Two blocks, each having a mass M, rest on frictionless surfaces as shown in the figure. If the pulleys are light and frictionless and M on the incline is allowed to move down, then the tension in string will be

For the system shown in the figure,the pulleys are light and frictionless.The tension in the string will be

Two blocks each of mass M are resting on a frictionless inclined plane as shown in fig then:

Two blocks each of mass M are resting on a frictionless inclined plane as shown in fig then:

Two blocks each of mass M are resting on a frictionless inclined plane as shown in fig then:

Two blocks A and B each having a mass of 20kg, rest on frictionless surfaces as shown in the figure below.Assuming the puelleys to be light and frictionless, compute : (a) the time required for block A, to move down by 2m on the plane, starting from rest, ( b) tension in the string, connecting the blocks.

For the system shown in the figure, the pulleys are light and frictionless. The tension in the string will be (Assume all surfaces to be smooth)

For the system shown in the figure, the pulleys are light and frictionless. The tension in the string will be (Assume all surfaces to be smooth)

Find the acceleration of two masses as shown in figure . The pulley are light and frictionless and string are light and frictionless and string are light and inextensible.

Find the acceleration of two masses as shown in figure . The pulley are light and frictionless and string are light and frictionless and string are light and inextensible.

Consider the system as shown in the figure. The pulley and the string are light and all the surfaces are frictionless. The tension in the string is (=g10m//s^(2)) .