In an ideal Atwood machine having only two blocks on either side of pulley the sum of two masses is constant. If the string can sustain a tension equal to (24)/(50) of the weight of the sum of the two masses,then the least acceleration of the masses would be (in `ms^(-2)`)(g=10m`s^(-2)`)

A thread is wound around two discs on either sides. The pulley and the two discs have the same mass and radius. There is no slipping at the pulley and no friction at the hinge. Find out the acceleration of the two discs and the angular acceleration of the pulley.

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 .

Two masses m and M(gt m) are joined by a light string passing over a smooth light pulley. The centre of mass of the system moves with an acceleration

If coeffiecient of friction between the block of mass 2kg and table is 0.4 then out acceleration of the system and tension in the string. (g=10m//s^(2))

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 )

An arrangement of pulleys and blocks is shown in the figure . The two pulleys and the strings are ideal. If m_(2) gt m_(1) , then which of the following (s) is / are wrong ?

Two blocks each of mass 4 kg connected by a light string which is passing over an ideal pulley is as shown in figure. If the system is released from rest then the acceleration (in m/ s^2 ) of centre of mass is (g = 10 m/ s^2 )

A 2 kg block A is attached to one end of a light string that passes over an an ideal pulley and a 1 kg sleeve B slides down the other part of the string with an acceleration of 5m//s^(2) with respect to the string. Find the acceleration of the block, acceleration of sleeve and tension in the steing. [g=10m//s^(2)]

In the figure shown the man of mass 60kg is lowering a block of mass 10kg with an acceleration of 2m//s^2 . Find the reading of the machine.

In the figure shown the man of mass 60kg is lowering a block of mass 10kg with an acceleration of 2m//s^2 . Find the reading of the machine.