Force constant of a weightless spring is `16 Nm^(-1)`. A body if mass 1 kg suspended from it is pulled down through 5 cm from its mean position and then released. The maximum kinetic energy of the body will be

Force constant of a weightless spring is 16 N/m. A body of mass 1.0 kg suspended from it is pulled down through 5 cm from its mean position and the released. The maximum kinetic energy of the system (spring+body) will be (0.0x) J. Find value of x.

The force constant of a weightless spring is 16 N m^(-1) . A body of mass 1.0 kg suspended from it is pulled down through 5 cm and then released. The maximum energy of the sysytem (spring + body) will be

A heavy load is suspended on a light spring. The spring is slowly pulled down at the midpoint (a certain work A is done thereby) and then released. Determine the maximum kinetic energy W_(k) of the load in the subsequent motion.

A spring has a natural length of 50 cm and a force constant of 2.0 xx 10^(3) N m^(-1) . A body of mass 10 kg is suspended from it and the spring is stretched. If the body is pulled down to a length of 58 cm and released, it executes simple harmonic motion. The net force on the body when it is at its lowermost position of its oscillation is (10x) newton. Find value of x. (Take g=10m/ s^(2) )

Two bodies of masses 1 kg and 3 kg respectively are connected rigidly by a vertcal spring. The body of mass 3 kg rests on a smototh horizontal surface. The force constant of the spring is 484Nm^(-1) . From the equilibrium position, the mass of 1 kg is displaced vertically through a distance of 0.02 m and then released. calculate (i) and frequency of oscillation of the mass of 1 kg (ii) the maximum velocity of this mass (iii) its oscillation energy and (iv) the reaction of the table on the mass of 3 kg, when mass 1 kg is having harmonic oscillations.

A block of mass 4 kg hangs from a spring constant k=400(N)/(m) . The block is pulled down through 15 cm below and released. What is its kinetic energy when the block is 10 above the equilibrium position.?

A 10 kg metal block is attached to a spring constant 1000 Nm^(-1) . A block is displaced from equilibrium position by 10 cm and released. The maximum acceleration of the block is

A block whose mass is 2 kg is fastened on a spring whose spring constant is 100 Nm^(-1) . It is pulled to a distance of 0.1 m from over a frictionless surface and is released at t=0. Calculate the kinetic eneryg of the block when it is 0.05 m away from its mean position.

2 kg box rests on a frictionless of angle 30^(@) supported by a spring. The spring stretches by 3cm (a) Find the force constant of the spring (b) if the box is pulled down the incline 5 cm from its equilibrium position and released what will be its initial acceleration? (g=10m//s^(2))