A bucket of mass m is hanging from the free end of a rope whose other...
A bucket of mass m is hanging from the free end of a rope whose other end is wrapped around a drum (radius R, mass M) that can rotate with negligible friction about a stationary horizontal axis. The drum is not a uniform cylinder and has unknown moment of inertia. When you release the bucket from rest, you find that it has a downward acceleration of magnitude (a). What is the tension in the cable between the drum and the bucket? (b) What is the moment of inertia of the drum about its rotation axis?
c) In the primitive yo-yo apparatus (Figure 1), you replace the solid cylinder with a hollow cylinder of mass M, outer radius R, and inner radius R/2. Find the magnitude of the downward acceleration of the hollow cylinder. what is the Tension?
Homework Answers
Here we apply concept of Newton's laws of motion and Newton's laws of rotation as well as free body diagram concept.
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A bucket of mass m is hanging from the free end of a rope whose
other...
please show all your work SECTION 3 - Newtonian Dynamics 3 (a) A rope (that can...
please show all your work
SECTION 3 - Newtonian Dynamics 3 (a) A rope (that can be considered massless) is wrapped around a horizontal cylinder of mass M and radius R. The cylinder is free to rotate, and a mass m is hanging on the end of the rope as shown in the diagram. When the mass is released, it falls under the effect of gravity. Show that the downward acceleration a of the hanging mass is: 1 + M/2m...
2-a rope is wrapped around a solid disk of radius R = 2.5 m and a...
2-a rope is wrapped around a solid disk of radius R = 2.5 m and a mass of 1.5 kg . The disk rotates about its own axis. A bucket water has been tied to the other end of the rope as show in the figure. by the rotating disk. The mass of the bucket is 2.0 kg. SHOW FORMULAS AND COMPLETE SOLUTION UNDER EACH PART OF THE PROBLEM. a) calculate the moment of inertia/ Rotational inertia of the disk?...
A one-piece cylinder is shaped as shown in the figure, with a core section protruding from the larger drum
Problem 5: Torque A one-piece cylinder is shaped as shown in the figure, with a core section protruding from the larger drum. The inner cylinder has a mass of 3 kg and the outer cylinder has a mass of 8 kg. The cylinder is free to rotate about the central axis shown in the drawing A rope wrapped around the drum, which has radius R1 = 0.3 m, exerts a force T1 = 50 N to the right on the cylinder....
A box of mass m = 10.0 kg is attached to a rope. The other end...
A box of mass m = 10.0 kg is attached to a rope. The other end of the rope is wrapped around a pulley with a radius of 15.0 cm. When you release the box, it begins to fall and the rope around the pulley begins to unwind, causing the pulley to rotate. As the box falls, the rope does not slip as it unwinds from the pulley. If the box is traveling at a speed of 2.50 m/s after...
A block of mass m is hanging from a cord that is wrapped around a pulley...
A block of mass m is hanging from a cord that is wrapped around a pulley with radius R and moment of inertia I. When the block is released from rest, the pulley will rotate counterclockwise. Part A Solve for the acceleration of the block (your answer can include m,g,R, and I) Part B Draw a free body diagram showing the forces that act on the block Part C What happens to the acceleration of the block if the moment...
A device is made of a wheel with an inner drum and is mounted on a...
A device is made of a wheel with an inner drum and is mounted on a frictionless axle so it does not translate but can rotate about its centre. As indicated in the figure, this device is used to lift a 30.0 kg box. The outer radius R of the device is 0.500 m and the radius of the inner drum is 0.200 m. A constant horizontal force F of magnitude 140 N is applied horizontally, as shown, to a...
A bucket of water of mass 15.7 kg is suspended by a rope wrapped around a...
A bucket of water of mass 15.7 kg is suspended by a rope wrapped around a windlass, that is a solid cylinder with diameter 0.280 m with mass 11.4 kg . The cylinder pivots on a frictionless axle through its center. The bucket is released from rest at the top of a well and falls a distance 10.6 m to the water. You can ignore the weight of the rope. Part A What is the tension in the rope while...
A bucket of water of mass 14.4 kg is suspended by a rope wrapped around a...
A bucket of water of mass 14.4 kg is suspended by a rope wrapped around a windlass, that is a solid cylinder with diameter 0.350 m with mass 13.0 kg . The cylinder pivots on a frictionless axle through its center. The bucket is released from rest at the top of a well and falls a distance 10.0 m to the water. You can ignore the weight of the rope. Take the free fall acceleration to be g = 9.80...
A bucket of mass m (0.4 kg) is suspended over a well by a winch and...
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A light, flexible rope is wrapped several times around a hollow cylinder with a weight of...
A light, flexible rope is wrapped several times around a hollow cylinder with a weight of 40.0 Nand a radius of 0.25 m, that rotates without friction about a fixed horizontal axis. The cylinder is attached to the axle by spokes of a negligible moment of inertia. The cylinder is initially at rest. The free end of the rope is pulled with a constant force P for a distance of 5.00 m, at which point the end of the rope...
please show all your work
SECTION 3 - Newtonian Dynamics 3 (a) A rope (that can be considered massless) is wrapped around a horizontal cylinder of mass M and radius R. The cylinder is free to rotate, and a mass m is hanging on the end of the rope as shown in the diagram. When the mass is released, it falls under the effect of gravity. Show that the downward acceleration a of the hanging mass is: 1 + M/2m...
A device is made of a wheel with an inner drum and is mounted on a frictionless axle so it does not translate but can rotate about its centre. As indicated in the figure, this device is used to lift a 30.0 kg box. The outer radius R of the device is 0.500 m and the radius of the inner drum is 0.200 m. A constant horizontal force F of magnitude 140 N is applied horizontally, as shown, to a...
A bucket of mass m (0.4 kg) is suspended over a well by a winch and Pope. The WINCH consists of a solid cylinder with mass M (1 kg) and radius R (0.1 m) about which the rope is wrapped. A handle is attached to one end in order to rotate the cylinder. Suppose that the winch's handle breaks off, allowing the bucket to fall as the rope unwinds from the cylinder. magine that the bucket fell 2 m. i....
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