Calculating Torque Part 2: Finding d

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To determine the point where the second person lifts the board, the concept of torque equilibrium is applied, where the total clockwise torque equals the total counterclockwise torque. Given the board's length of 3.40 meters and weight of 145 N, the upward force of 60.0 N from one end creates a torque that must be balanced by the weight of the board and the force applied by the second person. The equation for torque involves the distance from the pivot point, which is crucial for finding the exact lifting point. After initial confusion, the original poster successfully solved the problem independently. Understanding torque principles is essential for accurately calculating the lifting point in this scenario.
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[SOLVED] Torque Part 2

Two people are carrying a uniform wooden board that is 3.40 meters long and weighs 145 N.

If one person applies an upward force equal to 60.0 N at one end, at what point does the other person lift?

d = _____ meters from the end where the first person lifts




Total Torque CW = Total Torque CCW



I'm not even sure if that's the correct equation, no less where to start. Can someone get me started on the right track without giving me the answer?

Thanks.
 
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Nevermind, I figured it out.
 
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