Short Question about Torque on a Ladder Hinge

In summary, the problem involves finding the torque about the hinge of a ladder, which is propped open at an angle α, due to the mass of the ladder itself. The equation used is τ = r x F, and the question is about determining the perpendicular distance r. The suggested solution is to use Lsinα/2 as the value for r.
  • #1
EzequielSeattle
25
0

Homework Statement


So this is a small part of a much larger problem that I'm working on that I don't want to post here. Basically, I want to find the contribution to the torque about the hinge of a ladder BY the mass of the ladder itself. A ladder is propped open at an angle α. What is the torque about the hinge of the top of the ladder of length L by the ladder itself?

Homework Equations


τ = r x F

The Attempt at a Solution


Will the torque from one side of the ladder I'm ignoring the other side of the ladder for now). be M_ladder / 2 * g * L/2 sinα ? I'm basically wondering what to put for r, the perpindicular distance from the force applied to the point of torque. Should it just be the center of that side of the ladder? In that case, should it be Lsinα /2?
 
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  • #2
Are alpha the angle one leg encloses with the vertical, and M the total mass of the ladder? In that case, the expression for the torque due to the weight is correct.
 

Related to Short Question about Torque on a Ladder Hinge

1. What is torque?

Torque is a measure of the force that causes an object to rotate around an axis. It is calculated by multiplying the force applied to an object by the distance from the axis to the point where the force is being applied.

2. How does torque affect a ladder hinge?

Torque can affect a ladder hinge in several ways. First, it is responsible for the rotation of the ladder around the hinge. Additionally, if there is too much torque applied to the hinge, it can cause the hinge to break or become loose.

3. How can I calculate torque on a ladder hinge?

To calculate torque on a ladder hinge, you will need to know the force being applied to the ladder and the distance from the hinge to where the force is being applied. You can then use the formula T = F x d, where T is torque, F is force, and d is distance.

4. What factors can affect the torque on a ladder hinge?

The torque on a ladder hinge can be affected by several factors, including the weight of the ladder, the force applied to the ladder, the angle at which the force is applied, and the distance from the hinge to where the force is being applied.

5. How can I ensure the torque on my ladder hinge is within a safe range?

To ensure the torque on your ladder hinge is within a safe range, it is important to follow the manufacturer's guidelines for weight limits and proper use of the ladder. You should also regularly inspect the hinge for any signs of wear or damage and replace it if necessary.

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