A small block is shot into each of the four track as shown in Fig 15.7.1. Each of the track 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 ball of mass 100 g is made to loop-the-loop in a vertical circle as shown in Fig. 7.1.29. The radius of the circle is 0.5 m (i)-What is the critical velocity at the highest point of the track ? (ii) If the velocity of the ball at the highest point of the track is twice the critical velocity what is the force exerted by the ball against track?

A block is released from A on a frictionless track as shown in Fig. 7.2.6. What is the magnitude of radial acceleration and the total acceleration of the block at B ?

A small ball is rolled with speed u from piont A along a smooth circular track as shown in figure. If x=3R , then Determine the required speed u so that the ball returns to A, the point of projection after passing through C, the highest point.

A flexible track is fixed in two alternative arrangements, as shown in the figure. A toy car is released at rest and slides down the track air resistance can be ignored. 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. codes:

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.

Block of mass m are released from rest and they slide down the inclined surface as shown in figure. Show that the work done by the frictional forces on the blocks are same in all the cases. Also calculate the speeds with which the blocks reach point B. The coefficient of friction for all the surface is mu_k .

A small ball is rolled with speed u from piont A along a smooth circular track as shown in figure. If x=3R , then What is the minimum value of x for which the ball can reach the point of projection after reaching C?

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. At what angle theta with horizontal does the block gets separated from 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. At what angle theta with horizontal does the block gets separated from the track?

A block f mas 1 kg is placed at the point A of a rough track shown in figure. If slightly pushed towards right, it stos at the point B of the track. Calculate the work done by the frictional force on the block during its transit from A to B.