In the figure shown, block of mass 2 kg is very long. Force of friction on 1 kg block is

The frictional force acting on 1 kg block is

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)

Initially elongation in spring is 5 cm and blocks are at rest. An external forece F acting on upper block and it varies with times as F=5t Newton force of firction acting on 10 kg block by ground is vec(f_(1) and force of friction on 5 kg block by 10 kg block is vec(f_(2)

Two blocks of masses 1 kg and 2 kg are joined by a massless inextensible string of length 3m. Both blocks are kept on a horizontal table as shown. Friction coefficient between 2 kg block and table is zero. They are rotated about a vertical axis passing at a distance of 1m from 1 kg. Force of friction on 1kg block is (assume that there is enough friction between 1 kg block ground)

In the diagram shown coefficient of friction between 2 kg block and 4 kg block is mu =0.1 and between 4 kg and ground is mu =0.2 then answer the following quwstions .(tis time) Force of friction on 2 kg block at t=(1)/(2) s will be

In the diagram shown coefficient of friction between 2 kg block and 4 kg block is mu =0.1 and between 4 kg and ground is mu =0.2 then answer the following quwstions .(tis time) The graph of frication force acting on 4 kg block and ground as a function of time

In the figure shown, there is no relative motion between the two blokcs. Force of friction acting on 1 kg block is

In the figure shown, the coefficient of static friction between the block A of mass 20 kg and horizontal table is 0.2. What should be the minimum mass of hanging block just beyond which blocks start moving?

A solid block of mass 2 kg is resting inside a cube shown in figure The cube is moving with a velocity hatv= 5 hati + 2hatj ms^(-1) If the coefficient of friction between the surface of cube and block is 0.2 then the force of friction between the block and cube is

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) .