What is the minimum value of applied force `F` so that both the block lifts up. Consider string to be ideal. The mass of pulley `P_(1)` is 6 kg and pulley `P_(2)` is light.

What should be the minimum force P to be applied to the string so that block of mass m just begins to move up the frictionless plane?

For the given figure the acceleration of 1 kg block if string is massless and mass of pulley is 2 kg and diameter of pulley is 0.2 m :-

The coefficient of static friction, mu_(s) between block A of mass 2 kg and the table as shown in the figure is 0.2. What would be the maximum mass value of block B so that the two blocks do not move? The string and the pulley are assumed to be smooth and massless. (g=10m//s^(2))

The coefficient of static friction, mu_(s) between block A mass 2kg and the table as shown in the figure, is 0.2. What would be the maximum mass value of block B, so that the two blocks do not move ? The string and the pulley are asseumed to be smooth and massless ( g=10m//s^(2) )

The force exerted by the ideal string on the ideal pulley P shown in the figure is

The acceleration of the block B in fig. Assuming the surfaces and the pulley P_(1) and P_(2) are all smooth, is

A block of mass m is attached with a massless spring of force constant k. The block is placed over a rough inclined surface for which the coefficient of friction is mu=(3)/(4) . The minimum value of M required to move the block up the plane is (Neglect mass of string, mass of pulley and friction in pulley)

A block of mass m is attached with a massless spring of force constant K. the block is placed over a rough inclined surface for which the coefficient of friction is mu =3/4 find the minimum value of M required to move the block up the place. (Neglect mass of string and pulley. Ignore friction in pulley). .

A block of mass M= 4 kg of height and breath b is placed on a rough plank of same mass M . A light inextensible string is connected to the upper end of the block and passed through a light smooth pulley as shown in figure. A mass m =1 kg is hung to the other end of the string. a. What should be the minimum value of coefficient of friction between the block and the plank so that, there is no slipping between the block and the wedge? b. Find the minimum value of b//h so that the block does not topple over the plank, friction is absent between the plank and the ground.

The diagram in Figure shows the combination of two pulleys P_(1) and P_(2) used to lift up a load W. (a) State the kind of pulleys P_(1) and P_(2) . (b) State the function of the pulley P_(2) . (c) If the free end C of the string moves througha distance x, by what distance is the load W raised ? (d) What effort E has to be applied at C to just raise the load W=20 kgf ? Neglect both the weight of the pulley P_(1) and friction.