If the two blocks moves with a constant uniform speed then find coefficient
of fricition between the surface of the block B and the table. The spring is massless and the pulley is fricitionless.

Two blocks A and B are connected to each other by a string and a spring, the string passes over a frictionless pulley as shown in Block B slides over the horizontal surface of a stationary block C and the block. A slides along the vertical side of C, both with same uniform speed. The coefficient of friction between the surface of the blocks is 0.2 Force constant of the spring is 1960 N//m if the mass of block A is 2 kg calculate the mass of the block B and the energy stored in the spring.

Two blocks A and B are connected to each other by a string and a spring , the spring pases and a frictionlesss pulley as down over in the figure . Block B sides over the horizental top surface of a strionry block C both with the verical side of C , both with the same conform speed The coefficient of friction between the surface the of block is 0.2 force constant of the spring is 1960 newtons , if mass of block A is 2 kg , celculate the mass of block F and B and the energy stored is the spring

A block on table shown in is just on the edge of slipping Find the coefficient of static friction between the blocks and table .

A block of mass m is attached to one end of a mass less spring of spring constant k. the other end of spring is fixed to a wall the block can move on a horizontal rough surface. The coefficient of friction between the block and the surface is mu then the compession of the spring for which maximum extension of the spring becomes half of maximum compression is .

Two blocks A and B are connected to each other by a string and a spring , the string passes over a frictionless pulley as shown in the figure. Block B slides over the horizontal top surface of a stationary block C and the block A slides along the vertical side of C , both with the same uniform speed. The coefficient of friction between the surface and blocks is 0.5 K = 2000 N//m . If mass of A is 2 kg calculate mass of B . .

Find the acceleration of the block of mass m. Assume pulleys are massless and frictionless.

Find the acceleration blocks in fig. The pulley and the string are massless.

1 kg block collides with a horizontal massless spring of force constant 2 N//m . The block compresses the spring by 4m. If the coefficient of kinetic friction between the block and the· surface is 0.25, what was the speed of the block at the instant of collision? (take g = 10 m//s^(2) )

Two blocks of Masses M and 2M are connected by a spring of stiffness k .The coefficient of friction between the blocks and the surface is mu Find the minimum constant force F to be applied to 2m in order to slide the mass M .

In the arrangement shown, coefficient of friciton for all the surfaces is mu and blocks are moving with constant speeds, then :