A constant torque of `1000 N-m` turns a wheel of moment of inertia `200 kg-m^2` about an axis through its centre. Its angular velocity after `3` seconds is.

A constant torque of 400Nm turns a wheel of moment of inertia 100kg m^(2) about an axis through its centre. The angular velocity gained in 4 second is

A constant torque of 200 Nm turns a wheel of moment of inertia 50 kg m^(2) about an axis through its centre. The angualr velocity 2 sec after staring form rest (in rad/sec) would be :

If a constant torque of 500 Nm turns a wheel of moment of inertia 100 kg m^(2) about an axis through its centre, find the gain in angular velocity in 2s.

If a constant torque of 500 N-m turns a wheel of moment of inertia 100 kg m^(2) about an axis passing through its centre, find the gain in angular velocity in 2 s .

A costant torque of 400 N turns a flywheel at rest and of "M.I. 100 kgm"^(2) about an axis through its centre. What is the change in its angular velocity in 4 s?

A torque of 30 N-m is acting on a wheel of mass 5 kg and moment of inertia 2 kg-m​^(2) ​. If wheel starts rotating from rest then its angular displacement in 10 seconds will be-

A diver having a moment of iertia of 6.0 kg-m^2 about an axis through its centre of mass rottes at an angular speed of 2 rad/s about this axis. If he folds his hands and feet to decrease the moment of inerti to 50.0 kg-m^2 what will be the new angular speed?

The moment of inertia of ring about an axis passing through its diameter is I . Then moment of inertia of that ring about an axis passing through its centre and perpendicular to its plane is