A spring of force constant k = 100 N/m is compressed to x = 0.05 m by a block of mass 1 kg and released.Find the distance d where it falls

A spring of force constant k = 300 N/m connects two blocks having masses 2 kg and 3kg lying on a smooth horizontal plane. If the spring block system is released from a stretched position find the number of complete oscillations in 1 minute. Take pi = sqrt10

A block of mass M = 40 kg is released on a smooth incline from point A. After travelling through a length of 30 cm it strikes an ideal spring of force constant K = 1000 N//m . It compresses the spring and then gets pushed back. How much time after its release, the block will be back to point A?

One end of aspring of force constant k is fixed to a verticle wall and the other to a block of mass m resing on a smooth horizontal surface There is another and wall at a distance x_(0) from the block The spring is then compressed by 2x_(0) and released The time taken to at the wall is

One end of a spring of force constant k is fixed to a vertical wall and the other to a blcok of mass m resting on a smooth horizontal surface. There is another wall at distance x_(0) from the block. The spring is then compressed by 2x_(0) and released. The time taken to strike the wall is

A block of mass m = 2 kg is attached to two unstretched spring of force constant k_(1)=100 N//m and k_(2)=125 N//m The block is displaced towards left through a distance of 10 cm and released. Find the speed of the block as it passes through the mean position.

A block of mass 1kg is connected with a massless spring of force constant 100 N//m . At t = 0 , a constant force F = 10N is applied on the block. The spring is in its netural length at t = 0 . The speed of particel at x = 6cm form mean position is

A block A has a mass m_(1)=2 kg and is attached to a spring of spring consstant 50 N/m. Another block of mass 4 kg is pressed against A, so that the spring is compressed by a distance d. Then find the maximum value of d (in metre) for which on release of B. the block A does no lose contact from wall. (Friction coefficient mu=0.5 ).

A block of mass m = 25 kg on a smooth horizontal surface with a velocity vec v = 3 ms^(-1) meets the spring of spring constant k = 100 N//m fixed at one end as shown in figure. The maximum compression of the spring and velocity of block as it returns to the original position respectively are. .

A block of mass 1 kg is suspended from a spring of constant 100 N/m. initially the spring is unstretched. The block is then released. What is the acceleration (in m//s^(2) ) of the block when its velocity is 0.6 m/s in the downwards direction ?