What should be the maximum value of M so that the 4 kg block does not slip over the 5 kg block : (Take `g=10 m//s^(2)`)

The coefficient of static friction between the block of 2 kg and the table shown in figurwe is mu_s=02. What should be the maximum value of m so tht the blocks do not move? Take g=10 m/s^2. The string and the pulley are light and smooth.

In the arrangement shown in figure m_(A)=m_(B) =2 kg . String is massless and pulley is frictionless. Block B is resting on a smooth horizontal surface, while friction coefficient between blocks A and B is mu=0.5 . What maximum horizontal force F can be applied so that block A does not slip over the block B? (g=10 m//s^(2))

A block is kept on a rough horizontal plank. The coefficient of friction between the block and the plank is 1/2 . The plank is undergoing SHM of angular frequency 10 rad/s. The maximum amplitude of plank in which the block does not slip over the plank is (g= 10 m/ s^(2) )

What should be minimum value of F so that 2 kg slides on ground but 1kg does not slide on it? [g = 10m/sec^(2)]

Mass of block B shown in figure-2.218 is m and that of cart C is M. Show that the maximum value of force F such that the block does not slip over the surface of C, has a magnitude

A system of two blocks is shown in figure. Friction coefficient between 5 kg and 10 kg block is mu=0.6 and between 10 kg and ground is mu=0.4 What will be the maximum value of force F applied at the lower block so that 5 kg block does not slip w.r.t. 10 kg . (g=10m//sec^(2)). The force applied at the upper block is having fixed magnitude of 80 N (both forces start to act simultaneously)

Two blocks A and B of masses m_(A) = 1kg and m_(B) = 3kg are kept on the table as shown in figure. The coefficient of friction between A and B is 0.2 and between B and the surface of the table is also 0.2. The maximum force F that can be applied on B horizontally, so that the block A does not slide over the block B is ________ (in N): [Take g = 10 m//s^(2) ]

The coefficient of static friction, mu_(s) between block A mass 2kg and the table as shown in the figure, is 0.2. What would be the maximum mass value of block B, so that the two blocks do not move ? The string and the pulley are asseumed to be smooth and massless ( g=10m//s^(2) )

The coefficient of static friction, mu_(s) between block A of mass 2 kg and the table as shown in the figure is 0.2. What would be the maximum mass value of block B so that the two blocks do not move? The string and the pulley are assumed to be smooth and massless. (g=10m//s^(2))