A bicycle racer is going downhill at 13.5 m/s when,to his horror, one of his 2.17 kg wheels comes offwhen he is 52.0 m above the foot of the hill. Wecan model the wheel as a thin-walled cylinder 85.0cm in diameter and neglect the small mass of thespokes.་Part AHow fast is the wheel moving when it reaches the foot of the hill if it rolledwithout slipping all the way down?ΜΕ ΑΣΦV = 31.9?m/sYou have already submitted this answer. Enter a new answer.No credit lost. Try again.SubmitPrevious Answers Request AnswerPart BHow much total kinetic energy does the wheel have when it reaches thebottom of the hill?ΜΕ ΑΣΦ?K₁ = 2208JYou have already submitted this answer. Enter a new answer.No credit lost. Try again.SubmitPrevious Answers Request Answer

Step 1:Given:The mass of the wheel: m=2.17kgThe linear speed of the wheel at the top of the hill:…

Answered: A bicycle racer is going downhill at…

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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I Review I Constants You are designing a rotating metal flywheel that will be used to store energy. The flywheel is to be a uniform disk with radius 35.0 cm. Starting from rest at t = 0, the flywheel rotates with constant angular acceleration 3.00 rad/s? about an axis perpendicular to the flywheel at its center. Part A If the flywheel has a density (mass per unit volume) of 8600 kg/m³, what thickness must it have to store 800 J of kinetic energy at t = 8.00 s? Express your answer with the appropriate units. HA h = Value Units Submit Request Answer
Part B: How many revolutions does it make before reaching full speed? Express your answer in revolutions using two significant figures.
Two masses, mA = 30.0 kg and mg = 38.0 kg are connected by a rope that hangs over a pulley (as in the figure(Figure 1)). The pulley is a uniform cylinder of radius R = 0.319 m and mass 3.4 kg. Initially, mA is on the ground and mp rests 2.5 m above the ground. Figure MA R mg 4 25m < 1 of 1 Part A If the system is now released, use conservation of energy to determine the speed of mg just before it strikes the ground. Assume the pulley is frictionless. Express your answer using three significant figures and include the appropriate units. V= Value Submit μA Provide Feedback Request Answer Units Ed ?
Case 1: A DJ starts up her phonograph player. The turntable accelerates uniformly from rest, and takes t1 = 11.6 seconds to get up to its full speed of f1 = 78 revolutions per minute. Case 2: The DJ then changes the speed of the turntable from f1 = 78 to f2 = 120 revolutions per minute. She notices that the turntable rotates exactly n2= 12 times while accelerating uniformly. a. Calculate the magnitude of the angular acceleration of the turntable (in radians/second2) while increasing to 120 RPM (Case 2). b. How long (in seconds) does it take for the turntable to go from f1 = 78 to f2 = 120 RPM?
Case 1: A DJ starts up her phonograph player. The turntable accelerates uniformly from rest, and takes t1 = 11.6 seconds to get up to its full speed of f1 = 78 revolutions per minute.Case 2: The DJ then changes the speed of the turntable from f1 = 78 to f2 = 120 revolutions per minute. She notices that the turntable rotates exactly n2= 13 times while accelerating uniformly. a. Calculate the angular speed described in Case 1, given as f1 = 78 revolutions per minute, in units of radians/second. b. How many revolutions does the turntable make while accelerating in Case 1? c. Calculate the magnitude of the angular acceleration of the turntable in Case 1, in radians/s^2. d. Calculate the magnitude of the angular acceleration of the turntable (in radians/s^2) while increasing to 120 RPM (Case 2). e. How long (in seconds) does it take for the turntable to go from f1 = 78 to f2 = 120 RPM?
A hollow ball of mass m = 2.0 kg and radius r rolls without slipping along a loop-the-loop track, with a height of h and radius R. The ball is released from rest somewhere on the straight section of the track. a. From what minimum height h above the bottom of the track must the ball be released in order that it not leave the track at the top of the loop? (height of loop is 2R) The Radius is 10.0 m b. What is acting as a radial force at the top of the loop? (gravity, Tension ???) I hollow ball = (2/3) mr² gninub 21 noitu boxil bns brossz sri gnitub suprot sit zomit auol (C doum asmuomo (3 2R di grois un 12 What was the potential energy at the top of mass m? Houm
P1
A. A large rotating cylinder uniformly increases in angular speed from rest to 0.170 rev/s in 28.0 s. What is its angular acceleration in radians per second per second?
A centrifuge rotor rotating at 9500 rpm is shut off and is eventually brought uniformly to rest by a frictional torque of 1.19 m. N. Part A If the mass of the rotor is 3.67 kg and it can be approximated as a solid cylinder of radius 0.0900 m, through how many revolutions will the rotor turn before coming to rest? Express your answer to three significant figures. Z II N Submit Part B 垢 ΑΣΦ Request Answer How long will it take? Express your answer to three significant figures and include the appropriate units. ?
We wrap a light, nonstretching cable around a 7.00 kg solid cylinder with diameter of 40.0 cm. The cylinder rotates with negligible friction about a stationary horizontal axis. We tie the free end of the cable to a 15.0 kg block and release the block from rest. As the block falls, the cable unwinds without stretching or slipping. Part A How far will the mass have o descend to give the cylinder 540 J of kinetic energy? Express your answer in meters. h = In Submit Request Answer Provide Feedback
A 6 cm diameter, 550 g solid sphere is released from rest at the top of a 2.0 m long, 35° incline. It rolls, without slipping, to the bottom. a. What is the sphere’s angular velocity at the bottom of the incline?b. What fraction of its kinetic energy is rotational?
C: illustrate a diagram

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