les а гап (mk = 0.26) as illustrated in the diagram. The 5.0-kg mass is accelerated from rest at the bottom of the 4.0 m long ramp by a falling 20.0-kg mass suspended over a frictionless pulley. Just as the 5.0-kg mass reaches the top of the ramp, it detaches from the rope (neglect the mass of the rope) and becomes nroiected from the

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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1. A pulley device is used to hurl
projectiles from a ramp
(mk = 0.26) as illustrated in the
diagram. The 5.0-kg mass is
accelerated from rest at the
bottom of the 4.0 m long ramp
by a falling 20.0-kg mass
suspended over a frictionless
pulley. Just as the 5.0-kg mass
reaches the top of the ramp, it
detaches from the rope (neglect
the mass of the rope) and
becomes projected from the
ramp.
4.0 m
Hy =0.26
\5.0 kg
30
20.0 kg
6.0m
Transcribed Image Text:1. A pulley device is used to hurl projectiles from a ramp (mk = 0.26) as illustrated in the diagram. The 5.0-kg mass is accelerated from rest at the bottom of the 4.0 m long ramp by a falling 20.0-kg mass suspended over a frictionless pulley. Just as the 5.0-kg mass reaches the top of the ramp, it detaches from the rope (neglect the mass of the rope) and becomes projected from the ramp. 4.0 m Hy =0.26 \5.0 kg 30 20.0 kg 6.0m
a. Determine the acceleration of
the 5.0-kg mass along the
ramp. (Provide free-body
diagrams for both masses.)
b. Determine the tension in the
rope during the acceleration of
the 5.0-kg mass along the
ramp.
c. Determine the speed of
projection of the 5.0-kg mass
from the top of the ramp.
d. Determine the horizontal
range of the 5.0-kg mass from
the base of the ramp.
Draw a FBD diagram of the
event, and neatly explain and
detail each step to solve the
problem.
< >
Transcribed Image Text:a. Determine the acceleration of the 5.0-kg mass along the ramp. (Provide free-body diagrams for both masses.) b. Determine the tension in the rope during the acceleration of the 5.0-kg mass along the ramp. c. Determine the speed of projection of the 5.0-kg mass from the top of the ramp. d. Determine the horizontal range of the 5.0-kg mass from the base of the ramp. Draw a FBD diagram of the event, and neatly explain and detail each step to solve the problem. < >
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