An equal arm balance is made by placing a meter stick at its center so it looks like a seesaw. The first mass m=3 kg is hung at r= 0.25 m To the left of the center. A second mass equaling 1.4 kg is hung at 0.4 m to the right of the center. At what location with respect to the center of the meter stick must a third mass of 0.8 kg be hung for the meter stick to be in equilibrium? to the left of the center. A second mass equaling 1.4 kg is hung at 0.4 m to the right of the center. At what location with respect to the center of the meter stick must a third mass of 0.8 kg be hung for the meter stick to be in equilibrium? (All angles are 90 degrees)
Rotational Equilibrium And Rotational Dynamics
In physics, the state of balance between the forces and the dynamics of motion is called the equilibrium state. The balance between various forces acting on a system in a rotational motion is called rotational equilibrium or rotational dynamics.
Equilibrium of Forces
The tension created on one body during push or pull is known as force.
An equal arm balance is made by placing a meter stick at its center so it looks like a seesaw. The first mass m=3 kg is hung at r= 0.25 m To the left of the center. A second mass equaling 1.4 kg is hung at 0.4 m to the right of the center. At what location with respect to the center of the meter stick must a third mass of 0.8 kg be hung for the meter stick to be in equilibrium? to the left of the center. A second mass equaling 1.4 kg is hung at 0.4 m to the right of the center. At what location with respect to the center of the meter stick must a third mass of 0.8 kg be hung for the meter stick to be in equilibrium? (All angles are 90 degrees)
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