Learning Goal: To apply the principle of angular impulse and momentum to describe a particle's motion The moment of a force about a point O, fixed in an inertial coordinate system, Mo, and the angular momentum about the same point, Ho, are related as follows: Figure 1 of 2 ✓ Correct ▾ Part C Previous Answers While the centrifugal governor's two spheres are rotating with the angular momentum found in Part B, a moment with magnitude M= 0.420f N-m is applied to the central shaft for t= 1.95 s in the direction of rotation. (Figure 2) What is H₂, the angular momentum of the two spheres after the moment has been applied? Express your answer numerically to three significant figures with the appropriate units. View Available Hint(s) H₂ Value Submit Units
Learning Goal: To apply the principle of angular impulse and momentum to describe a particle's motion The moment of a force about a point O, fixed in an inertial coordinate system, Mo, and the angular momentum about the same point, Ho, are related as follows: Figure 1 of 2 ✓ Correct ▾ Part C Previous Answers While the centrifugal governor's two spheres are rotating with the angular momentum found in Part B, a moment with magnitude M= 0.420f N-m is applied to the central shaft for t= 1.95 s in the direction of rotation. (Figure 2) What is H₂, the angular momentum of the two spheres after the moment has been applied? Express your answer numerically to three significant figures with the appropriate units. View Available Hint(s) H₂ Value Submit Units
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Question
h1=1.86x10^-2
v=0
h1=1.86x10^-2 kg.m^2/s
![Angular Impulse and Momentum Principles
Learning Goal:
To apply the principle of angular impulse and momentum
to describe a particle's motion
The moment of a force about a point O, fixed in an
inertial coordinate system, Mo, and the angular
momentum about the same point, Ho, are related as
follows:
Figure
1 of 2
Subna
Correct
Part C
Previous Answers
While the centrifugal governor's two spheres are rotating with the angular momentum found in Part B, a moment with
magnitude M = 0.420t N-m is applied to the central shaft for t=1.95s in the direction of rotation. (Figure 2)
What is H₂, the angular momentum of the two spheres after the moment has been applied?
Express your answer numerically to three significant figures with the appropriate units.
▸ View Available Hint(s)
Submit
HA
H₂ = Value
< Return to Assignment
Units
Provide Feedback
8 of 8
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Transcribed Image Text:Angular Impulse and Momentum Principles
Learning Goal:
To apply the principle of angular impulse and momentum
to describe a particle's motion
The moment of a force about a point O, fixed in an
inertial coordinate system, Mo, and the angular
momentum about the same point, Ho, are related as
follows:
Figure
1 of 2
Subna
Correct
Part C
Previous Answers
While the centrifugal governor's two spheres are rotating with the angular momentum found in Part B, a moment with
magnitude M = 0.420t N-m is applied to the central shaft for t=1.95s in the direction of rotation. (Figure 2)
What is H₂, the angular momentum of the two spheres after the moment has been applied?
Express your answer numerically to three significant figures with the appropriate units.
▸ View Available Hint(s)
Submit
HA
H₂ = Value
< Return to Assignment
Units
Provide Feedback
8 of 8
?
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