(a) Part (a) refers to the figure below. A block of mass m = 0.1 kg is going down and inclined plane with an initial speed v₁. The inclined plane makes an angle = 30° with the horizontal and the inclined plane has a kinetic friction coefficient k = 0.7. After travelling a distance L = 0.8 m, the block encounters a spring with a spring constant k = 20 N/m. The block comes to rest after compressing the spring an amount x = 0.3 m. What is vi, the initial speed of the block? x=0 oooo 0 Initial x = 0 тот ।+ 0 I L Initial I (b) Part (b) refers to the figure below. The block then goes up the inclined plane again. After the block travels a distance x, the block leaves the spring. The block continues to go up the inclined plane and the block comes to rest after it travels a distance d past the equilibrium position for the spring. What is the distance d? μk L m μk Part a x = 0 Part b mom Ө x = 0 Final 17 00.00 0 Mk Final μk

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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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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(a) Part (a) refers to the figure below. A block of mass m = 0.1 kg is going down and inclined plane with
an initial speed v₁. The inclined plane makes an angle = 30° with the horizontal and the inclined plane
has a kinetic friction coefficient k 0.7. After travelling a distance L = 0.8 m, the block encounters
a spring with a spring constant k 20 N/m. The block comes to rest after compressing the spring an
amount x = 0.3 m. What is vi, the initial speed of the block?
=
x = 0
oooo
0
Initial
x=0
momo
0
x
Initial
μk
1
Vi
m
Mk
Part a
(b) Part (b) refers to the figure below. The block then goes up the inclined plane again. After the block
travels a distance x, the block leaves the spring. The block continues to go up the inclined plane and the
block comes to rest after it travels a distance d past the equilibrium position for the spring. What is the
distance d?
x=0
Part b
t
0
x=0
Final
0000
Ө
μk
Final
Mk
Transcribed Image Text:(a) Part (a) refers to the figure below. A block of mass m = 0.1 kg is going down and inclined plane with an initial speed v₁. The inclined plane makes an angle = 30° with the horizontal and the inclined plane has a kinetic friction coefficient k 0.7. After travelling a distance L = 0.8 m, the block encounters a spring with a spring constant k 20 N/m. The block comes to rest after compressing the spring an amount x = 0.3 m. What is vi, the initial speed of the block? = x = 0 oooo 0 Initial x=0 momo 0 x Initial μk 1 Vi m Mk Part a (b) Part (b) refers to the figure below. The block then goes up the inclined plane again. After the block travels a distance x, the block leaves the spring. The block continues to go up the inclined plane and the block comes to rest after it travels a distance d past the equilibrium position for the spring. What is the distance d? x=0 Part b t 0 x=0 Final 0000 Ө μk Final Mk
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