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. k/2 m k/2 Figure P2.6 ミ
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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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.
Transcribed Image Text: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
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