In the given figure balls A&B are released simultaneously , when string is horizontal , length of strings are same but mass of ball B is twice of mass of ball A. Then

In the given figure tension at the mid-point of string -2 . If mass of string -1 is 6 kg and mass of string -2 is 4 kg .

A ball of mass 1kg is suspended by an inextensible string 1m long attached to a point O of a smooth horizontal bar resting on fixed smooth supports A and B. The ball is released from rest from the position when the string makes an angle 30^@ with the vertical. The mass of the bar is 4kg . The displacement of bar when ball reaches the other extreme position (in m) is

A ball is released from point A. During its motion ball takes two seconds from B to C Find the time taken by ball from A to C. .

In the given figure, Find mass of the block A, if it remains at rest, when the system is released from rest. Pulleys and strings are massless. [g=10m//s^(2)]

Prove that the tension throughout the string is uniform when the mass of string is considered to be zero.

The Atwood machine in figure has a third mass attached to it by a limp string. After being released, the 2m mass falls a distance x before the limp string becomes laut. Thereafter both the mass on the left rise at the same speed. What is the final speed ? Assume that pulley is ideal.

In the given arrangement shown in figure, surface is frictionless, string is inextensible and massless, pulley B is frictionless. Length of the string is l . At t=0 , AB=l . Find out the velocity of block C , when distance between blocks is minimum, it was released from rest at t=0 .

A particle of mass 2m is connected by an inextensible string of length 1.2 m to a ring of mass m which is free to slide on a horizontal smooth rod. Initially the ring and the particle are at the same level with the string taut. Both are then released simultaneously. The distance in meter moved by the ring when the string becomes veritcal is :-

A ball of mass m kept at the corner as shown in the figure, is acted by a horizontal force F. The correct free body diagram of ball is

Two identical balls A and B each of mass 0.1 kg are attached to two identical mass less is springs. The spring-mass system is constrained to move inside a right smooth pipe bent in the form of a circle as shown in figure . The pipe is fixed in a horizontal plane. The center of the balls can move in a circle of radius 0.06 m . Each spring has a natural length of 0.06 pi m and force constant 0.1 N//m . Initially, both the balls are displaced by an angle theta = pi//6 radians with respect to diameter PQ of the circle and released from rest. a. Calculate the frequency of oscillation of the ball B. b. What is the total energy of the system ? c. Find the speed of the ball A when A and B are at the two ends of the diameter PQ.