Find the Minimum Mass to Turn a 36 KG Round Table Over

AI Thread Summary
To determine the minimum mass required to tip a 36 kg round table supported by three legs, the torque exerted by the applied mass must equal the torque from the table's weight. The calculation involves using the table's circumference to express distances in terms of the radius. The correct approach shows that when the mass is placed between two legs, the torque from the applied force must balance the torque from the table's weight. The final calculation reveals that a mass of 36 kg is needed to achieve this tipping point. Understanding the relationship between force, distance, and torque is crucial for solving this problem correctly.
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Three legs placed equal distances apart on the edge support a 36-kg round table. What minimum mass, placed in the table's edge, will cause the table to turn over? Hint: Place the mass equally inbetween two legs.

Im studying for my exam and going through problems I got wrong, trying to fix them, here's what I did.

Each leg supports 12 KG, 117.6 N.

FD = Force down, one that's beeing applied.
C = Circumference of the table

Sum of the torque = FD(1/6C) - 117.6(1/3C) - 117.6(1/3C)

Since I don't have direct measurements of the table, the distance I put in terms of circumference, using one of the legs that the force is being put in between as a rotation point. I came out with:

1/6(FD) = 78.4
FD = 470.4 N
Mass = 48 Kg

The answer is 36, any help is appreciated
 
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When the table is just about to tip, the torque exerted by the applied force will equal the torque exerted by the weight of the table. The axis of rotation is the line joining two legs: Find the torques that the forces make about that line. Hint: find the distance the forces are to that line in terms of the radius R.
 
Thanks, I got it to work out
 

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