How Do You Calculate Torque Around Point D in a Lever Setup?

AI Thread Summary
To calculate torque around point D in a lever setup, the force at point A generates torque at the fulcrum using the formula F*(alpha/2)*sin(theta). The force in member BC acts as a reaction force from the applied force at A. This reaction force is crucial for determining the torque at point D, as it influences the force at the top of member CD. The setup specifies that member AB is fixed at the fulcrum, allowing for a straightforward analysis of the forces involved. Understanding these relationships is essential for accurately calculating torque in this scenario.
BatsDude
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Hi guys,

It's been a while since I've done much resolving forces stuff, and I'm struggling to make sure what I'm doing is right. I have a setup like below, and I want to find the torque around point D due to the force acting at point A.

I've had a couple attempts but I feel like I'm just guessing and I'm not sure if I'm correct.
I know the force acting at A produces a torque at the fulcrum of F*(alpha/2)*sin(theta) but is this the force that's also seen in the BC member? From what I understand, if I can find the force acting in the BC member, it should be easy to find the torque around point D.

Any help would be good! Thanks
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This is a question about the problem: is AB fixed on the fulcrum (just pivot), or can it also slide up and down in relation to the fulcrum? It has been a little while for me, as well.
 
Hi,

It's fixed on the pivot. Apologies for the lack of detail!
 
For anyone playing along, I've got a solution.
The force in BC is the reaction force from F in a simple lever setup.
Then this is the force acting at the top of member CD which creates the torque.
 

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