A mass of mass `60 kg` is pulling a mass `M` by an inextensible light rope passing through a smooth and massless pulley as shown in figure. The coefficient of friction between the mass and ground is `mu = 1//2` find the maximum value of `M` that can be pulled on the ground

A block of mass m = 2kg is accelerating by a force F = 20N applied on a smooth light pulley as shown in the figure. If the coefficient of kinetic friction between the block and the surface is mu=0.3 , find its acceleration.

Two masses of 10 kg and 20 kg are connected with an inextensible string passing over two smooth pulleys as shown in the figure. The acceleration of 20 kg mass will be :

A block A of mass m which is placed a rough inclined face of a wedge of same mass being pulled through light string and with force F as shown in figure The coefficient of friction between inclined face and block A is mu while there is no friction between the ground and wedge it the whole system moves with same acceleration then find the value of F

A body of mass 20 kg is moving on a rough horizxontal plane. A block of mass 3 kg is connected to the 20 kg mass by a string of negligible mass through a smooth pulley as shown in the figure. The coefficient of kinetic friction between the heavier mass and teh surface is (g=10m//s^(2)).

A particle of mass m connected with a hanging bob of mass M by an inextensible string is stationary relative to the rotating platform . The coefficient of static friction between the particle and platform is mu Find the a. maximum angular speed omega_(1) b. maximum angular speed omega_(2) (for M gt mu m)

Two blocks of masses m_(1) and m_(2) are connected through a massless inextensible string .A block of mass m_(1) is placed at the fixed rigid inclined surface while the block of mass m_(2) hanging at the other end of the string which is passing through a fixed massless frictionless pulley shown in figure The coefficient of static friction between the block and the inclined plane is 0.8 The system of masses m_(1) and m_(2) released from rest

A particle of mass m is pulled along an arbitrary curved surface without acceleration as shown in figure. Coefficient of friction between surface and particle is mu . Then codes: