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Uniform circular motion • What’s uniform? • What direction is the velocity? • What direction is the acceleration? • What’s the magnitude of the acceleration? In one second: In one second: In one second: v What is the acceleration? In one second: ac What is the acceleration? What if the speed is doubled? In one second: In one second: In one second: In one second: v 2v ac What if the radius is halved? In one second: What if the radius is halved? In one second: What if the radius is halved? In one second: What if the radius is halved? In one second: ac What if the radius is halved? In one second: r r/2 Centripetal Acceleration • acceleration for objects moving in a circle at constant speed • perpendicular to the velocity, which points towards the center of the circle • ac = v2/r The Rotor What direction is the net force on the ball? Free-body diagram: Ball ?? TS,B WE,B If you can’t label the force, it probably doesn’t belong on your diagram! Free-body diagram: Ball TS,B WE,B Free-body diagram: Ball TS,B WE,B Free-body diagram: Ty Ball Tx WE,B What direction is the net force on the ball? Ty Ball Tx WE,B What direction is the net force on the ball? Ty Ball Tx WE,B a For an object moving in a circle: • the acceleration points towards the center of the circle, and • the NET FORCE points towards the center of the circle. • We give a special name to this NET FORCE; we call it the CENTRIPETAL FORCE. Which force is the NET FORCE? Ty Ball Tx WE,B a What about the centrifugal force? • There is no such force, regardless of what Mr. Wizard says. Bucket of water problem • You swing a bucket of water (m=1kg) in a vertical circle at constant speed, which we’ll estimate. What is the normal force by the bottom of the bucket on the water at: a. the top of the circle, and b. the bottom of the circle. FBD at top water WE,W What else? water NB,W WE,W What direction is a? v a a water NB,W WE,W Why doesn’t the water fall on Greg’s head? But, how big is a? v a a water NB,W WE,W Why doesn’t the water fall on Greg’s head? Centripetal acceleration • aC = v2/r ≈ 36 m/s2 1m • Assume r = 1 meter • need to find v Assume t = 1 sec; 2 p r ≈ 6 m/s v= t Question a = aC water NB,W WE,W In one second: In one second: In one second: v What is the acceleration? In one second: ac What is the acceleration? Apply Newton’s 2nd Law a = 36 m/s2 water NB,W WE,W = m g = 10 N What’s wrong with this freebody diagram? Fnet = (1 kg) (36 m/s2) = 36 N What if we swing a little slower? a water NB,W WE,W What if we swing a little slower? a water NB,W WE,W What has to change on the FBD? a water NB,W WE,W What has to change on the FBD? a water NB,W WE,W What changes at the bottom? a water NB,W WE,W At the bottom: a NB,W water WE,W At the bottom: a NB,W water WE,W Apply Newton’s 2nd Law a NB,W = 36 m/s2 water WE,W = m g = 10 N How big is the normal force? Fnet = (1 kg) (36 m/s2) = 36 N
