Friction coefficient between any two surface in contact is 0.5 pulleys and string aare frictioness .Find the friction between blocks A and B ( in newton)

Static friction between two surfaces

The coefficient of friction between two surface is 0.2. The maximum angle of friction is

The coefficient of friction between two surface is mu= 0.8 . The tension in the string as shown in the figure is

There are two block as shown in the figure of masses 1kg and 4kg . Friction coefficient between any two surfaces are 0.2 then find maximum value of horizontal force F so that both blocks moves together.

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

The coefficient of static friction between two surfaces depend on

Two blocks A and B are placed in contace on a horizontal surface. Faces of block A and B , which are in contact , are inclined at 30^(@) with the horizontal, as shown. There is no friction between block A and any surface which is in contact with this whereas friction coefficient between block B and the surface is (1)/(sqrt(3)) . A force F is applied in horizontal direction on block A . What is the minimum value of F at which the block B just start moving rightwards ?

Three blocks A , B and C , whose masses are 9kg , 9kg and 18kg respectively as shown in the figure, are released from rest. The co-efficient of friction between block A and the horizontal surface is 0.5 & the co-efficient of friction between block B and the horizontal surface is 0.5 . Find the acceleration of block C just release [Take g=10m//s^(2) ]. All strings and pulleys are ideal

The friction coefficient between the horizontal surface and blocks A and B are (1)/(15) and (2)/(15) respectively. The collision between the blocks is perfectly elastic. Find the separation (in meters) between the two blcoks when they come to rest.

An arrangement of the masses and pulleys is shown in the figure. Strings connecting masses A and B with pulley are horizontal and all pulleys and strings are light. Friction coefficient between the surface and the block B is 0.2 and between block A and B is 0.7 . The system is released from rest. (use g=10m//s^(2))