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The weight of an object is the resultant of all these parallel force vectors.

PARALLEL FORCES Forces that act in the same or opposite directions at different points on an object. The weight of an object is the resultant of all these parallel force vectors. The CENTER OF GRAVITY of an object is that point at which all of its weight can be considered to be concentrated.

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The weight of an object is the resultant of all these parallel force vectors.

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  1. PARALLEL FORCES Forces that act in the same or opposite directions at different points on an object.

  2. The weight of an object is the resultant of all these parallel force vectors.

  3. The CENTER OF GRAVITYof an object is that point at which all of its weight can be considered to be concentrated.

  4. An equilibrant force will suspend an object without changing its rotation.

  5. In this condition, the object is in both translationaland rotationalequilibrium.

  6. The object is not accelerating and its rotation (if any) is constant.

  7. Two forces acting on different points, but in different directions, on the same object tend to cause rotation.

  8. To measure the torque (rotating effect), a pivotpointmust be chosen.

  9. Perpendicular lines from the pivot point to each of the force vectors are called torquearms.

  10. Torque, T, is the product of a force and the length of its torque arm.

  11. Rotational Equilibrium: in given plane, the sum of all the clockwise torques equals the sum of all the counter-clockwise torques about any pivot point.

  12. The torque arms must always be measured perpendicular to the directions of the forces.

  13. A string is tied to a doorknob 0.79 m from the hinge as shown. At the instant shown, the force applied to the string is 5.0 N. What is the torque on the door?

  14. Acouple - two forces of equal magnitude act in opposite directions in the same plane, but not on the same point.

  15. A couple can only be balanced by another couple where the torques of the two couples have equal magnitudes but opposite directions.

  16. A horizontal rod, AB, is 10.00 m long. It weighs 500 N and its center of gravity, C, is 3.00 m from A. At A a force of 1000 N acts downward. At B a force of 750 N acts downward. At D, 2.00 m form B, a force of 400 N acts upward. At E, 1.00 m from A, a force of 750 N acts upward. (a) What is the magnitude and direction of the force that must be used to produce equilibrium? (b) Where must it be applied?

  17. A nonuniform bar is 3.8 m long and has a weight of 560 N. The bar is balanced in a horizontal position when it is supported at its geometric center and a 340-N weight is hung 0.70 m from the bar’s light end. Find the bar’s center of gravity.

  18. A large wooden beam weighs 820 N and is 3.2 m long. The beam’s center of gravity is 1.4 m from one end. Two workers begin carrying the beam away. If they lift the beam at its ends, what part of its weight does each worker lift?

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