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Unformatted text preview: Muraj, Hamza – Quiz 2 – Due: Mar 8 2006, 10:00 pm – Inst: Florin 1 This printout should have 21 questions. Multiplechoice questions may continue on the next column or page – find all choices before answering. The due time is Central time. 001 (part 1 of 1) 10 points An amusement park ride consists of a large vertical cylinder that spins about its axis fast enough that any person inside is held up against the wall when the floor drops away (see figure). The coefficient of static friction between the person and the wall is μ and the radius of the cylinder is R . ω R What is the minimum tangential velocity needed to keep the person from slipping down ward? 1. v = p 2 μg R 2. v = 2 μ p g R 3. v = 1 μ p g R 4. v = μ p 2 π g R 5. v = μ p g R 6. v = 2 p g R 7. v = μ p 2 g R 8. v = p g R 9. v = s g R μ correct 10. v = 1 2 p g R Explanation: Basic Concepts: Centripetal force: F = mv 2 r Frictional force: f s ≤ μ N = f max s Solution: The maximum frictional force due to friction is f max = μ N , where N is the inward directed normal force of the wall of the cylinder on the person. To support the person vertically, this maximal friction force f max s must be larger than the force of gravity mg so that the actual force, which is less than μ N , can take on the value mg in the positive vertical direction. Now, the normal force supplies the centripetal acceleration v 2 R on the person, so from Newton’s second law, N = mv 2 R . Since f max s = μ N = μmv 2 R ≥ mg , the minimum speed required to keep the per son supported is at the limit of this inequality, which is μmv 2 min R = mg, or v min = µ g R μ ¶ 1 2 . 002 (part 1 of 4) 0 points The following figure shows a Ferris wheel that rotates 3 times each minute and has a diame ter of 17 m. The acceleration of gravity is 9 . 8 m / s 2 . What is the centripetal acceleration of a rider? Correct answer: 0 . 838916 m / s 2 . Muraj, Hamza – Quiz 2 – Due: Mar 8 2006, 10:00 pm – Inst: Florin 2 Explanation: The period of the Ferris wheel is T = 60 s / 3 = 20 s . The speed of the wheel is v = 2 π r T = 2 π (8 . 5 m) 20 s = 2 . 67035 m / s , so the centripetal acceleration is a = v 2 r = (2 . 67035 m / s) 2 (8 . 5 m) = . 838916 m / s 2 . 003 (part 2 of 4) 10 points What force does the seat exert on a 51 kg rider at the lowest point of the ride? Correct answer: 542 . 585 N. Explanation: The force exerted by the seat balances the gravity and provides the centripetal force, so F l = m [ g + a ] = (51 kg)(9 . 8 m / s 2 + 0 . 838916 m / s 2 ) = 542 . 585 N . 004 (part 3 of 4) 0 points What force does the seat exert on a 51 kg rider at the highest point of the ride? Correct answer: 457 . 015 N....
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This note was uploaded on 04/12/2010 for the course PHY 58195 taught by Professor Turner during the Spring '09 term at University of Texas.
 Spring '09
 Turner

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