In the adjoining figure all surfaces are frictionless, strings are light and inextensible. Consider a force F to be applied. So that block m, neither raises nor falls.

In the system as shown in figure, all surfaces are smooth, strings are light and inextensible, Given m_A = 1kg, m_B 2kg m_C = 3 kg , g = 10ms^(-2) K = 50 Nm^(-1) The system is released from rest.

Assuming all the surface to be frictionless, acceleration of the block C shown in the figure is :

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.

A block of mass M is placed on the top of a bigger block of mass 10M as shown in fig. All the surfaces are frictionless. The system is releated from rest. The distance moved by the bigger block by the time the smaller block reaches the ground is

Three blocks with masses m, 2m and 3m are connected by strings, as shown in the figure. After an upward force F is applied on block m, the masses move upward at constant speed v. What is the net force on the block of mass 2m? (g is the acceleration due to gravity)

In the arrangement shown, all strings are light and inextensible, pulleys light and smooth. All surfaces are smooth. The block A moves on smooth horizontal surface towards left at a . 12 ms^(-2) The block B always remain in horizontal position. Acceleration block B is

Two blocks of masses M_1 and M_2 are placed in contact with each other on a frictionless horizontal surface. If a force F is applied on the block of mass M, what is the contact force between the two blocks?

Two masses m_(1) and m_(2) are placed on a smooth horizontal surface and are connected by a string of negligible mass. A horizontal force F is applied on the mass m_(2) as shown in the figure. The tenison in the string is