A block of mass `0.9 kg` attached to a spring of force constant `k` is lying on a frictionless floor. The spring is compressed to `sqrt(2) cm` and the block is at a distance `1//sqrt(2) cm` from the wall as shown in the figure. When the block is released, it makes elastic collision with the wall and its period of motion is `0.2 sec`. Find the approximate value of `k`

A block of mass 100 g attached to a spring ofstiffness 100 N//Mis lying on a frictionless floor as shown. The block is moved to compress the spring by 10 cm and released. If the collation with the wall is elastic then find the time period of oscillations.

A block of mass 0.2 kg is attached to a mass less spring of force constant 80 N/m as shown in figure. Find the period of oscillation. Take g=10 m//s^(2) . Neglect friction

In the figure, the block of mass m, attached to the spring of stiffness k is in correct with the completely elastic wall, and the compression in the spring is e. The spring is compressed further by e by displacing the block towards left and is then released. If the collision between the block and the wall is completely eleastic then the time period of oscillation of the block will be

A block of mass m compresses a spring iof stifffness k through a distacne l//2 as shown in the figure .If the block is not fixed to the spring the period of motion of the block is

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

A block of mass M connected to an ideal spring of force constant k, is placed on a smooth surface. The block is pushed to the left so as to compress the spring by a length A and then it is released. The block hits an elastic wall at a distance (3A)/(2) from its point of release. Assume the collision to be instantaneous. (a) Calculate the time required by the block to complete one oscillation (b) Draw the velocity - time graph for one oscillation of the block. (c) Find the value of k for which average force experienced by the wall due to repeated hitting of the block is F_(0) .

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 is pushed against a spring of spring constant k fixed at ne end to a wall. The block ocan side on a frictionless tableas shown in figure. The natural length of thespring is L_0 and it is compressed ti half its natural length when the block is relesed. Find teh velocity of the block aa s function of its distance x from the wall .