PROBLEM N°1 A pendulum of mass M = 3 kg and length L is initially at rest and mass M is located at height h= 4.00 m from the ground. At time t = 0s an instantaneous explosion remove a mass m2 = 0.60 kg with speed perfectly horizontal toward the left. The mass m2 reach the ground at distance x₂ = 9.03 m from the vertical line of the pendulum. The remaining mass mi is hung to the wire and it reaches a maximum angular amplitude of oscillation of 15° and a height h'. Find, immediately after the explosion: a) the speed vz; b) the speed v₁; Find, more over: c) the height h' reached by the mass mi. ³,-9.03 m 15 h-4m
PROBLEM N°1 A pendulum of mass M = 3 kg and length L is initially at rest and mass M is located at height h= 4.00 m from the ground. At time t = 0s an instantaneous explosion remove a mass m2 = 0.60 kg with speed perfectly horizontal toward the left. The mass m2 reach the ground at distance x₂ = 9.03 m from the vertical line of the pendulum. The remaining mass mi is hung to the wire and it reaches a maximum angular amplitude of oscillation of 15° and a height h'. Find, immediately after the explosion: a) the speed vz; b) the speed v₁; Find, more over: c) the height h' reached by the mass mi. ³,-9.03 m 15 h-4m
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter39: Relativity
Section: Chapter Questions
Problem 1PQ
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Please Answer the following question step-wise with detailed explanations.
Thanks in advance? ❤️
![Answer Step-wise with detailed explantions
Please Answer the following question step-wise with detailed explanations.
Thanks in advance
PROBLEM N°1
A pendulum of mass M = 3 kg and length L is initially at
rest and mass M is located at height h = 4.00 m from the
ground. At time t = Os an instantaneous explosion remove
a mass m2 = 0.60 kg with speed perfectly horizontal toward
the left. The mass m2 reach the ground at distance x2 = 9.03 m
from the vertical line of the pendulum. The remaining mass
mi is hung to the wire and it reaches a maximum angular
amplitude of oscillation of 15° and a height h'. Find, immediately
after the explosion:
a) the speed v2;
b) the speed vi;
Find, more over:
c) the height h' reached by the mass mi.
d) the tension of the wire immediately after the explosion
m,
,-9.03 m
27
15
00
h-4m
STRATED
N](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F888eb688-55d4-40e3-ab7a-60841f7abe45%2Fd95da64b-d606-4c2e-b6e0-1463c36567c3%2F3jqlies_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Answer Step-wise with detailed explantions
Please Answer the following question step-wise with detailed explanations.
Thanks in advance
PROBLEM N°1
A pendulum of mass M = 3 kg and length L is initially at
rest and mass M is located at height h = 4.00 m from the
ground. At time t = Os an instantaneous explosion remove
a mass m2 = 0.60 kg with speed perfectly horizontal toward
the left. The mass m2 reach the ground at distance x2 = 9.03 m
from the vertical line of the pendulum. The remaining mass
mi is hung to the wire and it reaches a maximum angular
amplitude of oscillation of 15° and a height h'. Find, immediately
after the explosion:
a) the speed v2;
b) the speed vi;
Find, more over:
c) the height h' reached by the mass mi.
d) the tension of the wire immediately after the explosion
m,
,-9.03 m
27
15
00
h-4m
STRATED
N
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