Two balls A and B weighing 7 N and 9 N are connected by a light code. The system is suspended from a fixed support by connecting the ball A with another ligh cord. The ball B is pulled aside by a horizontal force 12 N and equilibrium is established. Angles `alpha and beta` respectively are

Two small balls, each of mass m are connected by a light rigid rod of length L. The system is suspended from its centre by a thin wire of torsional constant k. The rod is rotated about the wire through an angle theta_0 and released. Find the tension in the rod as the system passes through the mean position.

Two blocks A and B each of 20 kg lying on a frictionless table are connected by a light string. The system is pulled horizontally with an acceleration of 2 ms ^ ( - 2 ) by a force F on B. The tension in the string will be

Two identical blocks A and B each of weight 20N are placed on a frictionless horizontal plane. The portion of the string connected to B is vertical and that connected to A makes an angle of 53^(@) with the plane . The minimum horizontal force F required to lift the blocks B is

A dumbbell consists of two balls A and B of mass m=1 kg and connected by a spring. The whole system is placed on a smooth horizontal surface as shown in the figure. Initially the spring is at its natural length, the ball B is imparted a velocity v_(0)=8/(sqrt(7))m//s in the direction shown. The spring constant of the spring is adjusted so that the length of the spring at maximum elongation is twice that of the natural, length of the spring. Find the maximum potential energy stored (in Joule) in the spring during the motion.

Two very small balls A and B of masses 4.0kg and 5.0kg are affixed to the ends of a light inextensible cord that passes through a frictionless ring of radius negligible compared to the length of the cord. The ring is fixed at some height above the ground . Ball A is pulled aside and given a horizontal velocity so that it stars moving on a circular path parallel to the ground, keeping ball B in euilibrium as shown. speed of the ball A is closest to

Two masses of 5 kg and 10 kg are suspended from a fixed support as shown in the figure. The system is pulled downwards with a force of 150 N applied to the lower mass. The string attached to the support breaks and the system accelerates downwards. If the downward force continues to act, the acceleration of the center of mass of the system is :

A steel ball is suspended by a light in extensible string of length l from a fixed point O . When the ball is in equilibrium it just touches a vertical wall as shown in the figure. The ball is first taken aside such that string becomes horizontal and then released from rest. If coefficient of restitution is e, then find the maximum deflection of the string after nth collision.