A heavy disk, free to rotate on its axis, is mounted in a light framework. If...

A uniform rod of mass 190 g and length 100 cm is free to rotate in...

A uniform rod of mass 190 g and length 100 cm is free to rotate in a horizontal plane around a fixed vertical axis through its center, perpendicular to its length. Two small beads, each of mass 18 g, are mounted in grooves along the rod. Initially, the two beads are held by catches on opposite sides of the rod's center, 18 cm from the axis of rotation. With the beads in this position, the rod is rotating with an...

A uniform rod of mass 250 g and length 75 cm is free to rotate in...

A uniform rod of mass 250 g and length 75 cm is free to rotate in a horizontal plane around a fixed vertical axis through its center, perpendicular to its length. Two small beads, each of mass 25 g, are mounted in grooves along the rod. Initially, the two beads are held by catches on opposite sides of the rod’s center, 9 cm from the axis of rotation. With the beads in this position, the rod is rotating with an...

A wheel (disk) of radius 0.2 m and mass 1 kg are mounted on a frictionless...

A wheel (disk) of radius 0.2 m and mass 1 kg are mounted on a frictionless horizontal axis. A massless cord is wrapped around the wheel and attached to a 2 kg object that slides on a frictionless surface inclined at an angle of 60 degrees with the horizontal. What is the acceleration of the block as well as the angular acceleration of the wheel about its axis of rotation? Answer: 6.93 m/s^2, 34.64 rad/s^2

A uniform disk of radius 0.529 m and unknown mass is constrained to rotate about a...

A uniform disk of radius 0.529 m and unknown mass is constrained to rotate about a perpendicular axis through its center. A ring with same mass as the disk\'s is attached around the disk\'s rim. A tangential force of 0.223 N applied at the rim causes an angular acceleration of 0.103 rad/s2. Find the mass of the disk.

A uniform solid disk is mounted on an axle n such a way that it is...

A uniform solid disk is mounted on an axle n such a way that it is free to rotate about a horizontal axis. The radius of the disk is 0.450 m and its mass is 27.0 kg. As shown in the diagram, two forces F1 = 84.0 N and F2 = 130 N applied to the disk sets the disk rotating with a constant angular acceleration. Assume the axle is frictionless (a) Calculate the magnitude and direction of the net...

A solid cylindrical disk has a radius of 0.19 m. It is mounted to an axle...

A solid cylindrical disk has a radius of 0.19 m. It is mounted to an axle that is perpendicular to the circular end of the disk at its center. When a 40-N force is applied tangentially to the disk, perpendicular to the radius, the disk acquires an angular acceleration of 110 rad/s2. What is the mass of the disk? kg

A flat uniform circular disk (radius = 3.00 m, mass = 1.00 ✕ 102 kg) is...

A flat uniform circular disk (radius = 3.00 m, mass = 1.00 ✕ 102 kg) is initially stationary. The disk is free to rotate in the horizontal plane about a frictionless axis perpendicular to the center of the disk. A 50.0 kg person, standing 1.75 m from the axis, begins to run on the disk in a circular path and has a tangential speed of 2.60 m/s relative to the ground. Find the resulting angular speed of the disk (in...

A 55kg runner runs around the edge of a horizontal turntable mounted on a vertical frictionless...

A 55kg runner runs around the edge of a horizontal turntable mounted on a vertical frictionless axis through its center. The runners velocity relative to the earth has a magnitude 2.8 m/s The turntable is rotating in the opposite direction with an angular velocity of magnitude 0.2 rad/s relative to the earth The radius of the turntable is 3.0 m and the moment of inertial about the axis of rotation is 85 kg/m^2 find the angular velocity of the turntable...

A flat uniform circular disk (radius = 5.44 m, mass = 320 kg) is initially stationary....

A flat uniform circular disk (radius = 5.44 m, mass = 320 kg) is initially stationary. The disk is free to rotate in the horizontal plane about a frictionless axis perpendicular to the center of the disk. A 66.4-kg person, standing 2.40 m from the axis, begins to run on the disk in a circular path and has a tangential speed of 2.97 m/s relative to the ground. Find the magnitude of the resulting angular speed (in rad/s) of the...

A lazy Susan consists of a heavy plastic disk mounted on a frictionless bearing resting on...

A lazy Susan consists of a heavy plastic disk mounted on a frictionless bearing resting on a vertical shaft through its center. The cylinder has a radius R = 10 cm and mass M = 0.31 kg. A cockroach (mass m = 0.015 kg) is on the lazy Susan, at a distance of 10 cm from the center. Both the cockroach and the lazy Susan are initially at rest. The cockroach then walks along a circular path concentric with the...