1 / 11

2*7 Frictional Force: The Mu of the Shoe

2*7 Frictional Force: The Mu of the Shoe. WDYS? (p210) . . . WDYT? Some sports require special shoes because _____. Different features of a shoe are useful for different sports because _____. 2*7 Investigate (p210). Brand of shoe = _____ Weight of shoe = _____

karma
Download Presentation

2*7 Frictional Force: The Mu of the Shoe

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. 2*7 Frictional Force: The Mu of the Shoe • WDYS? (p210) • . • . • . • WDYT? • Some sports require special shoes because _____. • Different features of a shoe are useful for different sports because _____.

  2. 2*7 Investigate (p210) • Brand of shoe = _____ Weight of shoe = _____ • Variables = _____ _____ _____ Surface Type = Table Top • Force of Spring Scale = _____

  3. 2*7 Investigate (p210) • When the shoe is being pulled across the table, there are 4 forces acting on it: • _____ • _____ • _____ • _____ • Normal Force = force directed PERPENDICULAR to the surface

  4. 2*7 Investigate (p210) • The coefficient of slidingfriction is represented by (μ) = force of friction = ← Normal Force↑ 4. What would happen if you doubled (×2) its weight??? **The value of μ is NOT affected by the weight**

  5. 2*7 Investigate (p210) 5. Now, lets do it again on the carpet • Sketch a FBD of the shoe with 4 forces: • μ = • The “rougher” the surface, the _____ the coefficient of friction (μ). The “slicker” the surface, the _____ coefficient of friction (μ). *The value of μ will be DIFFERENT with the surface*

  6. 2*7 Physics Talk (p212-214) • Analyzing the Forces Acting on the Shoe • When an object moves at constant velocity the ALL 4 Forces add up to ZERO!!! Constant Velocity = NO Acceleration = Balanced Forces = Net Force is ZERO = Arrows have SAME LENGTH!!!

  7. 2*7 Physics Talk (p212-214) HORIZONTALLY • The shoe moved forward at a slow constant velocity, so there is equal and opposite force = FRICTION (←) VERTICALLY • The shoe did NOT move up nor down, therefore the net forces must be BALANCED and EQUAL ZERO • Normal Force (↑) acts perpendicular to the surface; it’s the force of the 2nd object

  8. 2*7 Physics Talk (p212-214) 2. Coefficient of Sliding Friction, μ (μ) = force of friction = ← normal force ↑ • (μ) does NOT have units • (μ) expressed in decimals • A change in the SURFACE causes a change in (μ) • the rougher the surface, the greater the (μ) • The smoother the surface, the less the (μ)

  9. 2*7 Checking Up (p241) • Because the shoe travels at constant speed, the forces of the spring scale MUST be _____. • The coefficient of friction (μ)has NO UNITS because _____. • The coefficient of friction (μ)is determined by _____.

  10. 2*7 TOTD (25pts) • Draw AND Label the 4 forces on an object. • If an object has constant velocity, then the acceleration is _____. • If the forces are balanced, then the arrows are _____. • What is the equal but opposite force to the “pull”? • What is the NAME of the equal but opposite force to gravity?

  11. 2*7 PTG (p218)

More Related