MIN H 2 m 0.5 m, H=0.3 As shown in the picture, a block of mass m = 2.3 kg compresses a spring by x =0.4 m (spring constant k = 362 N/m). The block is let go from rest, then shoots away from the spring and slides down a frictionless incline a vertical drop of 2.0 m. It then slides across a rough horizontal patch o length 0.5 m (coefficient of kinetic friction 0.3), then up a frictionless incline. What is the correct equation to solve for the maximum vertical height H in meters the block reaches?

Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
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Chapter7: Conservation Of Energy
Section: Chapter Questions
Problem 79P: A block of mass 0.500 kg is pushed against a horizontal spring of negligible mass until the spring...
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MWN
H.
2 m
0.5 m,
4=0.3
As shown in the picture, a block of mass m = 2.3 kg compresses a spring by x - 0.4 m (spring
%3D
constant k = 362 N/m). The block is let go from rest, then shoots away from the spring and slides
%3D
down a frictionless incline a vertical drop of 2.0 m. It then slides across a rough horizontal patch of
length 0.5 m (coefficient of kinetic friction 0.3), then up a frictionless incline. What is the correct
equation to solve for the maximum vertical height H in meters the block reaches?
Transcribed Image Text:MWN H. 2 m 0.5 m, 4=0.3 As shown in the picture, a block of mass m = 2.3 kg compresses a spring by x - 0.4 m (spring %3D constant k = 362 N/m). The block is let go from rest, then shoots away from the spring and slides %3D down a frictionless incline a vertical drop of 2.0 m. It then slides across a rough horizontal patch of length 0.5 m (coefficient of kinetic friction 0.3), then up a frictionless incline. What is the correct equation to solve for the maximum vertical height H in meters the block reaches?
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