The blocks B and C in the figure have mass m each. The strings AB and BC are light having tension `T_(1)` and `T_(2)` respectively. The system is in equilibrium with a constant horizontal forcemg acting on C. Then which one is incorrect.

The blocks B and C in the figure have mass m each. The strings AB and BC are light, having tensions T_(1) and T_(2) respectively. The system is in equilibrium with a constant horizontal force mg acting on C.

In the figure the masses of the blocks A and B are same and each equal to m. The tensions in the strings OA and AB are T_(2) and T_(1) respectively. The system is in equilibrium with a constant horizontal force mg on B. The tension T_(1) is :-

In the figure the masses of the blocks A and B are same and each equal to m. The tensions in the strings OA and AB are T_(2) and T_(1) respectively. The system is in equilibrium with a constant horizontal force mg on B. The tension T_(1) is :- ltimg src="https://d10lpgp6xz60nq.cloudfront.net/physics_images/ALN_PHY_R03_E05_008_Q01.png" width="80%"gt

In the system shown, the blocks A,B and C are of weight 4W, W and W respectively. The system set free. The tension in the string connecting the blocks B and C is

In the system shown, the blocks A,B and C are of weight 4W, W and W respectively. The system set free. The tension in the string connecting the blocks B and C is

A block of mass 10 kg is suspended with two strings as shown in the fig. Find the tensions T_(1) and T_(2) in the two string.

The blocks are in equilibrium with a constant horizontal force 2mg acting on block B . The strings are light, find tensions in the strings and values of angles alpha and beta

Figure, represents a light inextensible string ABCDE in which AB=BC=CD=DE and to which are attached masses M,m, and M at the point B,C and D, respectively. The system hangs freely in equilibrium with ends A and E of the string fixed in the same horizontal line. it is given that tan alpha=3//4 and tan beta=12//5 . Then the tension in the string BC is

Figure, represents a light inextensible string ABCDE in which AB=BC=CD=DE and to which are attached masses M,m, and M at the point B,C and D, respectively. The system hangs freely in equilibrium with ends A and E of the string fixed in the same horizontal line. it is given that tan alpha=3//4 and tan beta=12//5 . Then the tension in the string BC is

Two blocks of masses m and M are connected by an inextensible light string . When a constant horizontal force acts on the block of mass M. The tension in the string is