07:33Physics - Application of the Moment of Inertia (6 of 11) Acceleration=? When Pulley Has Mass (mu=0)Michel van Biezen431views
04:34Physics - Application of the Moment of Inertia (5 of 11) Object Hanging From a Rotating DiskMichel van Biezen439views
Multiple ChoiceThe composite disc below is free to rotate about a fixed axis, perpendicular to it and through its center. All forces are 100 N, and all angles are 37°. The dotted lines are either exactly parallel or exactly perpendicular to each other. The inner (darker) and outer (lighter) discs have radii 3 m and 5 m, respectively. Calculate the Net Torque produced on the composite disc, about an axis perpendicular to it and through its center. Use +/– to indicate direction.616views9rank2comments
Multiple ChoiceA square with sides 4 m long is free to rotate around an axis perpendicular to its face and through its center. All forces shown are 100 N and act simultaneously on the square. The angle shown is 30°. Calculate the Net Torque that the forces produce on the square, about its axis of rotation.883views4rank2comments
Multiple ChoiceA rope is wrapped around a pulley and two blocks (A and B) are attached to the two ends of the rope, and mA=2.4kg and mB=3.7kg. The pulley itself can be modeled as a solid cylinder with radius 4.5 cm, and mass mcyl=2.6kg. What is the magnitude of the acceleration of block A?626views
Multiple ChoiceSuppose a force F is applied tangentially to the edge of a solid cylinder of radius R and mass M. causing an angular acceleration α. If the same force is applied tangentially to a solid sphere also of radius R and mass M. what will be the angular acceleration?470views1rank
Textbook QuestionA cord connected at one end to a block which can slide on an inclined plane has its other end wrapped around a cylinder resting in a depression at the top of the plane as shown in Fig. 10–81. Determine the speed of the block after it has traveled 1.80 m along the plane, starting from rest.(b) the coefficient of friction between all surfaces is μ = 0.035 . [Hint: In part (b) first determine the normal force on the cylinder, and make any reasonable assumptions needed.]<IMAGE>246views
Textbook Question"(II) An Atwood machine (Fig. 11–16) consists of two masses, m_A = 7.0kg and m_B = 8.2kg , connected by a cord that passes over a pulley free to rotate about a fixed axis. The pulley is a solid cylinder of radius R₀ = 0.45m and mass 0.80 kg. (a) Determine the acceleration a of each mass. (b) What percentage of error in a would be made if the moment of inertia of the pulley were ignored? Ignore friction in the pulley bearings. Use angular momentum.<IMAGE>"147views
Textbook QuestionThe two blocks in FIGURE CP12.86 are connected by a massless rope that passes over a pulley. The pulley is 12 cm in diameter and has a mass of 2.0 kg. As the pulley turns, friction at the axle exerts a torque of magnitude 0.50 N m. If the blocks are released from rest, how long does it take the 4.0 kg block to reach the floor?394views3rank
Textbook Question(III) Two blocks are connected by a light string passing over a pulley of radius 0.15 m and moment of inertia I. The blocks move (towards the right) with an acceleration of 1.00 m/s² along their frictionless inclines (see Fig. 10–62).(c) Find the net torque acting on the pulley, and determine its moment of inertia, I.<IMAGE>124views
Textbook Question(III) An Atwood machine consists of two masses, mₐ = 65 kg and m₈ = 75 kg, connected by a massless inelastic cord that passes over a pulley free to rotate, Fig. 10–63. The pulley is a solid cylinder of radius R = 0.45 m and mass 6.0 kg.(a) Determine the acceleration of each mass.<IMAGE>128views