You have added two m=40 sensors separated by an angle of 0 = 120° to your M = 250 gram bicycle tire that has a radius of R=0.6 meters, as shown below. a) Where is the center of mass of your tire/sensor system? b) What is the rotational moment of inertia of your tire/sensor system around the axis of rotation (centered on the tire, as represented by the vector ® pointing into the page below)?
You have added two m=40 sensors separated by an angle of 0 = 120° to your M = 250 gram bicycle tire that has a radius of R=0.6 meters, as shown below. a) Where is the center of mass of your tire/sensor system? b) What is the rotational moment of inertia of your tire/sensor system around the axis of rotation (centered on the tire, as represented by the vector ® pointing into the page below)?
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Transcribed Image Text:You have added two m= 40 sensors separated by an angle of 0 = 120° to your M = 250 gram
bicycle tire that has a radius of R=0.6 meters, as shown below.
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a) Where is the center of mass of your tire/sensor system?
b) What is the rotational moment of inertia of your tire/sensor system around the axis of
rotation (centered on the tire, as represented by the vector pointing into the page
below)?
m = 40 g
m= 40 g
R= 0.6 m
M= 250 g
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