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Bellwork Pick up a free-body diagram sheet and begin working on it.

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Presentation on theme: "Bellwork Pick up a free-body diagram sheet and begin working on it."— Presentation transcript:

1 Bellwork Pick up a free-body diagram sheet and begin working on it.

2 October 21, 2009 SWBAT state and calculate weight SWBAT solve for coefficients of static and kinetic friction Catalyst Hang on to worksheets from yesterday

3 Weight & Friction

4 Weight – the mass and acceleration of an object due to gravity Weight & Friction

5 Weight – the mass and acceleration of an object due to gravity creates weight.  aka - F g Weight & Friction

6 F g = mg Force of Gravity = mass x gravity Weight & Friction

7 F g = mg An object with a mass of 9kg has what weight or F g ? Weight & Friction

8 F g = mg An object with a mass of 9kg has what weight or F g ? Fg = (9)(9.81) Weight & Friction

9 F g = mg An object with a mass of 9kg has what weight or F g ? Fg = 88.3N Weight & Friction

10 What force is resisting the box? Weight & Friction

11 What force is resisting the box? Weight & Friction

12 This is called the Normal Force (F n ) Weight & Friction

13 Normal Force (F n ) – The upward force equal to the downward F g exerted by a surface. Weight & Friction

14 Moving a Refrigerator Draw a free body diagram for the following situation. ◦ A man pushes against a 85 kg refrigerator with 50 N of force but it doesn’t go anywhere.

15 Friction (F f ) – The force that opposes the relative motion of two surfaces in contact Friction is proportional to the F n and depends on the surfaces in contact. Weight & Friction

16 Static friction (Fs) = the resistive force that keeps something from moving when at rest Static means not moving F s = -F applied F s = μ s F n where μ s is the coefficient of static friction (it has no units) Weight & Friction

17 Moving the Fridge Draw a free body diagram for the following situation. ◦ A man pushes against a 85 kg refrigerator with 50 N of force but it doesn’t go anywhere  What is the coefficient of static friction between the floor and the fridge?

18 Kinetic Friction Objects also experience friction while they are moving For moving object, friction: ◦ Points opposite the direction of motion ◦ Is parallel to the surface The equation is F k = μ k F n where μ k is the coefficient of kinetic friction (also no units)

19 Question. Think about pushing a box full of books across the floor. Is it harder to push before or after it starts moving? So would you expect the coefficient of static or kinetic friction to be a greater value? (indicating more Friction) Weight & Friction

20 A 24kg crate initially at rest on a horizontal floor requires a 75N horizontal force to set it in motion. Find the coefficient of static friction between the crate and the floor. Figure out a plan Try to solve without putting the numbers in first. µ s =.32 Weight & Friction

21 a 91kg refrigerator is placed on a ramp. The refrigerator begins to slide when the ramp is raised to an angle of 34˚. What is the coefficient of static friction Figure out a plan Try to solve without putting the numbers in first. µ =.67 Weight & Friction

22 A student moves a box of books by attaching a rope to the box and pulling with a force of 90.0N at an angle of 30.0˚. The box of books has a mass of 20.0kg, and a coefficient of kinetic friction between the bottom of the box and the sidewalk is.50. Find the acceleration of the box. Steps (how are we going to find our answer?) Draw diagram Find Fn using ( ΣF y = 0) Calculate the force of kinetic friction (F k = µ k F n ) Use Newton’s 2 nd Law on the horizontal axis to find acceleration (ΣF x = ma x ) a =.12m/s 2 to the right Weight & Friction

23 Two students are sliding a 225kg sofa at a constant speed across a wood floor. One student pulls with a force of 225N at an angle of 13° above the horizontal. The other student pushes with a force of 250N at an angle of 23° below the horizontal. What is the coefficient of kinetic friction between the sofa and the floor? Steps (how are we going to find our answer?) Draw diagram Find F k using ( ΣF y = 0) Calculate the coefficient of kinetic friction (F k = µ k F n ) μ k =.20 Group Practice Problem!

