Two boats of base areas `A_(1)` and `A_(2)`, connected by a string are being pulled by an extermal force `F_(0)`. The velosity is `eta` and depth of the water body is H. when the system attains a constant speed. The tension in the trhead will be

Two boats of base areas A_(1) and A_(2) , connected by a string are being pulled by an external force F_(0) . The viscosity is eta and depth of the water body is H. when the system attains a constant speed. The tension in the thead will be

Two block of masses m_(1) and m_(2) are lying on a frictionless horizontal table connected by a light string m_(2) is pulled by horizontal force F. Calculate the tension in the string .

Two block of masses m_(1) and m_(2) are lying on a frictionless horizontal table connected by a light string m_(2) is pulled by horizontal force F. Calculate the tension in the string .

Two blocks are attached by a light inextensible string and the system is pulled by applying a force F_(0) as shown in the diagram. Find the acceleration of each block and tension in the string.

Two bodies of masses m_(1) and m_(2) are connected by a weightless string and are kept on a frictionless, horizontal plane. If the body weighing m_(1) is pulled with a horizontal force F, then determine the common acceleration of the two bodies and the tension in the string.

Consider a system of masses M_(1) and M_(2)(M_(1) gt M_(2)) connected by a massless string in fig the system is pulled by a force F from the side of mass M_(1) and in fig (b) the system is pulled by the same force F from the side of mass M_(2) then:

Two bodies whose masses are m_1 = 50 kg and m_2 = 150kg are tied by a light string and are placed on a frictionless horizontal . When m 1 is pulled by a force F = 100 N, find the acceleration produced in the bodies and the tension in the string .