A block C of mass m is moving with velocity `v_(0)` and collides elastically with block A of mass m and connected to another block B of mass `2m` through spring constant k. What is k if `x_(0)` is compression of spring when velocity of A and B is same?

Block C of mass M is moving with velocity V_(0) and collides elastically with block A of mass M and connected to another block B of mass 2M through a spring of spring constant K. What is K if X_(0) is the compression of spring when velocity of A and B is same

A block 'A' of mass M moving with speed u collides elastically with block B of mass m which is connected to block C of mass m with a spring. When the compression in spring is maximum, the velocity of block C with respect to block A is (neglect friction) :-

A block of mass m is connected to another .block of mass M by a massless spring of spring constant k. A constant force f starts action as shown in figure, then:

A block of mass m moving with a velocity v_(0) collides with a stationary block of mass M to which a spring of stiffness k is attached, as shown in Fig. Choose the correct alternative(s)

A block of mass m moving with velocity v_(0) on a smooth horizontal surface hits the spring of constant k as shown. Two maximum compression in spring is

Two blocks A and B of masses m and 2m respectively are placed on a smooth floor. They are connected by a spring. A third block C of mass m moves with a velocity v_0 along the line joing A and B and collides elastically with A, as shown in figure. At a certain instant of time t_0 after collision, it is found that the instantaneous velocities of A and B are the same. Further, at this instant the compression of the spring is found to be x_0 . Determine (i) the common velocity of A and B at time t_0 , and (ii) the spring constant.

A block of mass m moving with speed v , collides head on with another block of mass 2m at rest . If coefficient of restitution is 1/2 then what is velocity of first block after the impact ?