Two identical cylinders roll from rest on two identical planes of slant lengths `s` and `2 s` but of the same height `h`. Then, the velocities, `v_1` and `v_2` acquired by the cylinders when they reach the bottom of the incline are related as.
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A solid cylinder rolls down from an inclined plane of height h. What is the velocity of the cylinder when it reaches at the bottom of the plane ?

A cylinder rolls down two different inclined planes of the same height but of different inclinations

A solid cylinder of mass M and radius R rolls down an inclined plane of height h. The angular velocity of the cylinder when it reaches the bottom of the plane will be :

A ring rolls down an inclined plane and acquires a velocity v upon reaching the bottom of the inclined plane. If another body rolls down from the same height over the same inclined plane and acquires a velocity sqrtfrac{6}{5}v upon reaching the bottom of the inclined plane, then that body is

Two cylinders, one hollow (metal) and the other solid (wood) with the same mass identical dimensions are simulataneously allowed to roll without slipping down an inclined plane from the same height. The hollow cylinder will reach the bottom of the inclined plane first. by the principle of conservation of energy, the total kinetic energies of both the cylinders are identical when they reach the bottom of the incline.