The packaging for an instrument can be modeled as shown in Fig. P2.6, in which the instrument of mass m is restrained by springs of total stiffness k inside a container; m= 5 kg and k = 8000 N/m. The container is accidentally dropped from a height of 1 m above the ground. Assuming that it does not bounce on contact, determine the maximum deformation of the packaging within the box and the maximum acceleration of the instrument. k/2 m k/2 Figure P2.6 ミ

The packaging for an instrument can be modeled as shown in Fig. P2.6, in which the instrument of mass m is restrained by springs of total stiffness k inside a container; m = 5 kg and k = 8000 N/m. The container is accidentally dropped from a height of 1 m above the ground. Assuming that it does not bounce on contact, determine the maximum deformation of the packaging within the box and the maximum acceleration of the instrument.

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Problem 4 The packaging for an instrument can be modeled as shown in Fig. P2.6, in which the instrument of mass m is restrained by springs of total stiffiness k inside a container; m= 5 kg and k= 8000 N/m. The container is accidentally dropped from a height of 1 m above the ground. Assuming that it does not bounce on contact, determine the maximum deformation of the packaging within the box and the maximum acceleration of the instrument. k/2 m k/2 1 m Figure P2.6