The blocks A & B are of masses5 kg and3 kg respectively. The inclined plane is smooth. Assume `g=10m//s^(2)`. The contact force between the blocks A & B in the cases (a) and (b) are `["take g"=10m//s^(2)]`

(b)

Blocks A and B have masses of 2 kg and 3 kg. respectively. The ground is smooth. P is an external force of 10 N. The force exerted by B on A is

Two block A and B of mass 50 kg and 300 kg respectively are placed as shown in figure. Coefficient of friction between all surface is (1)/(2) Then (take g = 10 m//s )

Block of mass 10 kg is moving on inclined plane with constant velocity 10 m/s. The coedfficient of kinetic friction between incline plane and block is :-

Three blocks A , B and C of masses 4kg , 2kg and 1kg respectively are in contact on a frictionless surface, as shown. If a force of 14N is applied on the 4kg block, then the contact force between A and B is.

In the system of connecting blocks, m_(A) =1kg, m_(B)=2kg and m_(C)=2kg .The inclined plane is smooth while the friction coefficient between block B and horizontal ground is mu .Mark the correct options.(g=10m s^(-2) )

A block of mass 5 kg is placed on a rough inclined plane. The inclination of the plane is gradually increased till the block just begins to slide down. The inclination of the plane is than 3 in 5. The coefficient of friction between the block and the plane is (Take, g = 10m//s^(2) )

A block of mass 10 kg is released on rough incline plane. Block start descending with acceleration 2m//s^(2) . Kinetic friction force acting on block is (take g=10m//s^(2) )

In the figure-2.205 shown in blocks A, B and C has masses m_(A)= 5 kg, m_(B) = 5 kg and m_(C )= 10kg respectively, find the acceleration of the three blocks. Assume all pulleys and strings are ideal. (Take g = 10m//s^(2) )