Problem L7.3. Now that we have a basic understanding of Simulink, we can begin to simulate some pretty interesting behavior. (a) Diagram the system below using an analog circuit- assume zero ICs except r1(0) = 5 m and that the blocks slide freely without friction (Handwritten EOM and analog circuit). (b) Translate the analog circuit into the Simulink environment- Simulate long enough to observe the periodic nature of the response. Use = 1. m (c) See anything interesting? Can you explain what's happening here? You should see a 'beating phenomenon'- what is the period of the beating? Make sure to run the simulation for a long enough time to see the phenomenon. k m X1 0.05 k X2 m
Problem L7.3. Now that we have a basic understanding of Simulink, we can begin to simulate some pretty interesting behavior. (a) Diagram the system below using an analog circuit- assume zero ICs except r1(0) = 5 m and that the blocks slide freely without friction (Handwritten EOM and analog circuit). (b) Translate the analog circuit into the Simulink environment- Simulate long enough to observe the periodic nature of the response. Use = 1. m (c) See anything interesting? Can you explain what's happening here? You should see a 'beating phenomenon'- what is the period of the beating? Make sure to run the simulation for a long enough time to see the phenomenon. k m X1 0.05 k X2 m
Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)
8th Edition
ISBN:9781305387102
Author:Kreith, Frank; Manglik, Raj M.
Publisher:Kreith, Frank; Manglik, Raj M.
Chapter4: Numerical Analysis Of Heat Conduction
Section: Chapter Questions
Problem 4.6P
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Part a and b
![Problem L7.3. Now that we have a basic understanding of Simulink, we can begin to
simulate some pretty interesting behavior.
(a) Diagram the system below using an analog circuit- assume zero ICs except r1(0) = 5 m
and that the blocks slide freely without friction (Handwritten EOM and analog circuit).
(b) Translate the analog circuit into the Simulink environment- Simulate long enough to
observe the periodic nature of the response. Use = 1.
m
(c) See anything interesting? Can you explain what's happening here? You should see
a 'beating phenomenon'- what is the period of the beating? Make sure to run the
simulation for a long enough time to see the phenomenon.
fü
m
X1
0.05 k
FM
m
X2](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F6e11f595-a40a-4bf3-b7d2-0a0cab1f1556%2Fe3ded2ba-2c8a-458e-8303-ebd6efdcbbed%2F5bdfxxpj_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Problem L7.3. Now that we have a basic understanding of Simulink, we can begin to
simulate some pretty interesting behavior.
(a) Diagram the system below using an analog circuit- assume zero ICs except r1(0) = 5 m
and that the blocks slide freely without friction (Handwritten EOM and analog circuit).
(b) Translate the analog circuit into the Simulink environment- Simulate long enough to
observe the periodic nature of the response. Use = 1.
m
(c) See anything interesting? Can you explain what's happening here? You should see
a 'beating phenomenon'- what is the period of the beating? Make sure to run the
simulation for a long enough time to see the phenomenon.
fü
m
X1
0.05 k
FM
m
X2
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