Two blocks A(3kg) and B(6kg) are connected by a spring of stiffness 512 N/m and placed on a smooth horizontal surface. Initially the spring has its equilibrium length. Velocities 1.8m/s and 2.2 m/s are imparted to A and B in opposite direction. The maximum extension in the spring will be –

Two blocks A(3 kg) and B(2 kg) resting on a smooth horizontal surface is connected by a spring of stiffness 480N//m . Initially the spring is underformed and a velocity of 2 m//s is imparted to A along the line of the spring away from B. The maximum extension in meters of the spring during subsequent motion is :-

Two blocks A (5kg) and B(2kg) attached to the ends of a spring constant 1120 N/m are placed on a smooth horizontal plane with the spring undeformed. Simultaneously velocities of 3m/s and 10m/s along the line of the spring in the same direction are imparted to A and B then

Two blocks A (5kg) and B(2kg) attached to the ends of a spring constant 1120N//m are placed on a smooth horizontal plane with the spring undeformed. Simultaneously velocities of 3m//s and 10m//s along the line of the spring in the same direction are imparted to A and B then

Two blocks A (5kg) and B (2kg) attached to the ends of a spring constant 1120 N//m are placed on a smooth horizontal plane with the spring unreformed. Simulataneously velocities of 3 m//s and 10 m//s along the line of the spring in the same direction are imparted to A and B then

Two blocks A (5 kg) and B( 5kg) attached to the ends of a spring constant 1000 N//m are placed on a smooth horizontal plane with the spring undeformed . Simultaneously velocities of 10m//s and 4m//s along the line of the spring in the same direction are imparted to A and B then

Two blocks of masses m_(1) and m_(2) are connected by a massless spring and placed on smooth surface. The spring initially stretched and released. Then :

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 bolcks A (5kg) and B(2kg) attached to the ends of a spring contants 1120N//m are jkkplaced on smooth horizontal plane with the spring undeformed. Simultaneously velocities of 3m//"s ant" 10m//s along the line of the spring in the same direction are imparted to A and B then- (a) Find the maximum extension of the spring. (b) When does the first maximum compression occurs after start.

Two blocks of masses 3kg and 6kg respectivley are placed on a smooth horizontal surface. They are connected by a light spring of force constant k=200N//m . Initially the spring is unstretched. The indicated velocities are imparted to the blocks. Find the maximum extension of the spring.