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 disc of mass 2 kg and diameter 40 cm isfree to rotate about an axis passing through its center and perpendicular to its plane.If a force of 50 N is applied to the disc tangentially its angular acceleration will be

A fly wheel revolves at 100 rev//min , a torque is applied to the flywheel for 10s. If the torque increases the speed to 200 rev//min , then the angular acceleration of the fly wheel will be

A flywheel revolves at 100 rev/min, a torque is applied to the flywheel for 10 s if thetorque increases the speed to 200 rev/min, then the angular acceleration of the flywheel will be

Moment of inertia of a disc about the axis of rotation is 10 kgm^2 . A constant torque of 50 Nm acts on it. Find :Angular acceleration .

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

A disc of radius 10 cm can rotate about an axis passing through its centre and perpendicular to its plane. A force of 10 N is applied along the tangent in the plane of the disc. If the moment of inertia of the disc about its centre is 5 kg m2, then the increase in the angular velocity of the disc in 10 s will be

A torque of 2000 Nm acting on a body produces an angular acceleration 2 rad/s^2 . Find thr M.I of body.

Moment of inertia of a disc about the axis of rotation is 10 kgm^2 . A constant torque of 50 Nm acts on it. Find :Angular velocity at the end of 10s, if the disc is initially at rest.

The product of moment of inertia (I) and angular acceleration (alpha) is called

A disc of moment of inertia 2 kg m^2 is acted upon by a constant torque of 40 Nm. If it is initially at rest, then the time taken by it to acquire an angular velocity 100 rad/s will be