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 60rpm about this axis. The torque which can stop the wheel's rotation in one minute would be

A wheel having moment of inertia 2kgm^(2) about its vertical axis, rotates at the rate of 60 rpm about the axis. The torque which can stop the wheel.s rotation in one minute would be……………

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 2 "kg-m"^(2) about its vertical axis, rotates at the rate of 60 rpm about this axis. The torque which can stop the wheel's rotation in one minute would be

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

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

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.