A block of massm, initally at rest is dropped from a height h onto a spring whose force constant is K. Find the maximum distance x through which the spring will be compressed.

A block of mass m initially at rest is dropped from a height h on to a spring of force constant k . the maximum compression in the spring is x then

A block of mass m = 2.0 kg is dropped from height h = 40 cm onto a spring of spring constant k = 1960 N//s . Find the maximum distance through which the spring is compressed. Take g = 9.8 m//s^(2)

A block of mass 2 kg initially at rest is dropped from a height of 1m into a vertical spring having force constant 490 Nm^(-1) . Calculate the maximum distance through which the spring will be compressed.

A block of mass 2kg is propped from a height of 40cm on a spring where force constant is 1960Nm^(-1) The maximum distance thought which the spring compressed by

A 2-kg block is dropped from a height of 0.4 m on a spring of force constant k=1960 N . Find the maximum distance the spring will be compressed. (Take g = 9.8 ms^(-2) ) [Hint : Consider conservation of energy]

A spring gets compressed when a body of mass 5 g is dropped on it from a height of 2 m . Calculate the maximum distance s through whichthe spring is compressed. The force constant of spring is 100 Nm^(-1) .

A slab S of mass m released from a height h_(0) , from the top of a spring of force constant k . The maximum compression x of the spring is given by the equation.

A block of mass m held touching the upper end of a light spring of force constant K as shown in figure. Find the maximum potential energy stored in the spring if the block is released suddenly on the spring.

A block of 200 g mass is dropped from a height of 2 m on to a spring and compress the spring to a distance of 50 cm. The force constant of the spring is

A smooth block of mass m is released from rest from a height h. It slides and compresses the spring of stiffness k. Find the maximum compression of the spring . Taking block spring a system. Now external force is doing work on system and no non-conservative force is present. The mechanincal energy should be conserved. DeltaK+DeltaU=0