Find the relation between acceleration of the two blocks `m_(1) and m_(2)`. Assume pulleys are massless and frictionless and the strings are inextensible .

Find the acceleration of the block of mass m. Assume pulleys are massless and frictionless.

Find the accelerations of two blocks. Assume pulleys and strings are massless and frictionless. Also assume the string to be inextensible.

In the figure given below, with what acceleration does the block of mass m will move? (Pulley and strings are massless and frictionless)

In the arrangement , shown below pulleys are massless and frictionless and threads are inextensible , block of mass m_(1) will remain at rest if

In the figure given below, with what accelerating does the block of mass m will move? ( Pulley and strings are massless and frictionless)

In Fig. find the acceleration a of the system and the tesnions T_(1) and T_(2) in the strings. Assume that the table and the pulleys are frictionless and the strings are massless. Take g = 9.8ms^(2)

In an atwood machine the two blocks have massess 1kg and 3kg . The pulley is massless and frictionless and string is light. The acceleration of the centre of mass (in m//s^(2) ) of this system is 0.5x . Find the value of x .

Find the acceleration of the 6 kg block in the figure. All the surfaces and pulleys are smooth. Also the strings are inextensible and light. [Take g = 10 m//s^(2) ] .

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.