The angular frecuancy needed for a centrifugal to produce an acceleration of 1000 g rad/s^(2) at a radius arm of 10 cm ,is

The angular frecuancy needed for a centrifugal to produce an acceleration of 1000 g at a radius arm of 10 cm ,is

A torque of magnitude 500 Nm acts on a body of mass 16 kg and produces and angular acceleration of "20 rad/s"^(2) . The radius of gyration of the body is

A torque of magnitude 2000 Nm acting on a body produces an angular acceleration of 20" rad/s"^(2) , The moment of inertia of the body is

A torque of 2 newton-m produces an angular acceleration of 2 rad//sec^(2) a body. If its radius of gyration is 2m, its mass will be:

If a torque of magnitude 100 Nm acting on a rigid body produces an angular acceleration of 2 rad//s^(2) , then the moment of inertia of that body will be

The torque needed to produce an angular acceleration of 18rad/ "sec"^2 in a body of moment of inertia 2.5kg- m^2 would be -

A toraue of magnitude 4000 N-m, acts on a body of mass 2 kg. If the angular acceleration produced in the body is "20 rad/s"^(2) , then the radius of gyration of the body is

In a ring of mass 0.5 kg and radius sqrt(5) m, to produce angular acceleration of 18rad//s^(2) in this body, applied torque (in N-m) should be

The angular velocity of a wheel rotating with constant angular acceleration, changes from 2 rad/s to 6 rad/s in a time interval of 31.4 s. The number of rotations made by the wheel in this interval of time is

On a train moving with acceleration 10 m//s^(2) , a ball starts rolling on floor of train along the width of the train with angular acceleration 2 rad//s^(2) , radius of ball is 1m . Find the acceleration of the top point of ball at the time t=3s as seen from ground