A mass m1 = 5.20 kg and a mass m2 = 2.50 kg are suspended by a pulley that has a radius of 8.00 cm and a mass of 2.70 kg (see figure). The cord has a negligible mass and causes the pulley to rotate without slipping. The pulley rotates without friction. Treating the pulley as a uniform disk, determine the tension in the right cord.
A m1 = 14.1 kg mass and a m2 = 10.6 kg mass are suspended by a pulley that has a radius of R = 11.4 cm and a mass of M = 3.18 kg, as seen in the figure below. The cord has a negligible mass and causes the pulley to rotate without slipping. The pulley rotates without friction. The masses start from rest d = 2.79 m apart. Treating the pulley as a uniform disk, determine the speeds...
A m1 = 14.6 kg mass and a m2 = 11.1 kg mass are suspended by a pulley that has a radius of R = 11.8 cm and a mass of M = 2.52 kg, as seen in the figure below. The cord has a negligible mass and causes the pulley to rotate without slipping. The pulley rotates without friction. The masses start from rest d = 3.13 m apart. Treating the pulley as a uniform disk, determine the speeds...
Am7 = 14.3 kg mass and a m2 = 11.9 kg mass are suspended by a pulley that has a radius of R = 11.0 cm and a mass of M = 2.98 kg, as seen in the figure below. m2 The cord has a negligible mass and causes the pulley to rotate without slipping. The pulley rotates without friction. The masses start from rest d = 3.13 m apart. Treating the pulley as a uniform disk, determine the speeds...
A m1=14.0kg object and a m2 = 12.0 kg are suspended, joined by a cord that passes over a pulley with a radius of 10.0 cm and a mass of 3.00 kg. The cord has a negligible mass and does not slip on the pulley. The pulley rotates on its axis without friction. The objects start from rest 3.00 apart. Treating the pulley as a uniform disk, determine the speeds of the two objects as they pass each other.
A m_1 = 14.0 kg object and a m_2 = 12.0 kg object are suspended, joined by a cord that passes over a pulley with a radius of 10.0 cm and a mass of 3.00 kg (Fig. P10.46). The cord has a negligible mass and does not slip on the pulley. The pulley rotates on its axis without friction. The objects start from rest 3.00 m apart. Treating the pulley as a uniform disk, determine the speeds of the two...
Two masses of 6 . 5 kg and 2 . 8 kg are suspended by a pulley with a radius of 12 cm and a mass of 5 kg as shown in the figure. The cord has negligible weight and causes the pulley to rotate without slipping What is the angular acceleration of the pul- ley? Treat the pulley as a uniform disk. The acceleration of gravity is 9 . 8 m / s 2 . Answer in units of...
A mass m2 = 15.0 kg is connected by a light cord to a mass m1 = 15.0 kg, which slides on a smooth horizontal surface. The pulley, of mass M = 1.00 kg, rotates about a frictionless axle and has a radius R = 0.200 m and a moment of inertia I = 0.0900 kg-m2 . The cord does not slip on the pulley. a) What is the magnitude of the acceleration of m1? b) What is the tension...
In the figure, two blocks, of mass m1 = 308 g and m2 = 378 g, are connected by a massless cord that is wrapped around a uniform disk of mass M = 513 g and radius R = 11.1 cm. The disk can rotate without friction about a fixed horizontal axis through its center; the cord cannot slip on the disk. The system is released from rest. Find (a) the magnitude of the acceleration of the blocks, (b) the...
In the figure, two blocks, of mass m1 = 376 g and m2 = 639 g, are connected by a massless cord that is wrapped around a uniform disk of mass M = 534 g and radius R = 11.9 cm. The disk can rotate without friction about a fixed horizontal axis through its center; the cord cannot slip on the disk. The system is released from rest. Find (a) the magnitude of the acceleration of the blocks, (b) the...