Three identical blocks of masses m=2kg are drawn by a force 10.2 N on a frictionless surface. What is the tension (in N) in the string between the blocks B and C?

Three identical blocks of masses m=2kg are drawn by a force F=10.2N with an acceleration of 0.6ms^-2 on a frictionless surface, then what is the tension (in N) in the string between the blocks B and C?

Three identical blocks, each having a mass m are pushed by a force F on the Frictionless table as shown in figure. What is the net force on the block A?

Three identical blocks, each having a mass M , are pushed by a force F on a frictionless table as shown in (figure) What is the acceleration of the blocks? What is net force on block A ? What force does A apply on B ? What force does B apply on C ? show action reaction pairs on the contact surface of the blocks.

Three identical blocks, each having a mass m are pushed by a force F on the Frictionless table as shown in figure. What force does B apply on C?

Three blocks A,B and C of mass 10 kg each are hanging on a string passing over a fixed frictionless pulley as shown in figure. The tension in the string connecting blocks B and C is (g=10m//s^(2))

Calculate the force P required to cause the block of weight W_(2)=200N just to slide under the block of weight W_(1)=100N shown in figure-2.43. What is the tension in the string AB and the normal forces acting between the blocks and that applied by ground on W_(2) ? Surfaces of the blocks in contact are rough and the frictional force between the two blocks is 25 N and that between lower block and ground is 75 N Take g = 10 m//s^(2) .

Three blocks are pushed with a force F across a frictionless table as shown in figure . Let N_1 be the contact force between the left two blocks and N_2 be the contact force between the right two blocks. Then

Two blocks of mass m = 1 kg and M = 2 kg are in contact on a frictionless table. A horizontal force F(= 3N) is applied to m. The force of contact between the blocks, will be-

Three blocks of masses 2 kg , 3 kg and 5 kg are connected to each other with light string and are then placed on a frictionless surface as shown in the figure. The system is pulled by a force F= 10 N then tension T_(1)=