Block of mass m is kept on a fixed wedge and released from point A. It fall on ground at point B. Velocity of block at point C becomes horizontal. Find range R of projectile (all surfaces are frictionless)

A particle is released at point A. Find Kinetic energy at point P Given m = 1 kg and all surfaces are frictionless

A particle is released at point A. Find Kinetic energy at point P Given m = 1 kg and all surfaces are frictionless

A block of mass m is placed on the inclined sufrace of a wedge as shown in fig. Calculate the acceleration of the wedge and the block when the block is released. Assume all surfaces are frictionless.

A small block B is placed on another block A of mass 5 kg and length 20 cm. Initially, the block B is near the right end of block A. A constant horizontal force of 10 N is applied to the block A. All the surfaces are assumed frictionless. Find the time elapsed before the block B separates from A.

Figure shows a small block of mass m which is started with a speed v on the horizontal part of the bigger block of mas m placed on a horizontal floor. The curved part of the surface shown is semicircular. All the surfaces are frictionless. Find the speed of the bigger block when the smaller block reaches the point A of the surface.

A block of mass m is released from the top of a wedge of mass M as shown in figure. Find the displacement of wedges on the horizontal ground when the block reaches the bottom of the wedges. Neglect friction everywhere.

A block of mass m, is kept on a wedge of mass M, as shown in figure such that mass m remains stationary w.r.t. wedge. The magnitude of force P is

A small block of mass m is released from a fixed smooth wedge in figure. Initial point is marked as A . Bottom of wedge is marked as B and at a point C the block stops because the straight part of floor is rough. The velocity of the block at the midpoint between B to C will be :

A small block of mass m is released from a fixed smooth wedge in figure. Initial point is marked as A . Bottom of wedge is marked as B and at a point C the block stops because the straight part of floor is rough. The friction coefficient of the block with the floor is :

A small block of mass m is released from a fixed smooth wedge in figure. Initial point is marked as A . Bottom of wedge is marked as B and at a point C the block stops because the straight part of floor is rough. Work donw by normal reaction is zero during the motion of the block