1. A block of mass M is hung by ropes as shown. The system Is in equilibrium. The point O represents the knot, the junction of the three ropes. The three forces, F1,F2,andF3, are equal in magnitude. 2. A block of mass M is hung by ropes as shown. The system Is in equilibrium. The point O represents the knot, the junction of the three ropes. The tension forces, F1andF2, are equal in magnitude. 3.If the mass of the pulley is ignored, the acceleration of the blocks is 2.45 m/s22. 1st picture is for number 1 and 2 2nd picture is for number 3

1. A block of mass M is hung by ropes as shown. The system Is in equilibrium. The point O represents the knot, the junction of the three ropes. The three forces, F1,F2,andF3, are equal in magnitude. 2. A block of mass M is hung by ropes as shown. The system Is in equilibrium. The point O represents the knot, the junction of the three ropes. The tension forces, F1andF2, are equal in magnitude. 3.If the mass of the pulley is ignored, the acceleration of the blocks is 2.45 m/s22. 1st picture is for number 1 and 2 2nd picture is for number 3

Name: 1. A block of mass M is hung by ropes as shown. The system Is in equil
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Description: 1. A block of mass M is hung by ropes as shown. The system Is in equilibrium. The point O represents the knot, the junction of the three ropes. The three forces, F1,F2,andF3, are equal in magnitude.2. A block of mass M is hung by ropes as shown. The

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Chapter15: Place And Time

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1. A block of mass M is hung by ropes as shown. The system Is in equilibrium. The point O represents the knot, the junction of the three ropes. The three forces, F1,F2,andF3, are equal in magnitude.

2. A block of mass M is hung by ropes as shown. The system Is in equilibrium. The point O represents the knot, the junction of the three ropes. The tension forces, F1andF2, are equal in magnitude.

3.If the mass of the pulley is ignored, the acceleration of the blocks is 2.45 m/s22.

1st picture is for number 1 and 2
2nd picture is for number 3

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