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PHYS16 – Lecture 25 Static Equilibrium and Levers November 5, 2010

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1 PHYS16 – Lecture 25 Static Equilibrium and Levers November 5, 2010 http://1.bp.blogspot.com/_1V7wnZxPqok/SfhTKqUoaoI/AAAAAAAAMPs/h60D0w2B7dU/s400/cartoon+math+miracle.gif

2 This Week Simple Machines II – gears, belts, and levers Static Equilibrium – Center of Gravity – Newton’s Second law for torques and forces

3 Simple Machines II

4 Simple Machine: Lever Lever is a machine that improves mechanical advantage by using rotation In a lever the applied force can be reduced by increasing the distance between force and fulcrum Increasing r allows for decreasing F

5 Example Question: Lifting students If the fulcrum is placed in the middle it takes me 1 kN of force to lift two students. Now, if I place the fulcrum such that it is ¾ of the way from my end, how much force do I need? A third of the force!

6 Three kinds of levers: Video http://www.youtube.com/watch?v=PW7ztbwJ KBk http://www.youtube.com/watch?v=PW7ztbwJ KBk This movie reminds me of a high school film strip, but is useful…

7 Three Kinds of Levers Manahoran Lectures, Harvard

8 Gain a Mechanical Advantage? Same Force! No!

9 Gain a Mechanical Advantage? Yes! No!

10 Gain a Mechanical Advantage? Yes!

11 Example Question: Biceps Mindy and Meredith each hold 35 kg at a distance of 35 cm from elbow. But Mindy’s bicep muscle is attached 5 cm from the elbow joint whereas Meredith’s is attached 8 cm from the joint. Whose biceps exerts more force? A)Mindy’s biceps B)Meredith’s biceps C)They exert the same force

12 Static Equilibrium

13 Forces should not cause linear acceleration Torques should not cause rotational acceleration Object has no rotational or linear motion

14 Strategy for solving problems Free Body Diagram – Identify all forces – Draw exactly where forces act – Draw which way forces point Define Axes Apply Force balance Apply Torque balance – Make sure to determine pivot correctly

15 Example: Iron Cross Photo © King (The Reluctant Curmudgeon) - www.kingdouglas.com/Kingwww.kingdouglas.com/ Draw the free body diagram…

16 Example: Identify the Pivot point A BC D A BC D resting on surface in space A B C D on platform A B C D on hinge

17 Example: Wheelbarrow I want to use a wheelbarrow to move 30 kg of yard waste with a center of mass 0.2 m from the wheel axle. If the handle is located at 1 m from the wheel axle how much force should I use to keep the wheelbarrow lifted? What is my mechanical advantage? F=(30kg)(9.8 m/s^2)(0.2 m)/(1 m) = 60 N MA=(30kg)(9.8 m/s^2)/(60 N) = 5

18 Main Points Lever increases mechanical advantage Static Equilibrium requires no movement so torques and forces sum to zero Strategy for problems – Need correct free body diagram – Identify pivot point correctly – Apply equations

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