wo masses (M1=15.0 kg and M2=5.0 kg) are hung from a rod of uniform density (M3=5.0kg and L=4.0 m) such that the system stays in equilibrium (i.e. alpha=0 and acceleration=0) as shown in Figure 4. The distance D1=L/4=1.0 m is as drawn. Calculate the distance D2.

wo masses (M1=15.0 kg and M2=5.0 kg) are hung from a rod of uniform density (M3=5.0kg and L=4.0 m) such that the system stays in equilibrium (i.e. alpha=0 and acceleration=0) as shown in Figure 4. The distance D1=L/4=1.0 m is as drawn. Calculate the distance D2.

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Question

Two masses (M₁=15.0 kg and M₂=5.0 kg) are hung from a rod of uniform density (M₃=5.0kg and L=4.0 m) such that the system stays in equilibrium (i.e. alpha=0 and acceleration=0) as shown in Figure 4. The distance D₁=L/4=1.0 m is as drawn.

Calculate the distance D₂.