2. A0.01-kg block, attached to a spring, is pushed until the spring is compressed a distance of 6 cm from the equilibrium position. The block is released from rest and slides along a path that is without friction from point A to point B as shown in the figure below. After reaching point B, the block travels on a rough ramp of angle 30 from the ground and travels 0.5m (point C). Assuming a spring constant of S3.5 N/m and a coefficient of kinetic friction of on the ramp is 0.25. What is the velocity of the block at point C (v,)? a. As the block continues beyond point C, what is the maximum height (y), if it follows a projectile motion (no air resistance)? b. What is the magnitude of the velocity of the block just before it hits the ground ( Vp)? C. y = ? t- 05 m -535 Nm m-001kg 30.0 6.0 cm 1 Add file
2. A0.01-kg block, attached to a spring, is pushed until the spring is compressed a distance of 6 cm from the equilibrium position. The block is released from rest and slides along a path that is without friction from point A to point B as shown in the figure below. After reaching point B, the block travels on a rough ramp of angle 30 from the ground and travels 0.5m (point C). Assuming a spring constant of S3.5 N/m and a coefficient of kinetic friction of on the ramp is 0.25. What is the velocity of the block at point C (v,)? a. As the block continues beyond point C, what is the maximum height (y), if it follows a projectile motion (no air resistance)? b. What is the magnitude of the velocity of the block just before it hits the ground ( Vp)? C. y = ? t- 05 m -535 Nm m-001kg 30.0 6.0 cm 1 Add file
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:2. A0.01-kg block, attached to a spring, is pushed until the spring is compressed a distance of 6 cm from
the equilibrium position. The block is released from rest and slides along a path that is without friction
from point A to point B as shown in the figure below. After reaching polnt B, the block travels on a rough
ramp of angle 30 from the ground and travels 0.5m (point C). Assuming a spring constant of 53.5 N/m
and a coefficient of kinetic friction of on the ramp is 0.25.
a.
What is the velocity of the block at point C (v)?
As the block continues beyond point C, what is the maximum height (y), if it follows a projectile
motion (no air resistance)?
b.
C.
What is the magnitude of the velocity of the block just before it hits the ground ( vo)?
y=?
535No
m=001kg
30.0
6.0 cm
1 Add file
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