Three equal masses `A,B` and `C` are pulled with a constant force `F`. They are connected to each other with strings. The ratio of the tension between `AB` and `BC` is

Fig. shows a system of three masses being pulled with a force F. the masses are connected to each other by strings. The horizontal surface is frictionless . The tension T_(1) in the first string is 16 N. The acceleration of the system is :

Fig. shows a system of three masses being pulled with a force F. the masses are connected to each other by strings. The horizontal surface is frictionless . The tension T_(1) in the first string is 16 N. The acceleration of the system is :

Three blocks of masses 6 kg, 4 kg and 2 kg are pulled on a rough surface by applying a constant force 20 N. The values of coefficient of friction between blocks and suface are shown in figure. Q. In the arrangement shoen tension in the string connecting 4 kg and 6 kg masses is

Three blocks of masses 6 kg, 4 kg and 2 kg are pulled on a rough surface by applying a constant force 20 N. The values of coefficient of friction between blocks and suface are shown in figure. Q. In the arrangement shoen tension in the string connecting 4 kg and 6 kg masses is

Three blocks of masses 6 kg, 4 kg and 2 kg are pulled on a rough surface by applying a constant force 20 N. The values of coefficient of friction between blocks and suface are shown in figure. Q. In the arrangement shoen tension in the string connecting 4 kg and 6 kg masses is

Three charges +q, +2q and 4q are connected by strings as shown in the figure.What is ratio of tensions in the strings AB and BC

As shown in Fig. three masses m, 3m and 5m connected together lie on a frictionless horizontal surface and pulled to the left by a force F. The tension T_(1) in the first string is 24 N. Find (i) acceleration of the system, (ii) tension in the second string, and (iii) force F.

Three blocks of masses 2 kg , 3 kg and 5 kg are connected to each other with light string and are then placed on a frictionless surface as shown in the figure. The system is pulled by a force F= 10 N then tension T_(1)=