A smooth wedge of mass M is pushed with an acceleration `a=gtantheta` and a block of mass m is projected down the slant with a velocity v relative to the wedge.
`The horizontal force applied on the wedge is:

A smooth wedge of mass M is pushed with an acceleration a=gtantheta and a block of mass m is projected down the slant with a velocity v relative to the wedge. Q. The normal reaction between wedge and block is:

A smooth wedge of mass M is pushed with an acceleration a=g tantheta and a block of mass m is projected down the slant with a velocity v relative to the wedge. Q. The normal reaction between wedge and block is:

A smooth wedge of mass M is pushed with an acceleration a=gtantheta and a block of mass m is projected down the slant with a velocity v relative to the wedge. Q. The normal reaction offered by ground to the wedge is:

A smooth wedge of mass M is pushed with an acceleration a=gtantheta and a block of mass m is projected down the slant with a velocity v relative to the wedge. Q. The normal reaction offered by ground to the wedge is:

A smooth wedge of mass M is pushed with an acceleration a=gtantheta and a block of mass m is projected down the slant with a velocity v relative to the wedge. Q. The time taken by the block to reach the ground is:

A smooth wedge of mass M is pushed with an acceleration a=gtantheta and a block of mass m is projected down the slant with a velocity v relative to the wedge. Q. The time taken by the block to reach the ground is:

A smooth wedge of mass M is pulled towards left with an acceleration a= g cot theta on a horizontal surface and a block of mass m is released w.r.t. wedge. Then answer the following Normal reaction offered by ground to the wedge is

A wedge with mass M rests on a frictionless horizontal surface A block with mass m is placed on the wedge. There is no friction between the block and the wedge. A horizontal force f is applied to the wedge. What magnitude F must have if the block is to remain at constant height above the table top?

A block of mass 'm' is kept on a smooth moving wedge. If the acceleration of the wedge is 'a'

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 ?