A mass m = 16 kg rests on a frictionless table and accelerated by a spring with spring constant k = 4490 N/m. The floor is frictionless except for a rough patch. For this rough path, the coefficient of friction is μk = 0.52. The mass leaves the spring at a speed v = 3.4 m/s. The mass is measured to leave the rough spot with a final speed vf = 2 m/s.
A mass m = 16 kg rests on a frictionless table and accelerated by a spring with spring constant k = 4490 N/m. The floor is frictionless except for a rough patch. For this rough path, the coefficient of friction is μk = 0.52. The mass leaves the spring at a speed v = 3.4 m/s. The mass is measured to leave the rough spot with a final speed vf = 2 m/s.
College Physics
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Chapter7: Work, Energy, And Energy Resources
Section: Chapter Questions
Problem 63PE: Integrated Concepts A toy gun uses a spring with a force constant of 300 N/m to propel a 10.0-g...
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A mass m = 16 kg rests on a frictionless table and accelerated by a spring with spring constant k = 4490 N/m. The floor is frictionless except for a rough patch. For this rough path, the coefficient of friction is μk = 0.52. The mass leaves the spring at a speed v = 3.4 m/s.
The mass is measured to leave the rough spot with a final speed vf = 2 m/s.
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can you answer the questions in the picture for me?
Transcribed Image Text:4) What is the length of the rough spot?
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5) In a new scenario, the block only makes it (exactly) half-way through the rough spot. How far was the spring compressed
from its unstretched length?
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+
6) In this new scenario, what would the coefficient of friction of the rough patch need to be changed to in order for the block
to just barely make it through the rough patch?
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