A metal block of area 0.10 `m^(2)` placed at a table, is connected to a 0.010 kg mass via a string that passes over an ideal pulley. Th pulley is fixed at the edge of the table. A liquid with a film of thickness 0.30 mm is placed between the block and the table. If the coefficient of viscosity of the liquid is `3.45 xx 10^(-3)` Pa s, with what constant velocity does the block move when released?

A metal block of area 0.10 m^(2) is connected to a 0.01 kg mass via a string that passes over a massless and frictionless pulley as shoen in figure.A liquid with a film thickness of 0.3 mm is placed between the block and the table. When released the block moves to the right with a constant of 0.085 m s^(-1) . The cofficient of viscosity of the liquid is

A metal block of area 0.10 m^(2) is connected to a 0.02 kg mass via a string. The string passes over an ideal pulley (considered massless and frictionless) as shown in figure. A liquid with a flim of thickness 0.15 mm is placed between the plate and the table. When released the plate movees to the right with a constant speed of 0.075 m s^(-1) . What is the coefficient of viscosity of the liquid?

A metal plate of area 0.10m^(2) is connected to a 0.01 kg mass via a string that pases over an idial pulley (considered to be frictionless), as shown in the figure. A liquid with a film thickness of 3.0 mm is placed between the plate and the table. When released the plate moves to the right with a constant speed of 0.085ms^(-1) . Find the coefficient of vicosity of the liquid.

A metal plate of area 0.10 m^(2) is connected to a 0.04 kg mass via a string that passes over an ideal pulley (considered massless and frictionless) A liquid with a film of thickness of 0.3mm is placed between the plate and the table. When system is released, the plate moves up with constant speed of 0.085 m//s . Find the approximate value of coefficient of viscosity of the liquid. (mass of metal plate is 0.02 kg , g=9.8 m//s^(2) )

Two blocks of masses of 40 kg and 30 kg are connected by a weightless string passing over a frictionless pulley as shown in the figure.

A block of mass M is placed on a horizontal surface. It is tied with an inextensible string that passes through ideal pulleys. A mass m is connected to the pulley as shown. For what value of m, the block M will accelerate towards the fixed pulley ?

A block of mass m_(1) rests on a horizontal table. A string tied to the block is passed on a frictionless pulley fixed at the end of the table and to the other end of string is hung another block of mass m_(2) . The acceleration of the system is

Two blocks of masses 2.0 kg and 3.0 kg are connected by light inextensible string. The string passes ove an ideal pulley pivoted to a fixed axel on a smooth incline place as shown in the figure. When the blocks are released, find magnitude of their accelerations.