9 CHALLENGE QUESTION (0 marks - see text) This bonus question does not contribute to your overall score on this exam. I...
Problem #2 A hollow ball of radius 0.5 m and mass 4.5 kg is rolling without slipping on a level surface at a constant speed of 4.0 m/s. The ball rolls up a 40° ramp and eventually stops before rolling back down. (the moment of inertia of a hollow ball of mass M and radius R is MR2) Find: (a) the angular (rotational) speed of the ball (in rad/sec) just before it begins to move up the ramp; (b) the...
12. (5 points) A speedway turn, with radius of curvature R, is banked at an angle 0 above the horizontal. If the track surface is ice-free and R 450.0 m, there is a coefficient of friction ,,-0.65 between the tires and the track, and the 3-450°, what are the m n speeds at which this turn can be taken? 13. (10 points) Rolling down problem. Start from rest Final speed A spherical shell of mass M-0.5 kg and radius R-0.5m...
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5. -2 points SerCP11 8.5.OP050 My NotesAsk Your Teacher A hoop, a solid cylinder, a solid sphere, and a thin, spherical shell each have the same mass of 4.73 kg and the same radius of 0.218 m (a) What is the moment of inertia (in kg m2) for each object as it rotates about its axis? hoop kg m solid cylinder kg m solid sphere kg m thin, spherical shell kg m (b) Each object is rolled down...
Please help with question 2.
Physics I Pre-Lab Assignment: Rotational Kinetic Energy On a blank piece of paper (lined or computer, nothing torn out of a notebook), please answer the questions below. The assignment is due before lab starts. 1. When an object rolls down an incline, its kinetic energy is composed of both rotational and translational terms. Write out the equation for total kinetic energy with rotational and translational components. Label the terms to identify which is rotational and...
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A spherical shell of radius 0.43 m and mass 27 kg initially rolls without slipping towards an incline at a linear speed of 9.1 m/s. If the ball rolls up an incline (inclined 35 degrees above the horizontal) without sliding. How high will it go? A professor holding a spinning wheel used for a demonstration brings the wheel to a stop by applying a constant, tangential friction force to the edge (his hand). The...