When a solid sphere rolls down on an inclined plane of inclination `30^@` to the horizontal without slipping, acceleration of its centre of mass is

A wooden box of mass 8kg slides down an inclined plane of inclination 30^(@) to the horizontal with a constant acceleration of 0.4ms^(-2) What is the force of friction between the box and inclined plane ? (g = 10m//s^(2)) .

A solid cylinder and a solid sphere roll down on the same inclined plane. Then ratio of their acclerations is

A solid sphere rolls without slipping down a 30^@ inclined plane. If g=10ms^-2 then the acceleration of the rolling sphere is

When a body starts to roll on an inclined plane, its potential energy is converted into

Two blocks of equal mass are released on two smooth sides of a duble inclined plane with a fixed base as shown in the figure. If each angle of inclination is 45^(@) , the acceleration of the centre of mass of the system of the two blocks is (Acceleration due to gravity =10" ms"^(-2) )

A solid cylinder of mass 0.1 kg having radius 0.2 m rolls down an inclined plane of height 0.6 m without slipping. The linear velocity of the cylinder at the bottom of the inclined plane is

A circular disc rolls down on an inclined plane. The fraction of its total rolling energy associated with its rotational energy is,

A sphere of moment of inertia I and mass 'm' rolls down on an inclined plane without slipping. Its K.E. of rolling is

A solid sphere rolls up a plane inclined at an angle of 45^@ . If the linear velocity of its centre of mass of the bottom of the plane is 5ms^-1 , find how far the sphere travels up the plane.

A body rolls down an inclined plane. If its kinetic energy of rotational motion is 40% of its kinetic energy of translation then the body is