A flywheel rotates at a constant speed of 3000 r.p.m. The angle described by the shaft in one second is

A wheel rotates with a constant angular velocity of 300 rpm. The angle through which the wheel rotates in 1 s is.

A flywheel is rotating at an angular speed of 150 rpm. If the moment of inertia of the flywheel somehow decreases from 10kgm^(2) to 4kgm^(2) , then what will be the new angular speed of the flywheel?

If a particle is moving in a circular path of radius 'r' with a uniform speed v, then the angle described by it in one second will be

A wheel rotates with a constant angular velocity of 600 rpm. What is the angle through which the wheel rotates in 1s?

A flywheel rotating at a speed of 600 rpm about its axis is brough to rest by applying a constant torque for 10 seconds. Find the angular deceleration and angular velocity 5 second after the application of the torque.

A wheel of moment of inertia 0.10 kg-m^2 is rotating about a shaft at an angular speed o 160 rev/minute. A second wheel is set into rotation at 300 rev/minute and is coupled to the same shaft so that both the wheels finally rotate with as common angular speed of 200 rev/minute. Find the moment of inertia o the second wheel.

A flywheel rotating at 420 rpm slows down at a constant rate of 2 rad s^-2 The time required to stop the flywheel is.

A flywheel of moment of inertia 2 "kg-m"^(2) is rotated at a speed of 30 "rad/s" . A tangential force at the rim stops the wheel in 15 second. Average torque of the force is