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Torque.

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Presentation on theme: "Torque."— Presentation transcript:

1 Torque

2 Center of Gravity The point at which all the weight is considered to be concentrated The point at which an object can be lifted w/o producing rotation

3 Center of Gravity In asymmetric objects, the center of gravity may not be the geometric center

4 Translational Equilibrium
Occurs when an object is not accelerating

5 Rotational Equilibrium
Occurs when an object is not rotating or the rotation is uniform

6 Torque The rotational effect of an object produced by a net force that is not applied to the center of gravity

7 C = Pivot Point or Center of rotation FT A B C Torque arm Torque arm
WA C = Pivot Point or Center of rotation WB

8 Pivot Point Reference point from which to measure rotational forces

9 Torque Arm The length between the pivot point and the point where a force is applied

10 Torque The product of the applied force and the length of its torque arm:

11 6 m 4 m TorqueA = WA x 6 m TorqueB = WB x 4 m FT Torque arm Torque arm
C TorqueA = WA x 6 m TorqueB = WB x 4 m WA WB

12 A TorqueA = WAAcosa TorqueB = WBBcosb FT B WB WA Torque Arm A
Torque Arm B A TorqueA = WAAcosa TorqueB = WBBcosb WA

13 FN = FA sin a FN FA a a l sin a Torque =FAl sin a

14 Calculate the torque on a 250 cm rod with a pivot point at one end and a g object sitting on the other end

15 A person ties a rope to one end of a 10
A person ties a rope to one end of a 10.0 m I-beam & tries lift it by pulling with 2500 N at 37o from horizontal

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