An aluminum rod is suspended by two wires, as shown in the figure below. The mass of the rod is 25.0 kg. Assume the rod has a uniform density. This means the gravitational force can be accurately modeled acting at the center of the rod. What is the magnitude of the torque due to gravity, about the pivot point, P, shown in the figure? Express your answer in terms of N.m.

An aluminum rod is suspended by two wires, as shown in the figure below. The mass of the rod is 25.0 kg. Assume the rod has a uniform density. This means the gravitational force can be accurately modeled acting at the center of the rod. What is the magnitude of the torque due to gravity, about the pivot point, P, shown in the figure? Express your answer in terms of N.m.

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Question

An aluminum rod is suspended by two wires, as shown in the figure below. The mass
of the rod is 25.0 kg. Assume the rod has a uniform density. This means the
gravitational force can be accurately modeled acting at the center of the rod. What is
the magnitude of the torque due to gravity, about the pivot point, P, shown in the
figure? Express your answer in terms of N-m.
F,
70.0°
30.0°
3.00[m]

An aluminum rod is suspended by two wires, as shown in the figure below. The mass
of the rod is 25.0 kg. Assume the rod has a uniform density. What is
the magnitude of the torque due to the tension in the wire on the left, F1, about the
pivot point, P? Express your answer in terms of N•m.
F,
70.0°
30.0°
P +
3.00[m]

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