Three block of masses `m_(1),m_(2)` and `m_(3)` kg are placed in contact with each other on a frictionless table. A force F is applied on the heaviest mass `m_(1)`, the acceleration of `m_(2)` will be

Three blocks of masses m_1 , m_2 and m_3 kg are placed in contact with each other on a frictionless table. A force is applied on the heaviest mass m_1 , the acceleration of m_3 will be:

Three blocks of masses 10 kg, 7 kg and 2 kg are placed in contact with each other on a frictionless table. A force of 50 N is applied on the heaviest mass. What is the acceleration of the system?

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_1 , what is the contact force between the two blocks?

Three blocks of masses m_(1) = 1kg, m_(2)=2kg and m_(3) = 3kg are placed in contact on a horizontal frictionaless plane as shown in figure. A force of 12 N is applied on m_(1) . Acceleration of the system 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 blocks of mass m_(1) and m_(2) lie on smooth horizontal table in contact with each other as shown in figure If a force F is applied to the mass m_(1) then the contact force between the block will be

Two blocks of mass m_(1) and m_(2) lie on smooth horizontal table in contact with each other as shown in figure If a force F is applied to the mass m_(1) then the contact force between the block will be

Three blocks of masses m_(1)=2kg m_(2)=3kg and m_(3)=4 kg are in contact with each other on a frictionless horizontal surface as shown in (a) Find (a) horizontal force F needed to push the block as one unit with an acceleration of 2m//s^(2) (b) the resultant force on each block and (c) the magnitude of contact forces between blocks.

Two blocks of masses m_1 and m_2 (m_1 gt m_2) in contact with each other on frictionless, horizontal surface. If a horizontal force F is given on m_1 set into motion with acceleration a, then reaction force on mass m_1 by m_2 is