Given `m_(A) = 30 kg, m_(B) = 10 kg, m_(C) = 20 kg`. Between a & B `mu_(1) = 0.3`, between B & C `mu_(2) = 0.2` & between C & ground `mu_(3) = 0.1`. The least horizontal force F to start motion of ant part of the system of three blocks resting upon one another as shown below is :
(Take `g = 10m//s^(2)`)

Two blocks a and B of mass m_(A)=1kg and m_(B)=3kg are kept on the table as shown in figure the coefficient of friction between A and B is 0.2 and between B and the surface of the table is also 0.2 the maximum force F that can be applied on B horizontally, so that the block A does not slide over the block B is [Take g=10m//s^(2) ]

Find the acceleration of the two blocks . The system is initialy at rest and the friction are as shown in fig .Given m_(A) = m_(B) = 10 kg

Two blocks of masses m_(1) = 10 kg and m_(2) = 20 kg are connected by a spring of stiffness k = 200 N/m. The coefficient of friction between the blocks and the fixed horizontal surface is mu = 0.1 . Find the minimum constant horizontal force F (in Newton) to be applied to m1 in order to slide the mass m_(2) . (Take g = 10 m//s^(2) )

In the figure m_(A) = m_(B) = m_(C) = 60 kg . The coefficient of friction between C and ground is 0.5 B and ground is 0.3, A and B is 0.4. C is pulling the string with the maximum possible force without moving. Then the tension in the string connected to A will be

A 4 kg mass is resting on a horizontal surface. For this surface mu_s = 0.6 & mu_(k) = 0.2 . Force required to move the body with 5ms^(-2) acceleration is (g = 10ms^(-2) )

A 2 kg block is kept over a ground with coefficient of friction mu = 0.8 as shown in figure. A time varying force F = 2t (F in newton and t in second) is applied on the block. Plot a graph between acceleration of block versus time (g = 10 m//s^(2))

A force of 200N is applied as shown in the figure on block of 3 kg. The coefficient of friction between the block and the wall is 0.3. Find the friction acting on the block. (in N) {Take g = 10 m//s^(2)

Two blocks M and m are arranged as shown in the diagram The coefficient of friction between the block is mu_(1) = 0.25 and between the ground and M is mu_(2) = (1)/(3) If M = 8 kg then find the value of m so that the system will remain at rest

Two block A and B of mass m_(A)= 10 kg and m_(A) = 20 kg are place on rough horizontal surface . The blocks are connected with a string. If the coefficient of fraction between block A and ground is mu _(A) = 0.9 and between block B and ground is mu _(B) = 0.3 and the tension in the string in situation as shown in fig force 120 N and 100 N start acting when the system is at rest?

2gk block is kept on 1kg block as shown . The friction between 1kg block and fixed surface is absent and the coefficient of friction between 2kg block is mu=0.1 . A constant horizontal force F=4N is applied on 1kg block. If the work done by the friction on 1 kg block in 2s is -X J , then find X . Take g=10m//s^(2) .