A disk with rotational inertia of I = 7.3 kg.m² and radius r = 32 cm, is initially at rest, but is free to rotate about a fixed, frictionless axis, which is perpendicular to the disk and passes through its center . A force of F = 2 N is applied in a tangential direction to the edge of the disk and this action causes it to come out of its rest state. After it has turned half a revolution, what is the value of its angular speed? Note: The force is always kept tangential to the edge and with the same magnitude. a) w=0.5509 rad/s b) w=0.7422 rad/s c) w=0.5509 rad/s d) w = 0.7422 rad/s

A disk with rotational inertia of I = 7.3 kg.m² and radius r = 32 cm, is initially at rest, but is free to rotate about a fixed, frictionless axis, which is perpendicular to the disk and passes through its center . A force of F = 2 N is applied in a tangential direction to the edge of the disk and this action causes it to come out of its rest state. After it has turned half a revolution, what is the value of its angular speed? Note: The force is always kept tangential to the edge and with the same magnitude. a) w=0.5509 rad/s b) w=0.7422 rad/s c) w=0.5509 rad/s d) w = 0.7422 rad/s

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

A circular disc of mass M and radius R is rotating about its axis with angular speed ω1 . If another stationary disc having radius R/2 and same mass M is droped co-axially on to the rotating disc. Gradually both discs attain constant angular speed ω2. The energy lost in the process is p% of the initial energy. Value of p is
The figure shows three 0.0179 kg particles that have been glued to a rod of length L=6.40 cm and negligible mass. The assembly can rotate around a perpendicular axis through point O at the left end. If we remove one particle (that is, 33% of the mass), by what percentage does the rotational inertia of the assembly around the rotation axis decrease when that removed particle is (a) the innermost one and (b) the outermost one? Axis m m m (a) Number i 64.3 Units (b) Number i Units >
A merry-go-round of radius R = 2.6 m has a moment of inertia I = 223 kg × m2, and is rotating at 10 rpm. A child whose mass is 44 kg jumps onto the edge of the merry-go-round with a speed of 4.5 m/s in a direction tangential to the rim of the MGR, and in the direction in which it is spinning. The new angular speed (in rpm) of the merry-go-round is approximately
The figure shows three 0.0172 kg particles that have been glued to a rod of length L=6.24 cm and negligible mass. The assembly can rotate around a perpendicular axis through point O at the left end. If we remove one particle (that is, 33% of the mass), by what percentage does the rotational inertia of the assembly around the rotation axis decrease when that removed particle is (a) the innermost one and (b) the outermost one? (a) Number i (b) Number Axis Units Units |--d- m d m -d m
A sphere of mass 1.0 kg and radius 0.5 m is attached to the end of a massless rod of length 3.0 m. The rod rotates about an axis that is at the opposite end of the sphere (see below). The system rotates horizontally about the axis at a constant 400 rev/min. After rotating at this angular speed in a vacuum, air resistance is introduced and provides a force 0.15 N on the sphere opposite to the direction of motion. What is the power provided by air resistance to the system 100.0 s after air resistance is introduced?
A circular disc of mass M and radius R is rotating about its axis with angular speed ω1 . If another stationary disc having radius R/2 and same mass M is droped co-axially on to the rotating disc. Gradually both discs attain constant angular speed ω2. The energy lost in the process is p% of the initial energy. Value of p is
Conceptual Example 14 provides useful background for this problem. A playground carousel is free to rotate about its center on frictionless bearings, and air resistance is negligible. The carousel itself (without riders) has a moment of inertia of 110 kg-m2. When one person is standing at a distance of 1.71 m from the center, the carousel has an angular velocity of 0.644 rad/s. However, as this person moves inward to a point located 0.641 m from the center, the angular velocity increases to 0.832 rad/s. What is the person's mass? | | Number i Units
Frictional torque causes a disk to decelerate from an angular speed of 4.10 rad/s at t = 0 to 1.30 rad/s at t = 4.70 s. The equation describing the angular speed of the wheel during this time interval is given by d? dt = ω0e−bt, where b and ω0 are constants. (a) What are the values of b and ω0 during this time interval? b = s−1 ω0 = rad/s (b) What is the magnitude of the angular acceleration of the disk at t = 4.70 s? rad/s2(c) How many revolutions does the disk make during the interval t = 0 to t = 4.70 s? rev
A turntable (disk) of radius r = 27.0 cm and rotational inertia 0.440 kg · m2 rotates with an angular speed of 2.98 rad/s around a frictionless, vertical axle. A wad of clay of mass m = 0.242 kg drops onto and sticks to the edge of the turntable. What is the new angular speed of the turntable? (A) _______ rad/s
A sufficiently long platform of mass m rests on frictionless ground. A cylinder of mass m and radius R = 2 (m) rotating around its center of mass at an angular velocity w = 50 (rad/s) is slowly dropped onto the platform at t =0. The coefficient of friction between the cylinder and the platform is u = 0.2. After how many seconds does the cylinder start to roll without slipping? Iem =;mR?, g = 10 (m/s²) m R m
A girl of mass 31.8 kg stands on the rim of a frictionless merry-go-round of radius 1.63 m and rotational inertia 313 kg-m2 that is not moving. She throws a rock of mass 948 g horizontally in a direction that is tangent to the outer edge of the merry-go-round. The speed of the rock, relative to the ground, is 3.26 m/s. Afterward, what are (a) the angular speed of the merry-go-round and (b) the linear speed of the girl? (a) Number i Units (b) Number i Units
Conceptual Example 14 provides useful background for this problem. A playground carousel is free to rotate about its center on frictionless bearings, and air resistance is negligible. The carousel itself (without riders) has a moment of inertia of 125 kg-m². When one person is standing on the carousel at a distance of 1.50 m from the center, the carousel has an angular velocity of 0.600 rad/s. However, as this person moves inward to a point located 0.917 m from the center, the angular velocity increases to 0.800 rad/s. What is the porcon's marr?