What force should be applied on the wedge so that block over it does not move? (All surfaces are smooth)

A block of mass 2 kg rests on an inclined plane which makes an angle of 30^(@) with the horizontal. The coefficient of friction between the block and the surfcae is sqrt(3//2) . (i) What force should be applied on the block so that it moves down without any acceleration ? (ii) What force should be applied on the block so that it moves up without any acceleration ? (iii) Calculate the ratio of the powers in the above two cases if the block moves with uniform speed in both the cases.

What should be the minimum force P to be applied to the string so that block of mass m just begins to move up the frictionless plane?

In the figure2.217 all the surfaces are frictionless. What force F is required to be applied on the bigger block so that m_(2) and m_(3) will remain at rest on it.

A block of mass m is placed on an inclined plane. With what acceleration A towards right should the system move on a horizontal surface so that m does not slide on the surface of inclined plane? Also calculate the force supplied by wedge on the block. Assume all surfaces are smooth.

A wedge of mass M makes an angle theta with the horizontal. The wedge is placed on horizontal frictionless surface. A small block of mass m is placed on the inclined surface of wedge. What horizontal force F must be applied to the wedge so that the force of friction between the block and wedge is zero ?

When a block is placed on a wedge as shown in figure, the block starts sliding down and the wedge also start sliding on ground. All surfaces are rough. The centre of mass of ( wedge + block ) system will move.

A wedge of mass m is placed on a horizontal smooth table. A block of mass m is placed at the mid point of the smooth inclined surface having length L along its line of greatest slope. Inclination of the inclined surface is theta= 45^(@) . The block is released and simultaneously a constant horizontal force F is applied on the wedge as shown. (a) What is value of F if the block does not slide on the wedge? (b) In how much time the block will come out of the incline surface if applied force is 1.5 times that found in part (a)

In figuer, shown all the surfaces are frictionless, and mass of the block is m=100g . The block and the wedge are held initially at rest. Now the wedge is given a horizontal acceleration of 10ms^-2 by applying a force on the wedge, so that the block does not slip on the wedge. Then find the work done in joules by the normal force in ground frame on the block in 1s .

In the situation shown below a block A of mass 5 kg is kept on the wedge B of mass 8 kg. All surfaces are smooth and string is massless, smooth and inextensible. Then acceleration of wedge B in m/ s^2 is?

In the figure shown all the surfaces are frictionless and mass of block m=1kg , block and wedge are held initially at rest, now wedge is given a horizontal acceleration of 10 m//s^(2) by applying a force on the wedge so that the block does not slip on the wedge, the work done by normal force in ground frame on the block in sqrt(3) sec is .