How Is Torque Calculated for a Bucket on a Cylinder?

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The discussion focuses on calculating the torque produced by a bucket filled with water attached to a rope around a cylinder. Given the mass of the bucket and water is 23 kg, the force is calculated as 225.4 N using F=ma. The torque is determined by multiplying this force by the cylinder's radius of 0.050 m, resulting in a torque of 11.27 Nm. The scenario assumes the cylinder is horizontally secured, maintaining rotational equilibrium. The final torque value is confirmed as 11.27 Nm.
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[SOLVED] torque question

Homework Statement


A bucket filled with water has a mass of 23 kg and is attached to a rope wound around a cylinder with a radius of 0.050 m at the top of a well. What torque does the weight of the water and bucket produce on the cylinder?


Homework Equations


F=ma
g=9.8 m/s
Torque= Force*radius

The Attempt at a Solution


just checking if this is the way to go...
F= 225.4 N
so torque= 11.27?

i just plugged in the numbers but I'm not entirely sure of what's going on in this scenario.
 
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The force of the bucket and water is acting on the cylinder. I'm imagining that the cylinder is placed horizontally and its ends secured to the well.

The torque is defined as the vector product of the force and the distance from pivot that forces an object to rotate. Because of normal forces acting on the cylinder where it is secured, the cylinder is at rotational equilibirum and does not topple over.
 
BunsenBurner1 said:
i just plugged in the numbers but I'm not entirely sure of what's going on in this scenario.

The torque of a force about a point is the product of the perpendicular distance from that point on the line of action of the force and the force. In this case the weight is acting tangentially on the cylinder, via the rope, and the torque of that force about the axis of the cylinder is the weight X radius of cylinder.

You should write the torque as 11.27 Nm.
 
oh i get it now. thanks!
 

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