In the arrangement shown in the figure all surfaces are frictionless, the masses of the block are `m_1 = 20kg and m_2 = 30kg.` The accelerations of masses `m_1 and m_2` will be if F = 180N.

Three masses m_1 = m ,m_2 = 2m and m_3 = 3m are hund on a string passing over a frictionless pulley as shown in Figure . The mass of the string in negligible . The system is released from rest. If a_1 a_2 and a_3 are the accelerations of masses m_1, m_2 and m_3 respectively, then

Two blocks A and B of masses 2kg and 3kg are connected by a light string as shown in the figure and placed on a horizontal surface. mu between all surfaces is 0.1 and g = 10 ms^(-1) . The acceleration of the system is, when the force applied F = 45N

If m_1 = 10 kg, m_2 = 4kg and m_3=2kg the tension in the string connecting m_1 and m_2 is ,

In the arrangement shown in the figure if the blocks of masses m and 2m are released from the state of rest tension in the string is ( mu = coefficient of friction string is massless and inextensible pulley is frictionless )

A block of mass M = 10kg is placed on a slab of mass M_(2)= 30kg. The slab lies on a friction less horizontal surface as shown in figure. The coefficient of static friction between the block and slab is 4, = 0.4 and that of dynamic friction is My = 0.15. The acceleration with which the slab will move is (g = 1 0ms^(-1))