A small block is shot into each of the four tracks as shown below. Each of the tracks rises to the same height. The speed with which the block enters the track is the same in all cases. At the highest point of the track, the normal reaction is maximum in

A body of mass 10kg is at height of 10m at point A as shown on a smooth track. Find speed at B.

A flexible smooth track is fixed in two alternate arrangments, as shown in figure -1 and 2. the length of the track used is the same in each case, and the height through which it falls from the bench to the floor is the same. A toy car is released at rest and slides down the track. air resistance can be ignored.

A small block of mass m is pushed on a smooth track from position A with a velocity (2)/(sqrt(5)) times the minimum velocity required to reach point D. The block will leave the contact with track at the point where normal force between them becomes zero. Q. Find where the maximum contact force occurs betwee the block and the track .

A small block of mass m is pushed on a smooth track from position A with a velocity 2sqrt5 times the minimum velocity required to reach point D. The block will leave the contact with track at the point where normal force between them becomes zero. Find where the maximum contact force occurs between the block and the track.

Figure shows a smooth track, a part of which is a circle of radus R. As block of mass m is pushed against a sprng of spring constant k fixed at the left end and is then released. Find the initial compression of the spring so that the block presses the track with a force mg when it reaches the point P, where the radus of the track is horizontal.

A small block of mass m is pushed on a smooth track from position A with a velocity (2)/(sqrt(5)) times the minimum velocity required to reach point D. The block will leave the contact with track at the point where normal force between them becomes zero. Q. At what angle theta with horizontal does the block gets separated from the track?