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

Two blocks of equal masses are connected by an ideal string passing over an ideal pulley as shown in the figure All the surfaces in contact with blocks are rough having coefficient of kinetic friction mu between them. If the blocks slide with constant velocity, find the value of mu

The system shown in fig, is released from rest. Calculate the tension in the string and the force exerted by the string on the pulleys, assuming pulleys and strings are massless.

Two blocks are connected by a long inextensible string passing over an ideal pulley as shown in the figure. If the system is released from rest then the common speed of blocks when block m_2 moves a distance I will be

Two blocks of masses 5 kg and 4 kg are connected with ideal string which is passing over an ideal pulley as shown in figure. If the system is released from rest then the magnitude of acceleration of the blocks will be (Take g = 10 ms^-2 and sqrt3 = 1.7 )

A mass M is divided in two parts m and M-m . Now two parts are connected by an ideal string passing over a pulley as shown in diagram. Find value of m such that tension in string is maximum.

Ideal gas is taken through the process shown in the figure :

Ideal gas is taken through the process shown in the figure :

Two blocks, each having mass m, are connected with an ideal string through ideal pulleys on a frictionless fixed wedge as shown in the figure. The acceleration of the blocks is

Figure shows a light platform on which a man of mass M is standing and holding a string passing over a system of ideal pulleys. Another mass m is hanging as shown in fig. Find the force the man has to exert to maintain the equlibrium of system, and find the force exerted by the platform on the man. Also find the ratio of M//m .

A block of mass 5kg is hung with the help of light string which is passing over an ideal pulley as shown as in figure.The force is exerted by the clamp on the pulley will be (g= 10 m/s^2)