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2. A solid disk (M- 2.3 kg and R 12 cm) has a string wrapped around...
A solid, 3.00-kg disk has a string wrapped around its circumference as shown below. The string...
A solid, 3.00-kg disk has a string
wrapped around its circumference as shown below. The string is
attached to the ceiling. When the disk is released, it accelerates
downward as the string unrolls. The disk has a radius of 20.0 cm.
What will be the linear velocity of its center of mass after it
falls through a distance of 3.00 meters? (Note: not all the
information given is needed.) Ignore friction.
Ans: 6.26 m/s
A string is wrapped around a disk of mass m = 1.8 kg and radius R...
A string is wrapped around a disk of mass m = 1.8 kg and radius R = 0.10 m. Starting from rest, you pull the string with a constant force F = 7 N along a nearly frictionless surface. At the instant when the center of the disk has moved a distance x = 0.14 m, your hand has moved a distance of d = 0.33 m. Two pucks, one pulled from the center, the other by a string wrapped...
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 string is wrapped around a uniform disk of mass M = 2.2 kg and radius R = 0.1 m. (Recall that the moment of inertia of a uniform disk is (1/2) MR2.)
A string is wrapped around a uniform disk of mass M = 2.2 kg and radius R = 0.1 m. (Recall that the moment of inertia of a uniform disk is (1/2) MR2.) Attached to the disk are four low-mass rods of radius b = 0.13 m, each with a small mass m = 0.7 kg at the end. The device is initially at rest on a nearly frictionless surface. Then you pull the string with a constant force F...
A thin light string is wrapped around a solid uniform disk of mass M and radius...
A thin light string is wrapped around a solid uniform disk of mass M and radius R, mounted as shown. The loose end of the string is attached to the axle of a solid uniform disc of mass m and the same radius r which is can roll down without slipping down an inclined plane that makes angle θ with the horizontal. Find the acceleration a of the rolling disc. Neglect friction in the axle of the pulley. a =...
A solid sphere has a 0.8 m long string wrapped around it. The free-end of the...
A solid sphere has a 0.8 m long string wrapped around it. The free-end of the string is held and the solid sphere is released thus unwinding the string as it falls. Determine how fast the solid sphere will be going at the moment the string is completely unwound assuming no thermal energy is generated. String Blocks & a pulley In the diagram below the red block has a mass of 9 kg, the blue block has a mass of...
1. A 1.00 kg mass is attached to a string wrapped around a solid shaft that...
1. A 1.00 kg mass is attached to a string wrapped around a solid shaft that has a mass of 0.75 kg with a radius of 6.0 cm as shown in the figure below. A dumbbell flywheel made from two 0.5 kg masses is attached to one end of the shaft and perpendicular to its axis and the arm connecting the two masses together does not have mass. The hanging mass is released from rest and allowed to fall 1.0...
A string is wrapped around a pulley of mass M, radius R, and moment of inertial....
A string is wrapped around a pulley of mass M, radius R, and moment of inertial. The string is attached to a mass m; the mass m is then released. Treat the pulley as if it were a uniform disk (a) Find the acceleration of the mass m as it falls. (b) How would your answer to part (a) above change if we ignore the motion of the pulley (effectively setting the mass M -0)? m
A weight of mass 1.03 kg is suspended by a string wrapped around a pulley wheel,...
A weight of mass 1.03 kg is suspended by a string wrapped around a pulley wheel, which consists of a solid disk of mass 4.96 kg and radius 1.37 m. The system is released from rest. Over what vertical distance does the hanging mass move in 3.0 seconds?
A weight of mass 1.66 kg is suspended by a string wrapped around a pulley wheel,...
A weight of mass 1.66 kg is suspended by a string wrapped around a pulley wheel, which consists of a solid disk of mass 4.03 kg and radius 0.603 m. The system is released from rest. Over what vertical distance does the hanging mass move in 3.0 seconds? Ignore friction and drag forces, and assume that the string does not slip.
A solid, 3.00-kg disk has a string
wrapped around its circumference as shown below. The string is
attached to the ceiling. When the disk is released, it accelerates
downward as the string unrolls. The disk has a radius of 20.0 cm.
What will be the linear velocity of its center of mass after it
falls through a distance of 3.00 meters? (Note: not all the
information given is needed.) Ignore friction.
Ans: 6.26 m/s
A solid sphere has a 0.8 m long string wrapped around it. The free-end of the string is held and the solid sphere is released thus unwinding the string as it falls. Determine how fast the solid sphere will be going at the moment the string is completely unwound assuming no thermal energy is generated. String Blocks & a pulley In the diagram below the red block has a mass of 9 kg, the blue block has a mass of...
1. A 1.00 kg mass is attached to a string wrapped around a solid shaft that has a mass of 0.75 kg with a radius of 6.0 cm as shown in the figure below. A dumbbell flywheel made from two 0.5 kg masses is attached to one end of the shaft and perpendicular to its axis and the arm connecting the two masses together does not have mass. The hanging mass is released from rest and allowed to fall 1.0...
A string is wrapped around a pulley of mass M, radius R, and moment of inertial. The string is attached to a mass m; the mass m is then released. Treat the pulley as if it were a uniform disk (a) Find the acceleration of the mass m as it falls. (b) How would your answer to part (a) above change if we ignore the motion of the pulley (effectively setting the mass M -0)? m
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