A mass M of 100 kg is suspended with the use of strings A, B 90 and C as shown in the figure, where W is the vertical wall and R is a rigid horizontal rod. The tension in the string B is

A blolck D weighing 300kg is suspended by means of two cords A and B as shown in the figure. W is a vertical wall and R a horizontal rigid beam. The tension in the string A in kg is :

A 100 kg block is suspended with the help of three strings A, B and C. The tension in the string A is

A uniform rod of mass m and length L is suspended with two massless strings as shown in the figure. If the rod is at rest in a horizontal position the ratio of tension in the two strings T_1/T_2 is:

A uniform rod of mass m and length L is suspended with two massless strings as shown in figure. If the rod is at rest in a horizontal position the ratio of tension in the two strings T_(1)//T_(2) is

A block of mass 10 kg is suspended by three strings as shown in figure . Tension T_(2) is

As shown in figure the tension in the horizontal cord is 30 N . The weight W and tension in the string OA in Newton are

A body of mass 60 kg suspended by means of three strings, P, Q and R as shown in the figure is in equlibrium. The tension in the string P 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.

A 'block' of mass 10 kg is suspended with string as shown in figure. Find tension in the string. (g=10m//s^(2))

A block of mass 30 kg is suspended by three string as shown in fig, Find the tension in each string.