A constant torque of 3.14 N.m is exerted on a pivoted wheel. If the angular acceleration of the wheel is `4pi"rad".s^(-2)`, then the moment of inertia of the wheel is

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 ?

A wheel is rotating 300 times per minute. The angular velocity of the wheel in rad cdot s^(-1) unit is

A disc of mass M and radius R is rolling without slipping down an inclined plane. Show that the acceleration of the centre of mass of the disc is (2)/(3) g sin theta . Given angle of inclination of the plane is theta and moment of inertia of the disc is (MR^(2))/(2) .

A disc of mass M and radius R is rolling without slipping down ay inclined plane. Show that the acceleration of the centre of mass of the disc is 2/3 g sin theta . Given, angle of inclination of the plane is theta and moment of inertia .of the disc is (MR^2)/2

If a cycle wheel of radius 4 m completes one revolution in two seconds, then acceleration of the cycle is.

A uniform circular disc of radius 50 cm at rest is free to turn about an axis which is perpendicular to its plane and passes through its centre. It is subjected to a torque which produces a constant angular acceleration of 2.0 rad/ s^(2) . Its net acceleration in m/ s^(2) at the end of 2.0 s is approximately