A grindstone of moment of inertia `6 kg m^(2)` is found to have a speed of `150` rpm, `10 sec`. After starting from rest. Torque applied is

A grindstone has a moment of inertia of 50 kg m^(2) . A constant couple is applied and the grindstome is found to have a speed of 150 rpm 10 s after starting from rest. Calculate the torque applied.

A grindstone Is found to have a angular speed of 150 rpm, 10s after starting from rest. The angular acceleration of the grindstone is

A grindstone has moment of inertia of 6 kg m^(2) . A constant torque is applied and the grindstone is found to have a speed of 150 rpm, 10 second after satrting from rest. Calculate the torque.

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 :

A flywheel of moment of inertia 5.0kg-m^(2) is rotated at a speed of 10rad//s because of the friction at the axis it comes to rest in 10s. Find the average torque of the friction.

A flywheel of moment of inertia 5.0kg-m^(2) is rotated at a speed of 10rad//s because of the friction at the axis it comes to rest in 10s. Find the average torque of the friction.

A uniform disc of moment of inertia 1 kg m^2 rotates with a speed of 120 rpm, Calculate the torque required to stop the disc in 10 revolutions ?

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

A flywheel has a mass 200 kg and radius of gyration 0.6 m. It is given an angular speed of 150 rpm in 90 rotations starting from rest. Determine the torque assuming it to be constant that acted on the flywheel.