Starting at rest, a solid uniform wheel with R=5.00 m and m=4.10 kg is turning through...

A 0.60 m radius wheel starting from rest rotates through an angle θ. If it is...

A 0.60 m radius wheel starting from rest rotates through an angle θ. If it is accelerating at a constant angular acceleration of 2.40 rad/s2, determine      (a) the angular velocity in rad/s of the wheel at the end of a 5.00 second interval.      (b) how many revolutions has the wheel rotated by the end of the 5.00 second interval.

A uniform solid sphere of radius r = 0.410 m and mass m = 13.0 kg turns clockwise about a vertical axis through its center (when viewed from above),...

A uniform solid sphere of radius r = 0.410 m and mass m = 13.0 kg turns clockwise about a vertical axis through its center (when viewed from above), at an angular speed of 3.20 rad/s. What is its vector angular momentum about this axis? (Enter the magnitude in kg · m2/s.) magnitude ? direction?

A solid cylinder of radius 0.5 m and mass 5.0 kg, initially at rest, starts to...

A solid cylinder of radius 0.5 m and mass 5.0 kg, initially at rest, starts to rotate about an axis through its center, with an angular acceleration of 0.2 rad/s^2. (a) Assuming a piece of string is wrapped around the cylinder, in such a way that the turning cylinder pulls the string onto itself, what is the total length of string wrapped on the cylinder at t= 10s? (b) What is the linear acceleration of a knot in the string...

A wheel starts from rest and rotates about its axis with constant angular acceleration. After 5.7...

A wheel starts from rest and rotates about its axis with constant angular acceleration. After 5.7 s have elapsed, it has rotated through an angle of 20 radians. What is the angular acceleration of the wheel? What is the angular velocity when the time t = 5.7 s? What is the centripetal acceleration of a point on the wheel a distance r = 0.35 m from the axis at t = 5.7 s?

A uniform-density wheel of mass 8 kg and radius 0.42 m rotates on a low-friction axle....

A uniform-density wheel of mass 8 kg and radius 0.42 m rotates on a low-friction axle. Starting from rest, a string wrapped around the edge exerts a constant force of 14 N for 0.84 s. (a) What is the final angular speed? (a) ωf = radians/s (b) What was the average angular speed? ωaverage = radians/s (c) Through how big an angle did the wheel turn? θ = radians (d) How much string came off the wheel? d = m

At a time t = 2.90 s , a point on the rim of a wheel...

At a time t = 2.90 s , a point on the rim of a wheel with a radius of 0.180 m has a tangential speed of 55.0 m/s as the wheel slows down with a tangential acceleration of constant magnitude 10.8 m/s^2 . A) Calculate the wheel's constant angular acceleration. B) Calculate the angular velocity at t = 2.90 s . C) Calculate the angular velocity at t=0. D) Through what angle did the wheel turn between t=0 and...

A solid uniform disk of mass M = 9.6 kg and radius R = 21 cm...

A solid uniform disk of mass M = 9.6 kg and radius R = 21 cm rests with its flat surface on a frictionless table (i.e., the axis of the cylinder is perpendicular to the table.) The diagram shows a top view. A string is wrapped around the rim of the disk and a constant force of F = 10.8 N is applied to the string. The string does not slip on the rim. 1) What is the acceleration of...

At a time t = 3.10 s , a point on the rim of a wheel...

At a time t = 3.10 s , a point on the rim of a wheel with a radius of 0.210 m has a tangential speed of 51.0 m/s as the wheel slows down with a tangential acceleration of constant magnitude 10.6 m/s2 . Calculate the wheel's constant angular acceleration.  rad/s^2   Calculate the angular velocity at t = 3.10 s. rad/s Calculate the angular velocity at t=0. rad/s Through what angle did the wheel turn between t=0 and t = 3.10...

A small, solid cylinder with mass = 20 kg and radius = 0.10 m starts from...

A small, solid cylinder with mass = 20 kg and radius = 0.10 m starts from rest and rotates without friction about a fixed axis through its center of mass. A string is wrapped around the circumference of the cylinder and pulled using a constant force F. The resulting angular acceleration of the cylinder is 5.0 rad/s2. What's the angular velocity after 4.0 s, in radians per second? (The moment of inertia of the cylinder is 1 half M R...

A 2.00 kg grinding wheel is in the form of a solid cylinder of radius 0.130...

A 2.00 kg grinding wheel is in the form of a solid cylinder of radius 0.130 m . A-What constant torque will bring it from rest to an angular speed of 1000 rev/min in 2.90 s ? B-Through what angle has it turned during that time? C-Through what angle has it turned during that time? Use equation W=τz(θ2−θ1)=τzΔθ to calculate the work done by the torque. D-What is the grinding wheel's kinetic energy when it is rotating at 1000 rev/min...