In given figure all surfaces are smooth. The ratio of forces exerted by the wedge on mass 'M' when force 'F' is not applied and when 'F' is applied such that 'M' is at rest with respect to wedge is:

All surface are smooth. Find the acceleration of mass m relative to wedge when wedge is moving with acceleration 'a'

In the given figure, the wedge is acted upon by a constant horizontal force F. The wedge is moving on a smooth horizontal surface. A ball of mass 'm' is at rest relative to the wedge. The ratio of forces exerted on 'm' by the wedge when F is acting, and when F is withdrawn, assuming no friction between the wedge and the ball, the ratio is equal to

In the given figure, the wedge is acted upon by a constant horizontal force 'F'. The wedge is moving on a smooth horizontal surface. A ball of mass 'm' is at rest relative to the wedge. The ratio of forces exerted on 'm' by the wedge when 'F' is acting and 'F' is withdrawn assuming no friction between the edge and the ball, is equal to :

A wooden wedge of mass M and inclination anlgle (alpha) rest on a smooth floor. A block of mass m is kept on wedge.A force F is applied on the wedge as shown in the figure such that block remains stationary with respect to wedge So, magnitude of froce F is

All the surfaces are smooth as shown in figure. The acceleration of mass m relative to wedge is :

In the situation shown in figure all contact surfaces are smooth. The force constant of the spring is K. Two forces F are applied as shown. The maximum elongation produced in the spring is how many times of F//K (initially the spring is relaxed)?

All surface are smooth in following figure. Find F , such that block remain stationary with respect to wedge.

Two masses m_1 and m_2 are placed on a smooth horizontal surface and are connected by a string of negligible mass. A horizontal force F is applied on the mass m_2 as shown in the figure. The tension in the string is

In the adjoining figure all surface are frictionless . What force F must by applied to M_(1) to keep M_(3) free from rising or falling?

A block of mass m is at rest on a rough wedge as shown in figure. What is the force exerted by the wedge on the block?