Mass-spring system The frequency of oscillation of an object suspended on a spring depends on the stiffness k of the spring (called the spring constant) and the mass m of the object. If the spring is compressed a distance a and then allowed to oscillate, its displacement is given by

A 10-g mass is suspended from a spring with stiffness If the spring is compressed a distance 5 cm and then released, find the equation that describes the oscillation of the spring.

Mass-spring system A mass suspended from a spring is pulled down a distance of 2 ft from its rest position, as shown in the figure. The mass is released at time and allowed to oscillate. If the mass returns to this position after 1 s, find an equation that describes its motion.

Mass-spring system A mass is suspended on a spring. The spring is compressed so that the mass is located 5 cm above its rest position. The mass is released at time and allowed to oscillate. It is observed that the mass reaches its lowest point s after it is released. Find an equation that describes the motion of the mass.

Simple Harmonic Motion A mass suspended from a spring oscillates in simple harmonic motion at a frequency of 4 cycles per second. The distance from the highest to the lowest point of the oscillation is 100 cm. Find an equation that describes the distance of the mass from its rest position as a function of time. Assume that the mass is at its lowest point when