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Friction Objectives –Make simple measurements of distance and time –Learn graphing skills and understand graphical relationships –Understand the meaning.

Published byGwen Berry Modified over 8 years ago

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Presentation on theme: "Friction Objectives –Make simple measurements of distance and time –Learn graphing skills and understand graphical relationships –Understand the meaning."— Presentation transcript:

1 Friction Objectives –Make simple measurements of distance and time –Learn graphing skills and understand graphical relationships –Understand the meaning and use of the slope in a motion diagrams. –Study friction and its affect on acceleration. –Understand Applications of Newton’s 2 nd Law F = m a

2 Friction Forces Frictional forces oppose motion –Usually proportional to the velocity –Dependent upon the normal force F N –Dependent upon the two surfaces through the coefficient of friction (  ) A: Max Normal Force, maximum friction B: Normal Force with surface decreased, friction decreased C: No Normal Force, No Friction A BC F F F FNFN f

3 Coefficient of Friction Depends upon the nature of the two surfaces –Quantified by the coefficient of friction  Does not depend upon the surface area or weight of the sliding object, only on the nature of the surfaces.  is LARGE for things like wood or sand paper  is SMALL for things like plastic or teflon

4 Static and Kinetic Friction In the static region, the frictional force equals the applied force. The frictional force depends upon the coefficient of static friction  s. In the kinetic region, the object begins to move and the frictional force decreases slightly to a constant value dependent upon the coefficient of kinetic friction  k.

5 Smart Pulley System The Smart Pulley allows us to make measurements of displacement (  d) and time (  t). By plotting velocity (  d/  t) of a laboratory cart, acceleration can be experimentally determined as the slope in a motion diagram of velocity versus time (  v/  t).

6 Forces Forces on block mass M (including friction) Normal Force (F N = M g) Gravity (weight) Tension (from hanging mass weight) Friction F f =  F N Forces on hanging mass (m) Gravity (weight) m a = F - F f Tension(M + m) a = m g -  F N  = {mg - (M+m)a}/Mg g ~ 10 m/s 2

7 Constant Acceleration? With constant non-zero acceleration…  Velocity versus Time is linear.  Velocity changes uniformly.  Change in Velocity (  v) over change in time (  t) is average acceleration. Average acceleration =  v/  t

8 Constant Acceleration Motion Displacement Time Velocity Time Slope = acceleration

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