*43. ao The drawing shows two identical systems of objects; each consists of the same three small balls connected by massless rods. In both systems the axis is perpendicular to the page, but it is located at a different place, as shown. The same force of magnitude F is applied to the same ball in each system (see the drawing). The masses of the balls are m, = 9.00 kg, m, = 6.00 kg, and m, = 7.00 kg. The magnitude of the force is F = 424 N. (a) For each of the two systems, determine the moment of inertia about the given axis of rotation. (b) Calculate the torque (magnitude and direc- tion) acting on each system. (c) Both systems start from rest, and the direction of the force moves with the system and always points along the 4.00-m rod. What is the angular velocity of each system after 5.00 s? mị 3.00 m 3.00 m m2 m2 Axis 5.00 m | 4.00 m 5.00 m 4.00 m Axis m3 System A System B

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*43. ao The drawing shows two identical systems of objects; each consists
of the same three small balls connected by massless rods. In both systems
the axis is perpendicular to the page, but it is located at a different place,
as shown. The same force of magnitude F is applied to the same ball in
each system (see the drawing). The masses of the balls are m, = 9.00 kg,
m, = 6.00 kg, and m, = 7.00 kg. The magnitude of the force is F = 424 N.
(a) For each of the two systems, determine the moment of inertia about
the given axis of rotation. (b) Calculate the torque (magnitude and direc-
tion) acting on each system. (c) Both systems start from rest, and the
direction of the force moves with the system and always points along
the 4.00-m rod. What is the angular velocity of each system after 5.00 s?
mị
3.00 m
3.00 m
m2
m2
Axis
5.00 m
| 4.00 m
5.00 m
4.00 m
Axis
m3
System A
System B
Transcribed Image Text:*43. ao The drawing shows two identical systems of objects; each consists of the same three small balls connected by massless rods. In both systems the axis is perpendicular to the page, but it is located at a different place, as shown. The same force of magnitude F is applied to the same ball in each system (see the drawing). The masses of the balls are m, = 9.00 kg, m, = 6.00 kg, and m, = 7.00 kg. The magnitude of the force is F = 424 N. (a) For each of the two systems, determine the moment of inertia about the given axis of rotation. (b) Calculate the torque (magnitude and direc- tion) acting on each system. (c) Both systems start from rest, and the direction of the force moves with the system and always points along the 4.00-m rod. What is the angular velocity of each system after 5.00 s? mị 3.00 m 3.00 m m2 m2 Axis 5.00 m | 4.00 m 5.00 m 4.00 m Axis m3 System A System B
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