24 Practice Work Pg 145; #1, 2, 3a, 3b Pg 147; #1, 3, 4

25 A 24kg crate initially at rest on a horizontal floor requires a 75N horizontal force to set it in motion. Find the coefficient of static friction between the crate and the floor Weight & Friction

26 A block sliding (μ =.57) on a surface has a normal force of 13N, what is the friction force? Ff = (.57)(13) Weight & Friction F f = μF n

27 A block sliding (μ =.57) on a surface has a normal force of 13N, what is the friction force? Ff = 7.4N Weight & Friction F f = μF n

28 A block sliding (μ =.1) on a surface has a friction force of 8N, what is the normal force? Weight & Friction F f = μF n

29 A block sliding (μ =.1) on a surface has a friction force of 8N, what is the normal force? 8 = (.1)(F n ) Weight & Friction F f = μF n

30 A block sliding (μ =.1) on a surface has a friction force of 8N, what is the normal force? F n = 80N Weight & Friction F f = μF n

31 A 30 kg block sliding (μ =.2) on a surface has what friction force? Weight & Friction F f = μF n

32 A 30 kg block sliding (μ =.2) on a surface has what friction force? Weight & Friction F f = μF n

33 A 30 kg block sliding (μ =.2) on a surface has what friction force? F g = mg Weight & Friction F f = μF n

34 A 30 kg block sliding (μ =.2) on a surface has what friction force? F g = 30(9.81) Weight & Friction F f = μF n

35 A 30 kg block sliding (μ =.2) on a surface has what friction force? F g = 294.3N Weight & Friction F f = μF n

36 A 30 kg block sliding (μ =.2) on a surface has what friction force? F g = 294.3N F g = F n Weight & Friction F f = μF n

37 A 30 kg block sliding (μ =.2) on a surface has what friction force? F n = 294.3N Weight & Friction F f = μF n

38 A 30 kg block sliding (μ =.2) on a surface has what friction force? F n = 294.3N F f = (.2)(294.3) Weight & Friction F f = μF n

39 A 30 kg block sliding (μ =.2) on a surface has what friction force? F n = 294.3N F f = 58.9N Weight & Friction F f = μF n

40 What net force is being on the box below? Weight & Friction

41 What net force is being on the box below? 222N Weight & Friction

42 If a 22N force is being applied to a 33kg block sliding (μ =.03) on a surface, what is the net force? Weight & Friction

43 If a 22N force is being applied to a 33kg block sliding (μ =.03) on a surface, what is the net force? F g = 33(9.81) Weight & Friction F g = mg

44 If a 22N force is being applied to a 33kg block sliding (μ =.03) on a surface, what is the net force? F g = 323.7N Weight & Friction F g = mg

45 If a 22N force is being applied to a 33kg block sliding (μ =.03) on a surface, what is the net force? F g = 323.7N = F n Weight & Friction F g = mg

46 If a 22N force is being applied to a 33kg block sliding (μ =.03) on a surface, what is the net force? F f = (.03)(323.7) Weight & Friction F f = μF n

47 If a 22N force is being applied to a 33kg block sliding (μ =.03) on a surface, what is the net force? F f = 9.7N Weight & Friction F f = μF n

48 If a 22N force is being applied to a 33kg block sliding (μ =.03) on a surface, what is the net force? F net = 22 - 9.7 Weight & Friction F f = μF n

49 If a 22N force is being applied to a 33kg block sliding (μ =.03) on a surface, what is the net force? F net = 22 - 9.7 = 12.3 Weight & Friction F f = μF n

50 Take it a step further, how fast is the block accelerating? Weight & Friction F net = ma

51 Take it a step further, how fast is the block accelerating? F = 12.3 m = 33 a = ? Weight & Friction F net = ma

52 Take it a step further, how fast is the block accelerating? F = 12.3 m = 33 a = ? 12.3 = 33(a) Weight & Friction F net = ma

53 Take it a step further, how fast is the block accelerating? F = 12.3 m = 33 a = ? a =.37m/s 2 Weight & Friction F net = ma

54 If a 2003N force is being applied to a 55kg block sliding (μ =.47) on a surface, what is the net force? How fast is it accelerating? Weight & Friction

55 If a 2003N force is being applied to a 55kg block sliding (μ =.47) on a surface, what is the net force? How fast is it accelerating? Fnet = 1749.4N Weight & Friction

56 If a 2003N force is being applied to a 55kg block sliding (μ =.47) on a surface, what is the net force? How fast is it accelerating? Fnet = 1749.4N a = 31.8m/s 2 Weight & Friction

57 Do the Frictional practice Worksheet. Finish for HW

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