A block of mass m is placed over the wedge as shown in figue Coefficent of frition `mu` is half the minimum value required to keep it in this postion.

what is the minimum value of accleration of wedge to keep the blok statinary with respect to the wedge in either of the four cases?

A block of mass m is placed over the wedge as shown in figue Coefficent of frition mu is half the minimum value required to keep it in this postion. Bloock can be kept rest even with this value of mu with respect to wedge if the wedge is moved is moved with an accelartion a towards

A block of mass m is placed over the wedge as shown in figue Coefficent of frition mu is half the minimum value required to keep it in this postion. Bloock can be kept rest even with this value of mu with respect to wedge if the wedge is moved is moved with an accelartion a towards

In the adjoining figure, the coefficient of friction between wedge ( of mass M) and block ( of mass m) is mu . Find the minimum horizontal force F rquired to keep the block stationary with respect to wedge

A block of mass m is placed on a smooth wedge of mass M, as shown in the figure . Just after placiing block m over wedge M.

A block of mass 1 kg is placed on a wedge shown in figure. Find out minimum coefficient of friction between wedge and block to stop the block on it.

In the adjoining figure, the coefficient of friction between wedge (of mass M ) and block (of mass m ) is mu . Find the minimum horizontal force F required to keep the block stationary with respect to wedge.

In the adjoining figure, the coefficient of friction between wedge (of mass M ) and block (of mass m ) is mu . Find the minimum horizontal force F required to keep the block stationary with respect to wedge.

A block of mass m is placed on a wedge of mass M. Coefficient of friction between them is mu gt cot theta. The minimum acceleration of the wedge at which block appears stationary relative to wedge is

A block of mass 5 kg is kept against an accelerating wedge with a wedge angle of 45^(@) to the horizontal. The coefficient of friction between the block and the wedge is mu = 0.4 . What is the minimum absolute value of the acceleration of the wedge to keep the block steady? [Assume, g = 10 m/s^(2) ]

A block of mass m resting on a wedge of angle theta as shown in the figure. The wedge is given an acceleration a. What is the minimum value of a so that the mass m falls freely ?