Block M slide donw on frictionless inclined plane as shown. Find frictional force acting on block m while it is at rest with respect to the block M. `(m=2kg, M=5kg,g=10m//sec^(2))`

Block M slides down on frictionless incline as shown. The minimum friction coefficient so that m does not slide with respect to M would be :

Block M slides down on frictionless incline as shown. The minimum friction coefficient so that m does not slide with respect to M would be :

Block M slides down on frictionless incline as shown. The minimum friction coefficient so that m does not slide with respect to M would be :

A block rests on a rough inclined plane making an angle of 30^(@) with horizontal. The coefficient of static friction between the block and inclined plane is 0.8 . If the frictional force on the block is 10 N , the mass of the block in kg is (g = 10 m//s^(2))

A block of mass m = 3 kg slides on a rough inclined plane of cofficient of friction 0.2 Find the resultant force offered by the plane on the block

A block of mass m = 3 kg slides on a rough inclined plane of cofficient of friction 0.2 Find the resultant force offered by the plane on the block

A block is placed on an inclined plane as shown in figure. What must be the friction force between block and inclined if the block is not to slide along the inclined when the incline is accelerating to the right at 3 m//s^(2) ( sin 37^(@) = (3)/(5)) ? (Take g = 10 m//s^(2))

consider the situation shown in figure in which a block 'A' of mass 2 kg is placed over a biock.'B' of mass 4 kg. The combination of the blocks are placed on a inclined plane of inclination 37^(@) with horizontal. The coefficient of friction between block B and inclined plane is mu_(2) and in between the two, blocks is mu_(1) . The system is released from rest. ("Take "g=10m//sec^(2)) The frictional force acting between the blocks in the previous case :

consider the situation shown in figure in which a block 'A' of mass 2 kg is placed over a biock.'B' of mass 4 kg. The combination of the blocks are placed on a inclined plane of inclination 37^(@) with horizontal. The coefficient of friction between block B and inclined plane is mu_(2) and in between the two, blocks is mu_(1) . The system is released from rest. ("Take "g=10m//sec^(2)) The frictional force acting between the blocks in the previous case will be: