces position prismatic bar PROBLEM SET product of inertia pulley R₁ radius reactions represented resultant force rigid body S₁ S₂ shaft shown in Fig Solution static string supported system of forces tensile force tension tion truss vector vertical plane vibration virtual displacement W₁ weight Q zero