[" in figure,Wedge is smoot "],[" a triction on block "A" is "],[qquad [" Fere "],[" intrinementin "]]

Block 'A' is placed ober the block 'B' as shown in the figure. Wedge is fixed and there is no friction. Between block 'B' and fixed inclined. Force of friction on the block 'A' is

Block 'A' is placed ober the block 'B' as shown in the figure. Wedge is fixed and there is no friction. Between block 'B' and fixed inclined. Force of friction on the block 'A' is

Block A is placed over the block B as shown in figure. Wedge is smooth and fixed. Force of friction on block A is:

A triangular wedge is placed on smooth horizontal surface. A block is placed on wedge as shown in the figure. Coefficient of friction between block and wedge is mu . Initially system reamins at rest.

A block of mass m is at rest relative to the stationary wedge of mass M. The coefficient of friction between block and wedge is mu . The wedge is now pulled horizontally with acceleration a as shown in figure. Then the minimum magnitude of a for the friction between block and wedge to be zero is:

A block of mass m is at rest relative to the stationary wedge of mass M. The coefficient of friction between block and wedge is mu . The wedge is now pulled horizontally with acceleration a as shown in figure. Then the minimum magnitude of a for the friction between block and wedge to be zero is:

In the figure shown coefficient of friction between block A and ground is 0.4 and that between wedge and block B is zero. Wedge is fixed. Find tension is string and acceleration of block A if F = 28 N.

In the figure shown coefficient of friction between block A and ground is 0.4 and that between wedge and block B is zero. Wedge is fixed. Find tension is string and acceleration of block A if F = 28 N.

A wedge B of mass 2 m is placed on a rough horizontal suface. The coefficient of friction between wedge and the horizontal surface is mu_(1) . A block of mass m is placed on wedge as shown in the figure. The coefficient of friction between block and wedge is mu_(2) . The block and wedge are released from rest. Q. Suppose the inclined surface of the wedge is at theta=37^(@) angle from horizontal and mu_(2)=0.9 then the wedge:

A wedge B of mass 2 m is placed on a rough horizontal suface. The coefficient of friction between wedge and the horizontal surface is mu_(1) . A block of mass m is placed on wedge as shown in the figure. The coefficient of friction between block and wedge is mu_(2) . The block and wedge are released from rest. Q. Suppose the inclined surface of the wedge is at theta=37^(@) from angle from horizontal and mu_(2)=0 are wedge will remain in equilibrium if