Moment of inertia of a wheel is 0.004 kg.`m^(2)`. If its number of revolutions is increased from 60 rpm to 150 rpm in 3 s, determine the magnitude of the torque acting on it.

Moment of inertia of a plate,is 40 kgm^2 . How much work to be done to change its angular velocity from 60 rpm to 150 rpm.

A wheel completes 400 revolutions in 1 minute. Its speed is increased to 600 rpm in 4 s. Determine the angular acceleration .

A wheel completes 400 revolutions in 1 minute. Its speed is increased to 600 rpm in 4 s. Determine The number of revolutions completed by the wheel in that time.

The time period of a simple pendulum is 1.96 s. Its time period increases by 0.1 s when its length is increased by 10 cm. From this observation, determine the value of the acceleration due to gravity.

The moment of inertia of a disc is 5 xx 10(-4) kg.m^(2) . It is rotating freely about a vertical axis passing through its centre at a speed of 40 rpm. A piece of wax of mass 20 g is attached at a distance of 8 cm from its centre. Calculate its new speed.

Energy of 484 J is spent in increasing the speed of flywheel from 60 rpm to 360 rpm. Find M.O.I. of the wheel.

A wheel of mass 5 kg and radius 0.4 m is rolling on a road without sliding with angular velocity 10 rad. s^(-1) . The moment of inertia of the wheel about the axis of rotation is 0.65 kg . m^(2) . What is the percentage of the kinetic energy of rotation in the total kinetic energy of the wheel ?

The moment of inertia of a disc of radius 5 cm is 0.02 "kg.m"^(2) . A tangential force of 20 N is applied along the circumference of the disc. The angular acceleration of the disc will be ( in unit rad .s^(-2) )