The system is in equilibrium. Find the angle `theta`

When a system is in equilibrium state

The pulley and strings shown in fig 15.3.16 are smooth and of negligible mass. For the system to remiain in equilibrium the angle theta should be

The pulleys and strings shown in the figure are smooth and of negligible mass. For the system to remain in equilibrium, the angle theta should be

The pulleys and strings shown in the figure are smooth and of negligible mass. For the system to remain in equilibrium, the angle theta should be

The pulleys and strings shown in fig are smooth and of negligible mass. For the system to remain in equilibrium the angle theta should be:

The string and the pulley are massless and the system is in equilibrium. Find the ratio of Tension T_(A) and T_(B)

Two particles (free to move) with charges +q and +4q are a distance L apart. A third charge is placed so that the entire system is in equilibrium. (a) Find the location, magnitude and sign of the third charge. (b) Show that the equilibrium is unstable.

Two particles (free to move) with charges +q and +4q are a distance L apart. A third charge is placed so that the entire system is in equilibrium. (a) Find the location, magnitude and sign of the third charge. (b) Show that the equilibrium is unstable.

Find m_(3) if the system is in equilibrium the incline is smooth and string and pulley are light

Two masses m and M are attched with strings as shwon . If the system is in equilibrium then , tan theta