8 kg wheel has radius of gyration (1/4) m. The torque required to give it an angular acceleration of `4 rad/s^2`, is

If a wheel has mass 70 kg and radius of gyration 1 m, then the torque required for an angular acceleration of 2 rev/s^2 will be

Calculate the force required to produce an | acceleration of 0.2 m/s^(2) in a body of mass 10 kg.

A disc of radius 0.1 m starts from rest with an angular acceleration of 4.4 rad//s^2 . Then linear velocity of the point on its circumference after 5 s is

A solid sphere of mass 2 kg and radius 5 cm is rotating at the rate of 300 rpm. The torque required to stop it in 2pi revolutions is

A torque of 100 Nm acting on a wheel at rest, rotatesit through 200 radiansin10 s.The angular acceleration of the wheel, in rad/s^2 is

Initial angular velocity of a wheel is 2 rad/s. It rotates with a constant angular acceleration of 3.5 rad//s^2 . Its angular displacement in 2 s is

A body of mass 'm' and radius of gyration 'K' is rotating with angular acceleration a. Then the torque acting on the body is

A body of mass 'm' and radius of gyration 'K' is rotating with angular acceleration alpha . Then, the torque acting on the body is:

The moment of inertia of flywheel is 4 kg m^2 . If a torque of 10 Nm is applied on it, then the angular acceleration produced will be

A flywheel of mass 4 kg has radius of gyration 0.4 m. Calculate the kinetic energy of rotation when it makes 5 r.p.s