15. Rotational Equilibrium

Equilibrium with Multiple Objects

15. Rotational Equilibrium

Equilibrium with Multiple Objects

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Position of second kid on seesaw

Multiple objects hanging

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Physics, Torque (13 of 13) Static Equilibrium, Mobile Calculations

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Physics, Torque (13 of 13) Static Equilibrium, Mobile Calculations

The system in the figure is in equilibrium with the string

Physics, Torque (3 of 13) Balance Beam

Equilibrium with Multiple Objects: Example: Multiple objects hanging

Equilibrium with Multiple Objects: Example: Position of second kid on seesaw

Practice Problem: Torque on a Mobile

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Multiple Choice

A 20 kg, 5 m-long bar of uniform mass distribution is attached to the ceiling by a light string, as shown. Because the string is off-center (2 m from the right edge), the bar does not hang horizontally. To fix this, you place a small object on the right edge of the bar. What mass should this object have, to cause the bar to balance horizontally?

Two kids (m,_LEFT = 50 kg, m,_RIGHT = 40 kg) sit on the very ends of a 5 m-long, 30 kg seesaw. How far from the left end of the seesaw should the fulcrum be placed so the system is at equilibrium? (Remember the weight of the seesaw!)

Two people are carrying a uniform wooden board that is 3.00 m long and weighs 160 N. If one person applies an upward force equal to 60 N at one end, at what point does the other person lift? Begin with a free-body diagram of the board.

Two people carry a heavy electric motor by placing it on a light board 2.00 m long. One person lifts at one end with a force of 400 N, and the other lifts the opposite end with a force of 600 N. (a) What is the weight of the motor, and where along the board is its center of gravity located?

A 0.120-kg, 50.0-cm-long uniform bar has a small 0.055-kg mass glued to its left end and a small 0.110-kg mass glued to the other end. The two small masses can each be treated as point masses. You want to balance this system horizontally on a fulcrum placed just under its center of gravity. How far from the left end should the fulcrum be placed?

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Textbook Question

The mobile in Fig. 12–91 is in equilibrium. Object B has mass of 0.748 kg. Determine the masses of objects A, C, and D. (Neglect the weights of the crossbars.)

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15. Rotational Equilibrium

Equilibrium with Multiple Objects

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