Find the mass M in the situation shown in figure-2.212 such that m remains at rest on the front surface of `M_(1)`. The coefficient of friction between the front surface of `M_(1)` and that of m is `mu`.

A force F accelerates a block of mass m on horizontal surface. The coefficient of friction between the contact surface is . The acceleration of m will be -

A mass m is at rest under the action of a force F. as shown in the figure, on a horizontal surface. The coefficient of friction between mass and surface is u. Then, find the correct choice(s)

Find the maximum value of M//m in the situation shown in figure so that the system remains at rest. Friction coefficient at both the contacts mu . Discuss the situation when tanthetagtmu

Find the minimum value of horizontal force (F) required on the block of mass m to keep it at rest on the wall. Given the coefficient of friction between the surfaces is mu .

A mass m rests under the action of a force F as shown in the figure-2.158 on a horizontal surface. The coefficient of friction between the mass and the surface is mu . The force of friction between the mass and the surface is :

A trolley of mass M is attached to a block of mass m by a string passing over a frictionless pulley as shown in the figure. If the coefficient of friction between the horizontal surface and wheels of trolley is mu , then acceleration of the block m and that of trolley M on releasing the system is :-

Find the maximum value of (m//m) in the situation shown in figure so that the system remains at rest. Friction coefficient of both the contacts is mu , string is massless an pulley is friction less.

A block of mass m_(1) connected with another of mass m_(2) by a light spring of natural length l_(0) and stiiffness k is kept stationary on a rough horizontal surface . The coefficient of friction between m_(1) and surface is mu and the block m_(2) is smooth .The block m_(2) is moved with certain the block m_(1) in horizontal plane Find the (a) maximum to m_(1) and (b) acceleration of m_(2) in part(a)