A man is slipping on a frictions inclined plane & a bag falls down from the same height. Then the speed of both is related as:

A man is slipping on a frictionless inclined plane and a bag falls down from the same height. Then the velocity of both is related as ( V_(B)= velocity of bag and V_(m)= velocity of man)

A person slides freely down a frictionless inclined plane while his bag falls down vertically from the same height. The final speed of man (v_(m)) and the bag (v_(B)) should be such that

A solid cylinder at rest at top of an inclined plane of height 2.7 m, rolls down without slipping. If the same cylinder has to slide down a frictionless inclined plane and acquire the same velocity as that acquired by centre of mass of rolling cylinder, at the bottom of inclined plane, the height of the inclined plane should be

A solid cylinder at rest at top of an inclined plane of height 2.7 m rolls down without slipping. If the same cylinder has to slide down a frictionless inclined plane and acquires the same velocity as that acquired by centre of mass of rolling cylinder at the bottom of the incline, what should be the height of the inclined plane?

A solid cylinder at rest at top of an inclined plane of height 2.7 m rolls down without slipping. If the same cylinder has to slide down a frictionless inclined plane and acquires the same velocity as that acquired by centre of mass of rolling cylinder at the bottom of the incline, what should be the height of inclined plane?

A cylinder and a ring of same mass M and radius R are placed on the top of a rough inclined plane of inclination theta . Both are released simultaneously from the same height h. When these bodies roll down to the foot of the inclined plane, then

A and B are two solid spheres of equal masses. A rolls down an inclined plane without slipping from a height H . B falls vertically from the same height. Then on reaching the ground.

A block of mass m takes time t to slide down on a smooth inclined plane of angle of inclination theta and height h. If same block slids down on a rough inclined plane of same angle of inclination and same height and takes time n times of initial value, then coefficient friction between block and inclined plane is

A block of mass m takes time t to slide down on a smooth inclined plane of angle of inclination theta and height h. If same block slids down on a rough inclined plane of same angle of inclination and same height and takes time n times of initial value, then coefficient friction between block and inclined plane is