6. Using the information in the picture and the Work-Energy Theorem, determine the speed of the box when it reaches the equilibrium position of the spring. Let the spring constant of the spring be k, the coefficient of kinetic friction between the box and the floor be μk, and the mass of the box be M. x=0m Oslope
6. Using the information in the picture and the Work-Energy Theorem, determine the speed of the box when it reaches the equilibrium position of the spring. Let the spring constant of the spring be k, the coefficient of kinetic friction between the box and the floor be μk, and the mass of the box be M. x=0m Oslope
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Transcribed Image Text:6. Using the information in the picture and the Work-Energy
Theorem, determine the speed of the box when it reaches the
equilibrium position of the spring. Let the spring constant of the
spring be k, the coefficient of kinetic friction between the box and
the floor be μk, and the mass of the box be M.
x = 0 m
Ostope
d
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