MY NOTES ASK YOUR TEACHER A bicycle wheel in the shape of a hoop has a...

A bicycle wheel in the shape of a hoop has a diameter of 1.00 m and...

A bicycle wheel in the shape of a hoop has a diameter of 1.00 m and a weight of 37.0 N. The bicycle is placed on a stationary stand. The wheel starts rotating from rest with a constant angular acceleration of 2.20 rad/s2. Consider a dust particle stuck on the rim of the wheel. (a) At t = 0.710 s, determine the magnitude of the centripetal acceleration of the dust particle. m/s2 (b) At t = 0.710 s, determine the...

During a testing process, a worker in a factory mounts a bicycle wheel on a stationary...

During a testing process, a worker in a factory mounts a bicycle wheel on a stationary stand and applies a tangential resistive force of 115 N to the tire's rim. The mass of the wheel is 1.40 kg and, for the purpose of this problem, assume that all of this mass is concentrated on the outside radius of the wheel. The diameter of the wheel is 55.0 cm. A chain passes over a sprocket that has a diameter of 9.25...

A bicycle wheel has a diameter of 64.2 cm and a mass of 1.82 kg. Assume...

A bicycle wheel has a diameter of 64.2 cm and a mass of 1.82 kg. Assume that the wheel is a hoop with all of the mass concentrated on the outside radius. The bicycle is placed on a stationary stand and a resistive force of 116 N is applied tangent to the rim of the tire. (a) What force must be applied by a chain passing over a 9.04-cm-diameter sprocket in order to give the wheel an acceleration of 4.56...

A bicycle wheel has a diameter of 63.4 cm and a mass of 1.83 kg. Assume...

A bicycle wheel has a diameter of 63.4 cm and a mass of 1.83 kg. Assume that the wheel is a hoop with all of the mass concentrated on the outside radius. The bicycle is placed on a stationary stand and a resistive force of 121 N is applied tangent to the rim of the tire. (a) What force must be applied by a chain passing over a 8.95-cm-diameter sprocket in order to give the wheel an acceleration of 4.51...

A child pushes her friend (m = 25 kg) located at a radius r = 1.5...

A child pushes her friend (m = 25 kg) located at a radius r = 1.5 m on a merry-go-round (rmgr = 2.0 m, Imgr = 1000 kg*m2) with a constant force F = 90 N applied tangentially to the edge of the merry-go-round (i.e., the force is perpendicular to the radius). The merry-go-round resists spinning with a frictional force of f = 10 N acting at a radius of 1 m and a frictional torque τ = 15 N*m...