A small body A starts sliding from the height h down an inclined groove passing into a half-circle of radius `h//2` (figure).

Assuming the friction to be negligible, find the velocity of the body at the highest point of its trajectory (after breaking off the groove).

A body of mass m is released from a height h on a smooth inclined plane that is shown in the figure. The following can be true about the velocity of the block knowing that the wedge is fixed. .

A body of mass m is released from a height h on a smooth inclined plane that is shown in the figure. The following can be true about the velocity of the block knowing that the wedge is fixed. .

A small spherical ball is released from a point at a height h on a rough track shown in figure. Assuming that it does not slip anywhere, find its linear speed when it rolls on the horizontal part of the track.

A wedge of mass M = 2m rests on a smooth horizontal plane. A small block of mass m rests over it at left end A as shown in figure. A sharp impulse is applied on the block, due to which it starts moving to the right with velocity v_(0) = 6 ms^(-1) . At highest point of its trajectory, the block collides with a particle of same mass m moving vertically downwards with velocity v = 2 ms^(-1) and gets stuck with it. If the combined body lands at the end point A of body of mass M, calculate length l . Neglect friction (g = 10 ms^(-2)) .

A block of ice starts sliding down from the top of an inclined roof of a along a line of the greatest slope. The inclination of the roof with the horizontal is 30^(@) . The heights of the highest and lowerst points of the roof are 8.1 m and 5.6 m respectively.At what horizontal distance from the lowest point will the block hit the ground ? Neglect air friction . [g=9.8m//s^(2)] .

A body of mass M (figure) with a small disc of mass m placed on it rests on a smooth horizontal plane. The disc is set in motion in the horizontal direction with velocity v. To what height (relative to the initial level) will the disc rise after breaking off the body M? The friction is assumed to be absent.

A ball starts falling freely from a height h from a point on the inclined plane forming an angle alpha with the horizontal as shown. After collision with the incline it rebounds elastically off the plane. Then it again strikes the incline at

A bead is free to slide down a smooth wire tightly stretched between points A and on a verticle circle of radius R. if the bead starts from rest at 'A', the highest point on the circle, its velocity when it arrives at B is :-

A body is thrown with the velocity v_0 at an angle of theta to the horizontal. Determine v_0 "in" m s^-1 if the maximum height attained by the body is 5 m and at the highest point of its trajectory the radius of curvature is r = 3 m . Neglect air resistance. [Use sqrt(80)= 9] .

A body is thrown with the velocity v_0 at an angle of theta to the horizon. Determine v_0 "in" m s^-1 if the maximum height attained by the body is 5 m and at the highest point of its trajectory the radius of curvature is r = 3 m . Neglect air resistance. [Use sqrt(80) as 9] .