The 100 N box in the figure slides on the surface with a kinetic friction coefficient of μk = 0.3. The velocity of the box when it is 0.6 m away from the plate is v = 4.5 m / s. Since the box hits the 50 N plate and its movement is prevented by the uncompressed spring with k = 6500 N / m, determine the maximum compression given to the spring. Take the collision coefficient between box and plate e = 0.8. (g = 9,81 m / s2)
The 100 N box in the figure slides on the surface with a kinetic friction coefficient of μk = 0.3. The velocity of the box when it is 0.6 m away from the plate is v = 4.5 m / s. Since the box hits the 50 N plate and its movement is prevented by the uncompressed spring with k = 6500 N / m, determine the maximum compression given to the spring. Take the collision coefficient between box and plate e = 0.8. (g = 9,81 m / s2)
Chapter1: The Study Of Motion
Section: Chapter Questions
Problem 1P: A yacht is 20 m long. Express this length in feet.
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The 100 N box in the figure slides on the surface with a kinetic friction coefficient of μk = 0.3. The velocity of the box when it is 0.6 m away from the plate is v = 4.5 m / s. Since the box hits the 50 N plate and its movement is prevented by the uncompressed spring with k = 6500 N / m, determine the maximum compression given to the spring. Take the collision coefficient between box and plate e = 0.8. (g = 9,81 m / s2)
![4.5 m/s
-0.6 m-](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe54d7bea-d7ac-4ac3-b287-42d546a8cafe%2Fa6d8277a-a992-47a2-b540-aa0ef8796baa%2Faz64z23_processed.png&w=3840&q=75)
Transcribed Image Text:4.5 m/s
-0.6 m-
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