In figure assume that there is nagligible friction between the blocks and table. Compute the tension in the cord connecting `m_(2)` and the pulley and acceleration of `m_(2)`if `m_(1) = 300 g`, `m_(2) = 200 g` and `F = 0.40N`

In the arragement of figure assume negligible friction between the blocks and table. If F the pulling force and m_(1) and m_(2) the masses are known, then the tension in the string is :

In the arrangement of figure assume negligible friction between the blocks and table. If F the pulling force and m_(1) and m_(2) the masses are known, then the tension in the string is–

If coeffiecient of friction between the block of mass 2kg and table is 0.4 then out acceleration of the system and tension in the string. (g=10m//s^(2))

When we ignore friction and mass of pulley what would be the accelerations of the two blocks m_(1) and m_(2) .

In the arrangement shown in figure pulley P can move whereas other two pulleys are fixed. All of them are light. String is light and inextensible. The coefficient of friction between 2 kg and 3 kg block is mu = 0.75 and that between 3 kg block and the table is mu = 0.5 . The system is released from rest (i) Find maximum value of mass M, so that the system does not move. Find friction force between 2 kg and 3 kg blocks in this case. (ii) If M = 4 kg, find the tension in the string attached to 2 kg block. (iii) If M = 4 kg and mu_(1) = 0.9 , find friction force between the two blocks, and acceleration of M. (iv) Find acceleration of M if m_(1) = 0.75, m_(2) = -0.9 and M = 4 kg.

In figure , find the acceleration of m assuming that there is friction between m and M,and all other surface are smooth and pulleys light and m = coeffiicient of friction between m and M .

Two block of masses m_(1) and m_(2) are connected as shown in the figure. The acceleration of the block m_(2) is:

Two blocks of masses m_1 and m_2 are connected as shown in the figure. The acceleration of the block m_2 is :