The coefficient of friction between the two blocks shown in the figure is `mu = 0.4` and between the lower block and the ground is zero. The blocks are given velocities of `2 ms^(-1)` and `8 ms^(-1)` respectively in the direction shown in the figure. In how much time (in seconds) the slipping between the blocks will stops ?

Find the force of friction acting between both the blocks shown in the figure.

The friction coefficient between the table and the block shown in figure is 0.2. Find the tensions in the two strings.

The minimum value of mu between the two blocks for no slipping is

Coefficient of friction between two block shown in figure ia mu = 0.4 . The blocks are given velocities of 2 m//s and 8 m//s in the directions figure. Find (a) The time when relative motion between them will stop (b) the common velocities of blocks upto that instant. (c) Displacement of 1 kg and 2 kg block upto that instant (g = 10 m//s^(2)) .

The coefficient of static friction between the two blocks shown in figure is mu and the table is smooth. What maximum horizontal forced F can be applied to he block of mass M so that the block move together?

The coefficient of static friction between the two blocks shown in figure is mu and the table is smooth. What maximum horizontal forced F can be applied to he block of mass M so that the block move together?

A small block of mass m is projected on a larger block of mass 10 m and length l with a velocity v as shown in the figure. The coefficient of friction between the two block is mu_(2) while that between the lower block and the ground is mu_(1) . Given that mu_(2) gt 11 mu_(1) . (a) Find the minimum value of v , such that the mass m falls off the block of mass 10 m . (b) If v has minimum value, find the time taken by block m to do so.

coefficient of friction between two blocks shown in figure is mu =0.6 . The blocks are given velocities in the direction shown in figure. Find (a) the time when relative motion between them is stopped. (b) the common velocity of the two blocks. (c) the displacement of 1kg and 2kg blocks upto that instant. (Take g =10m//s^(2))

A block of mass m is kept on an another block of mass M. The coefficient of friction between the blocks varies as mu=(mu_(0)+kx) while friction between lower block and ground is zero. A time varying force F = 10t is applied horizontally on the upper block. Find time t_(0) when relative motion will start between the blocks. (x is relative displacement between the blocks.)

In the figure shown the block B moves with , velocity 10 ms^(-1) . The velocity of A in the position shown is