Problem 7: A block of mass m 2.5 kg is attached to a spring with spring constant k = 980 N/m. It is initially at rest on an inclined plane that is at an angle of 0 = 25° with respect to the horizontal, and the coefficient of kinetic friction between the block and the plane is u = 0.13. In the initial position, where the spring is compressed by a distance of d = 0.15 m, the mass is at its lowest position and the spring is compressed the maximum amount. Take the initial gravitational energy of the block as zero.

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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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Part (b) If the spring pushes the block up the incline, what distance, L in meters, will the block travel before coming to rest? The spring remains
attached to both the block and the fixed wall throughout its motion.
L =
Transcribed Image Text:Part (b) If the spring pushes the block up the incline, what distance, L in meters, will the block travel before coming to rest? The spring remains attached to both the block and the fixed wall throughout its motion. L =
Problem 7: A block of mass m = 2.5 kg is attached to a spring with spring constant k =
980 N/m. It is initially at rest on an inclined plane that is at an angle of 0 = 25° with respect to the
horizontal, and the coefficient of kinetic friction between the block and the plane is uz = 0.13. In the
initial position, where the spring is compressed by a distance of d = 0.15 m, the mass is at its lowest
position and the spring is compressed the maximum amount. Take the initial gravitational energy of
the block as zero.
M
Transcribed Image Text:Problem 7: A block of mass m = 2.5 kg is attached to a spring with spring constant k = 980 N/m. It is initially at rest on an inclined plane that is at an angle of 0 = 25° with respect to the horizontal, and the coefficient of kinetic friction between the block and the plane is uz = 0.13. In the initial position, where the spring is compressed by a distance of d = 0.15 m, the mass is at its lowest position and the spring is compressed the maximum amount. Take the initial gravitational energy of the block as zero. M
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