A 1.5kg block is connected by a rope across a 50cm -diameter, 2.0kg , frictionless pulley, as shown in the figure. A constant 10N tension is applied to the other end of the rope. (Figure 1)
Starting from rest, how long does it take the block to move 30cm ? Express your answer using two significant figures.
A 1.5kg block is connected by a rope across a 50cm -diameter, 2.0kg , frictionless pulley,...
A block with mass mb = 1.9 kg is connected by a rope across a 50-cm-diameter, 2.0 kg pulley, as shown in (Figure 1). There is no friction in the axle, but there is friction between the rope and the pulley; the rope doesn't slip. The weight is accelerating upward at 1.2 m/s2. What is the tension in the rope on the right side of the pulley?
The two blocks in the figure(Figure 1) are connected by a massless rope that passes over a pulley. The pulley is 15 cm in diameter and has a mass of 3.0 kg . As the pulley turns, friction at the axle exerts a torque of magnitude 0.49 N m 4.0 kg 1.0 m 2.0 kg If the blocks are released from rest, how long does it take the 4.0 kg block to reach the floor? Express your answer to two...
Two blocks are connected by a massless rope over a massless, frictionless pulley, as shown in the figure. The mass of block 2 is ?2=11.7 kg , and the coefficient of kinetic friction between block 2 and the incline is ??=0.200 . The angle ? of the incline is 33.5° . If block 2 is moving up the incline at constant speed, what is the mass ?1 of block 1?
Two blocks are connected by a massless rope over a massless, frictionless pulley, as shown in the figure. The mass of block 2 is ?2=11.3 kg , and the coefficient of kinetic friction between block 2 and the incline is ??=0.200 . The angle ? of the incline is 31.5° . If block 2 is moving up the incline at constant speed, what is the mass ?1 of block 1?
Two blocks are connected by a massless rope over a massless, frictionless pulley, as shown in the figure. The mass of block 2 is m2 = 10.5 kg, and the coefficient of kinetic friction between block 2 and the incline is μk = 0.200. The angle of the incline is 27.5°. If block 2 is moving up the incline at constant speed, what is the mass m1 of block 1?
The two blocks in the figure(Figure 1) are connected by a massless rope that passes over a pulley. The pulley is 12 cm in diameter and has a mass of 3.0 kg . As the pulley turns, friction at the axle exerts a torque of magnitude 0.52 N⋅m .Part AIf the blocks are released from rest, how long does it take the 4.0 kg block to reach the floor?
Two blocks are connected by a rope that passes over a massless and frictionless pulley as shown in the figure below. Given that mı = 18.96 kg and m2 = 10.48 kg, determine the magnitudes of the tension in the rope and the blocks' acceleration. T = a = m/s2 (Enter the magnitude.) m2 Need Help? Read It
3. Block A rests on a smooth (frictionless) table and is connected to block B by a light rope and a frictionless pulley, as shown in the figure below. A (a) (5 marks) If block A has a mass of 6.00 kg, and block B has a mass of 2.00 kg, what is the acceleration of the system after it has been released? (b) (5 marks) What is the magnitude of the force of tension in the rope?
The two blocks in the figure(Figure 1) are connected by a massless rope that passes over a pulley. The pulley is 14 cm in diameter and has a mass of 3.0 kg As the pulley turns, friction at the axle exerts a torque of magnitude 0.53 N.m. Part A If the blocks are released from rest, how long does it take the 4.0 kg block to reach the floor?
The two blocks in the figure Figure 1) are connected by a massless rope that passes over a pulley. The pulley is 14 cm In diameter and has a mass of 2.1 kg. As the pulley turns, friction at the axle exerts a torque of magnitude 0.52 N·m. Part A If the blocks are released from rest, how long does it take the 4.0 kg block to reach the floor?