Rod A can slide in vertical direction pushing the triangular wedge B towards right. The wedge is moving toward right with uniform acceleration `a_(s).` Find acceleration of the rod A.

If block B moves towards right with acceleration b, find the net acceleration of block A.

Figure shows a block A constrained to slide along the inclined plane of the wedge B shown. Block A is attached with a string which passes through three ideal pulleys and connected to the wedge B. If wedge is pulled toward right with an acceleration a, find (a) the acceleration of the block with respect to wedge (b) the acceleration of the block with respect to ground.

Wedge B is pulled by an acceleration 2g towards left. Find the acceleration of block A-

A weightless inextensible rope rests on a stationary wedge forming an angle alpha with a horizontal One end of the rope is fixed to the wall to point A.A small load is attached to the rope at point B The wedge starts moving to the right with a constant acceleration a The acceleration of the load is given by .

In the arrangement shown in figure wedge of mass M moves towards left with an acceleration a. All surfaces are smooth. The acceleration of mass m relative to wedge is

System is shown in fig. and wedge is moving toward left with speed 2ms^(-1) . Find the velocity of the block B.

If the blocks A and B are moving towards each other with accelerations a and b shown in fig. find the net acceleration of block C.

A bead kept at the bottom of a wedge moves towards right with a velocity 2v on a frictionless surface. If the wedge moves towards left with a velocity v while accelerating towards right with an acceleration a as shown then the magnitude of acceleration of the bead is x units. Find x if v = 3 m/s a = a = 16 m/s2 R = 9 m ? 2v 기

A small body is placed at rest at the bottom B of a smooth hemispherical surface of wedge as shown. If the wedge is shifted horizontally towards right with acceleration a_(0) = 3g , find speed of the body w.r.t the wedge at the instant the body reaches points A.