A horizontal platform P is held by several rigid bars which are connected to a vertical wire. The period of oscillation of the platform is found to be 2.2 s when the platform is empty and 3.8 s when an object A of unknown moment of inertia is placed on the platform with its mass center directly above the center of the plate. Knowing that the wire has a torsional constant K = 20 lb. ft/rad, determine the centroidal moment of inertia of object A in lb-ft-s^2.

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Chapter1: Units, Trigonometry. And Vectors
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A horizontal platform P is held by several rigid bars which are connected to a vertical wire. The period of oscillation of the platform is found to be 2.2 s when the platform is empty and 3.8 s when an object A of unknown moment of inertia is placed on the platform with its mass center directly above the center of the plate. Knowing that the wire has a torsional constant K = 20 lb. ft/rad, determine the centroidal moment of inertia of object A in lb-ft-s^2.
A horizontal platform P is held by
several rigid bars which are connected
to a vertical wire. The period of
ocillation of the platform is found to
be 2.2 s when the platform is empty
and 3.8 s when an object A of unknown
moment of inertia is placed on the
platform with its mass center directly
above the center of the plate. Knowing
that the wire has a torsional constant K
= 20 lb ? ft/rad, determine the
centroidal moment of inertia of object
A in Ib-ft-s^2.
Transcribed Image Text:A horizontal platform P is held by several rigid bars which are connected to a vertical wire. The period of ocillation of the platform is found to be 2.2 s when the platform is empty and 3.8 s when an object A of unknown moment of inertia is placed on the platform with its mass center directly above the center of the plate. Knowing that the wire has a torsional constant K = 20 lb ? ft/rad, determine the centroidal moment of inertia of object A in Ib-ft-s^2.
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