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... we neglect the deformations and assume that the body has a perfectly definite and unchanging shape and size. Definite shape and definite size. The distance between any two points on a rigid body remain unchanging. A rigid body can be considered as a special collection of particles with mass continuo ...
... we neglect the deformations and assume that the body has a perfectly definite and unchanging shape and size. Definite shape and definite size. The distance between any two points on a rigid body remain unchanging. A rigid body can be considered as a special collection of particles with mass continuo ...
Practice test (Chapters 10
... each connecting rod shown is negligible. Treat the masses as particles. What is the moment of inertia, I, about an axis that is perpendicular to the paper and that goes through a point halfway between the masses M and M as shown? If the object is rotating about this axis with an angular velocity of ...
... each connecting rod shown is negligible. Treat the masses as particles. What is the moment of inertia, I, about an axis that is perpendicular to the paper and that goes through a point halfway between the masses M and M as shown? If the object is rotating about this axis with an angular velocity of ...
Chap06_lecture
... Centripetal acceleration is directed toward the axis of rotation (opposite direction of radial acceleration), and thus the radial acceleration is negative. Centripetal acceleration is the result of a force acting on an element of the body toward the axis of rotation, known as the centripetal force, ...
... Centripetal acceleration is directed toward the axis of rotation (opposite direction of radial acceleration), and thus the radial acceleration is negative. Centripetal acceleration is the result of a force acting on an element of the body toward the axis of rotation, known as the centripetal force, ...