1 / 24

Torque

Torque. changing rotational motion. § 10.1–10.2. Example Problem. If the pulley has no mass: What is the machine’s change in potential energy from its initial to its final states? With what speed will the heavier mass hit the ground?. r. m p. v 0 = 0. m 1. m 2. h. Example Problem.

everly
Download Presentation

Torque

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Torque changing rotational motion § 10.1–10.2

  2. Example Problem If the pulley has no mass: • What is the machine’s change in potential energy from its initial to its final states? • With what speed will the heavier mass hit the ground? r mp v0 = 0 m1 m2 h

  3. Example Problem If the pulley has mass mp and radius r: • What is the pulley’s kinetic energy when its tangential speed is v? • What is the kinetic energy of the two masses traveling at speed v? • With what speed will the heavier mass hit the ground? r mp m1 m2 h

  4. Poll Question You push on a door. It will open easiest if you push opposite the hinge. at the center of the door. near the hinge.

  5. Torque • An influence causing angular acceleration • angular analogue of Newton’s second law: tnet = Ia • t = torque • I = moment of inertia • a = angular acceleration • units?

  6. Torque Definition t = Fl • F = tangential component of force • l = lever arm or moment arm • units?

  7. Lever Arm Shortest distance from line of action to point of interest Source: Young and Freedman, Figure 10.2

  8. Poll Question Force P is applied to one end of a lever of length L. What is the magnitude of the torque about point A? PL sin q. PL cos q. PL tan q. PL sec q. PL cot q. PL csc q. Source: Young and Freedman, Test Your Understanding §10.1

  9. Turning influence =torque =radius force =rF Torque Vector Units: Nm (not J) Source: Hewitt, Conceptual Physics

  10. Direction of ABis perpendicular to both A and B Vector Cross Product • Operation symbol  • Another way to multiply two vectors • Product is a vector!

  11. Cross Product Magnitude A  B = AB sin q A A q Maximum for q = 90° Zero for q = 0°, 180° B B

  12. 90° – q Reconcile t = PL cos q = PL sin (90° – q) Source: Young and Freedman, Test Your Understanding §10.1

  13. Magnitude Geometrically A A q B B AB = area of parallelogram

  14. A A q B B AB=–(BA) Cross Product Direction • Curl right-hand fingers in direction of q • Right-hand thumb points in direction of cross-product • Not commutative

  15.    Poll Question What is the direction of the torque about point O from force F1? Source: Young and Freedman, Figure 10.2

  16.    Poll Question What is the direction of the torque about point O from force F2? Source: Young and Freedman, Figure 10.2

  17. a point on the rotation axis • the center of mass • the origin • an observer F Point of Interest Can define the torque about any point • Same force, same line of action, different “axes”

  18. Adding Torques • Net torque is zero Source: Hewitt, Conceptual Physics

  19. r Whiteboard Work A 10,000-N truck is stalled 1/4 of the way across a 100-m bridge. • What torque does its weight apply about the far support?

  20. r Whiteboard Work • What upwardforce must the near support provide to cancel the truck’s torque about the far support? F

  21. Whiteboard Work • What upwardforce must the far support provide to support the weight of the truck? • Hint: Several ways will work: • forces on the bridge • torques about the near support r F

  22. r Poll Question A spool rests on a surface with sufficient friction to keep it from slipping. Which direction does it rotate when the cord is pulled as indicated? Clockwise. Counterclockwise.

  23. r Poll Question A spool rests on a surface with sufficient friction to keep it from slipping. Which direction does it rotate when the cord is pulled as indicated? Clockwise. Counterclockwise.

  24. r Poll Question A spool rests on a surface with sufficient friction to keep it from slipping. Which direction does it rotate when the cord is pulled as indicated? Clockwise. Counterclockwise.

More Related