As shown in the figure, a 1.5 kg box is held at rest against a spring with a force constant k = 795 N/m that is compressed a distance d. Equilibrium position -d y=0! rough patch 6.0 cm When the box is released, it slides across a surface that is frictionless, except for a rough patch that has a coefficient of kinetic friction 4, = 0.40 and is 6.0 cm in length. If the speed of the box is 2.6 m/s after sliding across the rough patch, determine the initial compression d (in cm) of the spring. cm
As shown in the figure, a 1.5 kg box is held at rest against a spring with a force constant k = 795 N/m that is compressed a distance d. Equilibrium position -d y=0! rough patch 6.0 cm When the box is released, it slides across a surface that is frictionless, except for a rough patch that has a coefficient of kinetic friction 4, = 0.40 and is 6.0 cm in length. If the speed of the box is 2.6 m/s after sliding across the rough patch, determine the initial compression d (in cm) of the spring. cm
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Transcribed Image Text:As shown in the figure, a 1.5 kg box is held at rest against a spring with a force constant k = 795 N/m that is compressed a distance d.
Equilibrium
position
v=0!
rough patch
6.0 cm
When the box is released, it slides across a surface that is frictionless, except for a rough patch that has a coefficient of kinetic friction u, = 0.40 and is 6.0 cm in length. If the speed of
the box is 2.6 m/s after sliding across the rough patch, determine the initial compression d (in cm) of the spring.
cm
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