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 :

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

Three blocks of masses m_1, m_2 and m_3 are connected as shown in the figure. All the surfaces are frictionless and the string and the pulleys are light. Find the acceleration of m_1

Three blocks of masses m_1, m_2 and m_3 are connected as shown in the figure. All the surfaces are frictionless and the string and the pulleys are light. Find the acceleration of m_1

Three blocks of masses m_1, m_2 and m_3 are connected as shown in the figure. All the surfaces are frictionless and the string and the pulleys are light. Find the acceleration of m_1

Two block of masses M_(1) and M_(2) are connected with a string passing over a pulley as shown in figure The block M_(1) lies on a horizontal surface friction between the block M_(1) and the horizontal surface is mu The system accelerates. What additional mass m should be plased on the block M_(1) so that the system does not accelerate ?

Two block of masses M_(1) and M_(2) are connected with a string passing over a pulley as shown in figure The block M_(1) lies on a horizontal surface friction between the block M_(1) and the horizontal surface is mu The system accelerates. What additional mass m should be plased on the block M_(1) so that the system does not accelerate ?

Two blocks of masses m_(1) and m_(2) are connected to each other with the help of a spring. If pushing force F is given to the mass m_(1) providing acceleration a to it, then acceleration of m_(2) is

Mass m_(1)" & "m_(2) are placed on a rough inclined plane as shown in figure. Find out the acceleration of the blocks and contact force in between these surface.