A ring, disc, spherical shell and solid sphere of same mass and radius are rolling on a horizontal surface without slipping with same velocity. If they move up an inclined plane, which can reach to a maximum height on the inclined plane?

A disc of radius R and mass M is rolling horizontally without slipping with speed with speed v . It then moves up an incline as shown in figure. The maximum height upto which it can reach is. .

A solid sphere of mass M and radius R, rolling down a smooth inclined plane, without slipping, reaches the bottom with a velocity v. What is the height of the inclined plane in terms of the velocity v ?

If a ring, disc, hollow sphere and solid sphere rolling horizontally without slipping with the same velocity on a surface, then translational kinetic energy is more for

A solid sphere and a ring of same radius roll down an inclined plane without slipping . Both start from rest from the top of the inclined plane. If the sphere and the ring reach the bottom of the inclined plane with velocities v_s and v_r repectively. , then (v_r^2)/(v_s^2) is

Three bodies a disc, a ring, a solid sphere of same radius, same mass are rolling down the same inclined plane without slipping. Which of three will reach the ground with minimum velocity ?

A ring, a solid cylinder and sphere are rolled down on an inclined plane without slipping. Velocity of centre of mass is

A ring, disc, hollow sphere and solid sphere roll on a horizontal surface with the same linear speed. If they have same mass and radius and move without slipping, rotational kinetic energy is more for

A disc and a solid sphere of same mass and radius roll down an inclined plane. The ratio of thhe friction force acting on the disc and sphere is