5. A fast spinning gyroscope spinning in space has a force F applied to it perpendicular to is axis of rotation at a distance r from its center of mass for a time t. a. Find an expression for how much has the orientation of the gyroscope changed in this time. b. If the angular momentum of the gyroscope about its axis of rotation is given by L=0.020 kg m' s, the force F = 0.40 N, and r = 5.0 cm, what is the angular displacement of the angular momentum vector if this torque is applied for 10 seconds? -1 %3D %3D %3D page
5. A fast spinning gyroscope spinning in space has a force F applied to it perpendicular to is axis of rotation at a distance r from its center of mass for a time t. a. Find an expression for how much has the orientation of the gyroscope changed in this time. b. If the angular momentum of the gyroscope about its axis of rotation is given by L=0.020 kg m' s, the force F = 0.40 N, and r = 5.0 cm, what is the angular displacement of the angular momentum vector if this torque is applied for 10 seconds? -1 %3D %3D %3D page
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Number 5 got a response saying it was incomplete but that's what I got so what?
Transcribed Image Text:5. A fast spinning gyroscope spinning in space has a force F applied to it perpendicular to
is axis of rotation at a distance r from its center of mass for a time t.
a. Find an expression for how much has the orientation of the gyroscope changed in
this time.
b. If the angular momentum of the gyroscope about its axis of rotation is given by
L=0.020 kg m' s, the force F = 0.40 N, and r = 5.0 cm, what is the angular
displacement of the angular momentum vector if this torque is applied for
10 seconds?
-1
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