Determine the time in which the smaller block reaches other end of bigger block in figure

Figure shows a small block of mass m which is started with a speed v on the horizontal part of the bigger block of mas m placed on a horizontal floor. The curved part of the surface shown is semicircular. All the surfaces are frictionless. Find the speed of the bigger block when the smaller block reaches the point A of the surface.

Find out the range of force for which smaller block is at rest with respect to bigger block.

A block of mass m is kept over another block of mass M and the system rests on a horizontal surface. A constant horizontal force F acting on the lower block produces an acceleration (F)/(2(m+M)) in the sytem. The two blocks always move together. Consider displacement d of the system. a. Find the work done by friction on bigger block. b. Find the coefficient of kinetic friction between the bigger block and the horizontal surface. c. Find the frictional acting on the smaller block. d. Find the work done by the force of friction on the smaller block by the bigger block. e. Find the work done by static friction on bigger block.

A block of mass m is kept over another block of mass 2m and the system rests on a smooth horizontal surface. The coefficient of friction between the block is 0. 50 . Find the work done by the force of friction on the smaller block by the bigger block during a displacement the of the system when a force mg is applied to the lower block

A cubical block of mass M vibrates horizontally with amplitude of 4.0 cm and a frequency of 2.0 Hz. A small block of mass is placed on the bigger block. In order that the smaller block does not side on the bigger block, the minimum value of the coefficient of static friction between the two blocks is (0.16x). Find the valule of x(Take pi^(2) =10 and g=10m/ s^(2) )

A block is released on the convex surface of a hemispherical wedge as shown in Fig. Determine the displacement of the wedge when the block reaches the angular position theta

Determine the speed with which block B rises in fig. if the end of the cord at A is pulled down with a speed of 2ms^(-1) .

Consider the situation shown in figure. The horizontal surface below the bigger block is smooth. The coefficient of frictioin bewen the blocks is mu . Find the minimum and the maximum force F that can be applied in order to keepthe smaller block at respect to the bigger block.