A wheel having moment of inertia 4 kg `m^(2)` about its axis, rotates at rate of 240 rpm about it. The torque which can stop the rotation of the wheel in one minute is :-

A wheel having moment of inertia 2 kg m^(2) about its vertical axis, rotates at the rate of 60 rom about this axis. The torque which can stop the wheel's rotation in one minuted woould be

A wheel having moment of inertia 12 kg m^(2) about its axis, rotates at 50 rpm about this axis.Then the torque that can stop the wheel in one minute is in (SI units) is (pi)/(N) .Then the value of N is ?

A wheel having moment of inertia 2 kig m^2 about its xis, rotates at 50 rpm about this axis. Find the torque that can stop the wheel in one minute.

A wheel having moment of interia 2 kgm^(-2) about its axis, rotates at 50 rpm about this axis. The angular retardation that can stop the wheel in one minute is

A wheel of mass 10 kg has a moment of inertia of 160 kg-m^(2) about its own axis, the radius of gyration will be

Two wheels, each of moment of intertia 4 kg. m^(2) , rotate side by side at the rate of 120 rpm and 240 rpm in opposite directions. If both the wheels are coupled by a light shaft so that they now rotate with a com on angular speed, find this new rate of rotation.

Two wheels A and B are mounted on 6 kg m^(2) the same shaft. One of them having their moment of inertia 8 kg m^(2) with the angular speed 600 rpm and other is at rest. The value of moment of intertia of another wheel in order to achive the combined angular speed 300 rpm is